Тепловые нагреватели электрические: рейтинг топ-7 по версии КП

Электрические тепловые нагреватели в Красногорске

3 250 руб

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Электрический нагреватель воздуха QUATTRO ELEMENTI QE-1500i инфракрасный 1,5 кВт 790-557 +7 (863) 27 показать

из Ростова-на-Дону в Красногорск

3 250 руб

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Электрический нагреватель воздуха QUATTRO ELEMENTI QE-1500i инфракрасный 1,5 кВт 790-557 +7 (861) 29 показать

из Краснодара в Красногорск

56 760 руб

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Электрический нагреватель воздуха Master B 18 EPR +7 (861) 29 показать

из Краснодара в Красногорск

8 280 руб

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Электрический нагреватель воздуха Master B 3,3 EPB +7 (861) 29 показать

из Краснодара в Красногорск

6 720 руб

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Электрический нагреватель master B 2 EPB +7 (861) 29 показать

из Краснодара в Красногорск

-15%

3 397 руб 3 997 руб

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500W Портативный мини-космический электрический Керамический Нагреватель Персональный Нагреватель Вентилятор +7 (495) 03 показать

из Санкт-Петербурга в Красногорск

5 590 руб

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Нагреватель воздуха электрический Quattro Elementi QE-5000 C 649-240 +7 (812) 44 показать

из Санкт-Петербурга в Красногорск

5 450 руб

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Нагреватель воздуха электрический Quattro Elementi QE-5000 ЕТ 772-241 +7 (812) 44 показать

из Санкт-Петербурга в Красногорск

5 590 руб

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Нагреватель воздуха электрический Quattro Elementi QE-5000 ЕNТ 649-264 +7 (812) 44 показать

из Санкт-Петербурга в Красногорск

3 999 руб

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СОРОКИН Нагреватель воздуха электрический 380В, 5,0 кВт, 400м3/ч +7 (967) 59 показать

из Санкт-Петербурга в Красногорск

4 999 руб

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СОРОКИН Нагреватель воздуха электрический 380В, 7,0 кВт, 400м3/ч +7 (967) 59 показать

из Санкт-Петербурга в Красногорск

3 999 руб

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СОРОКИН Нагреватель воздуха электрический 380В, 5,0 кВт, 400м3/ч +7 (921) 89 показать

из Санкт-Петербурга в Красногорск

4 999 руб

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СОРОКИН Нагреватель воздуха электрический 380В, 7,0 кВт, 400м3/ч +7 (921) 89 показать

из Санкт-Петербурга в Красногорск

3 999 руб

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СОРОКИН Нагреватель воздуха электрический 380В, 5,0 кВт, 400м3/ч +7 (921) 42 показать

из Санкт-Петербурга в Красногорск

4 999 руб

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СОРОКИН Нагреватель воздуха электрический 380В, 7,0 кВт, 400м3/ч +7 (921) 42 показать

из Санкт-Петербурга в Красногорск

3 999 руб

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СОРОКИН Нагреватель воздуха электрический 380В, 5,0 кВт, 400м3/ч +7 (495) 13 показать

из Москвы в Красногорск

2 499 руб

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СОРОКИН Нагреватель воздуха электрический 220В, 3,0 кВт, 300м3/ч +7 (495) 13 показать

из Москвы в Красногорск

46 500 руб

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Электрический нагреватель с вентилятором MASTER B 18 EPR +7 (495) 58 показать

из Москвы в Красногорск

87 500 руб

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Электрический нагреватель с вентилятором MASTER B 30 EPR +7 (495) 58 показать

из Москвы в Красногорск

5 500 руб

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Электрический нагреватель с вентилятором MASTER B 2 EPB +7 (495) 58 показать

из Москвы в Красногорск

4 890 руб

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Пушка тепловая электрическая DENZEL DHC 5-400 96428 220 В, 0,04/3/5 кВт, керамический нагреватель 8 (800) 77 показать

из Москвы в Красногорск

32 300 руб

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Электрический нагреватель воздуха MASTER B 22 EPB +7 (499) 39 показать

из Москвы в Красногорск

46 500 руб

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Электрический нагреватель воздуха MASTER B 18 EPR +7 (499) 39 показать

из Москвы в Красногорск

87 500 руб

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Электрический нагреватель воздуха MASTER B 30 EPR +7 (499) 39 показать

из Москвы в Красногорск

91 440 руб

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Электрический нагреватель воздуха Master RS 30 +7 (861) 29 показать

из Краснодара в Красногорск

6 800 руб

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Электрический нагреватель с вентилятором MASTER B 3.3 EPB +7 (495) 58 показать

из Москвы в Красногорск

10 200 руб

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Электрический нагреватель с вентилятором MASTER B 5 EPB +7 (495) 58 показать

из Москвы в Красногорск

12 800 руб

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Электрический нагреватель с вентилятором MASTER B 9 EPB +7 (495) 58 показать

из Москвы в Красногорск

77 724 руб

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Электрический нагреватель воздуха MASTER RS 30 +7 (499) 39 показать

из Москвы в Красногорск

22 200 руб

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Электрический нагреватель воздуха Master B 15 EPB +7 (499) 39 показать

из Москвы в Красногорск

1 800 руб

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Электрическая тепловая пушка Master B 2 PTC +7 (499) 39 показать

из Москвы в Красногорск

22 200 руб

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Электрический нагреватель с вентилятором MASTER B 15 EPB +7 (495) 58 показать

из Москвы в Красногорск

32 300 руб

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Электрический нагреватель с вентилятором MASTER B 22 EPB +7 (495) 58 показать

из Москвы в Красногорск

5 500 руб

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Электрическая тепловая пушка master B 2 EPB +7 (499) 39 показать

из Москвы в Красногорск

10 200 руб

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Электрическая тепловая пушка master B 5 EPB +7 (499) 39 показать

из Москвы в Красногорск

7 700 руб

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Электрическая тепловая пушка master B 9 eса +7 (499) 39 показать

из Москвы в Красногорск

12 800 руб

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Электрическая тепловая пушка master B 9 EPB +7 (499) 39 показать

из Москвы в Красногорск

3 600 руб

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Электрическая тепловая пушка master B 3 ECA +7 (499) 39 показать

из Москвы в Красногорск

5 400 руб

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Электрическая тепловая пушка master B 5 ECA +7 (499) 39 показать

из Москвы в Красногорск

89 800 руб

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Электрический нагреватель воздуха MASTER RS 40 +7 (499) 39 показать

из Москвы в Красногорск

6 800 руб

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Электрическая тепловая пушка master B 3.3 EPB +7 (499) 39 показать

из Москвы в Красногорск

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Быстросъемные погружные электрические нагреватели +7 (8332) 4 показать

из Кирова в Красногорск

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Электрические инфракрасные излучатели +7 (8332) 4 показать

из Кирова в Красногорск

-15%

1 780 руб 2 094 руб

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500w Горизонтальные Мини Нагреватель Электрические Нагреватель Малый Рабочий стол Нагреватель Зимний нагреватель Вентиля +7 (495) 03 показать

из Санкт-Петербурга в Красногорск

-15%

1 599 руб 1 881 руб

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900 Вт Мини Электрические Нагреватель Теплый Бытовой Стены Удобно Нагреватель Офис Плита Комната +7 (495) 03 показать

из Санкт-Петербурга в Красногорск

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Электрический нагреватель Shuft для круглых каналов EHC 100-0.3/1 +7 (351) 27 показать

по г. Красногорск

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Электрический нагреватель Shuft для круглых каналов EHC 100-0.6/1 +7 (351) 27 показать

по г. Красногорск

90000 Electric Heater Manufacturers | Electric Heater Suppliers 90001 90002 Electric Heater Manufacturers List 90003 90002 90005 Applications 90006 90003 90008 Electric heaters have widespread applications throughout many industries, where they provide heat for all sorts of reasons. For example, in industrial and manufacturing processes, they can provide heat to warm liquid tanks, help shape or melt material or radiate heat the air to preserve a substance’s molten state. Likewise, in extrusion processes, electric heaters sometimes supplement natural friction to create and support material plasticization.Other processes that benefit from electric heaters include packaging, foam fabricating, metal fabricating, food processing and water treatment. They also provide heating for comfort to both residential and commercial buildings. 90009 90002 90005 History 90006 90003 90008 In the early 1890’s, the American company General Electric began producing the first heaters. These heaters relied on elongated glass bulbs, which had only been invented the decade before, as their heating element. They looked like table lamps.The earliest electric heaters work using bulbs, which were invented by Thomas Edison in 1880. While these heaters did provide some warmth, they were neither durable nor particularly strong. In addition, they were not terribly versatile. To remedy the situation, Albert Leroy Marsh fabricated the alloy chromel. Chromel, also known as nichrome, was the first alloy used as a heating element. Up to 300 times stronger than other alloys of the day, chromel can heat it up to 1400 ℃, and it resists corrosion.Heaters with chromel heating elements were able to create and disperse heat more efficiently than lightbulb heaters. 90009 90008 Meanwhile, over in the UK, based off of the bulb heater Hebert John Dowsing designed an all-electric cooking system. It featured a copper backing that allowed heat radiation to enter a room gradually. Debuting his invention in 1891, Dowsing is considered the father of domestic heating in the UK. 90009 90008 Another invention of the late 19th century was the electric water heater, developed by Norwegian mechanical engineer Edwin Ruud.His model featured automatic electric heating of stored water. Initially working for the Fuel and Gas Manufacturing Company in Pittsburgh, he eventually started his own company, the Ruud Manufacturing Company, in 1897. His water heater company is successful to this day. 90009 90008 In 1912 manufacturers began producing portable heaters. One of the earliest portable heating technology manufacturers was Charles Reginald Belling. The first patent for central heating was granted to Alice Parker in 1919.Hers was a gas heater. In 1935 another inventor added an electric fan and ductwork to this highly successful model, creating the first forced wall convection heater. 90009 90022 90022 90024 Cartridge and Immersion Heaters — Backer Hotwatt, Inc. 90008 After World War II, radiant heating and the bar heater, also known as electric fire, were invented. Radiant heaters relied on bars of coiled water to work. When current passed through them, the wire would glow orange. Today, we still use radiant bar heaters.However, they are not exactly the same as the first ones. Particularly, they now have different safety standards. That’s because early bar heaters, which were typically portable, were easy to knock over. The result of this occurrence was often a fire and / or injury. 90009 90008 The 1960s saw the development of the storage heater, used in the home and in industrial settings to provide the same amount of heat while consuming less energy. The 70s and 80s experienced a heavier use of electric heat, as the systems were restructured and designed for greater capacities.Modern electric heating systems control heat production with smart technologies, like digital programming and remote controls. Electric heaters have not only made heating easier and more efficient, but have slowed pollution as they’ve decreased our dependence on wood and fossil fuels. 90009 90002 90005 Design 90006 90003 90008 90034 Production Process 90035 90009 90008 To make electric heaters, manufacturers must make or assemble heating elements, shielding or enclosures, and insulation materials.Heating elements generate heat. They may be simple coils or they may be comprised of elaborate shapes with advanced ceramic insulators to control heat qualities. The choice of what heating element design to construct is made by the manufacturer. The shielding (sheath) improves performance and extends operating life. Insulation retains and absorbs electrical energy so that it may be released as additional heat energy. 90009 90008 90034 Materials 90035 90009 90008 Almost all electric heaters feature a sheath made of ferrous or non-ferrous metal materials, like: nickel, stainless steel, aluminum or another conductive material.Manufacturers base materials on which one will best extend operating life and improve performance. Of all the insulation materials, such as minerals, mica or fiberglass, the most common types of insulation are made of or with ceramics. 90009 90008 90034 Design Considerations and Customization 90035 90009 90008 When helping you choose a system or designing a custom electric heating system for you, electric heater suppliers think about a number of different factors. First, they consider what you actually need to heat (A building? A room? Water?) Based on this, they sketch out a basic configuration.Then, they think about specific requirements like: operating temperature, operating efficiency, heater lifespan and permissible / safe watt densities. In addition, use your application specifications to calculate your system start-up power requirement, system maintenance power requirements and operating heat losses. They also consider the environment in which your heater will work. Finally, they take all of this information to decide what heating element material, electric heater type, size, quantity and control system will work best for you.90009 90002 90005 Types 90006 90003 90008 There is an astonishing variety of heaters available on the market, including crossover styles, a variety that continues to grow daily. Other varieties include: band heaters, strip heaters, process heaters, cartridge heaters, radiating heaters, immersion heaters, circulation heaters, tubular heaters, air heaters, drum heaters and water heaters. 90009 90008 90034 Band Heater 90035 90009 90008 A band heater is a small electric heater that you can attach to nozzles, pipes and tubes for localized heating.It usually provides conductive heat, though it can also provide convection air heating. Band heaters can reach temperatures from around 300 ℉ to 1400 ℉. Also known as barrel heaters or knuckle heaters, band heaters are best for use in plastic and metal forming processes like extrusion. They can also be used to clear ice from troughs and gutters. 90009 90008 90034 Strip Heater 90035 90009 90008 Strip heaters are small heaters known for their rugged construction and low cost. To work, they can be clamped or bolted to equipment to directly provide heat.They can also heat small spaces inside enclosures. Strip heaters are typically straight and flat like a ruler, but often also feature fins, which offer fuller heat radiation into the air. Manufacturers can also produce circular strip heaters for use around cylindrical objects like tubing. Most often, they’re used for thawing, baking, platens, moisture protection, drying, melting, extrusion and air heating. Strip heaters and band heaters would be exactly alike if not for the fact that band heaters are usually slightly smaller and more flexible.90009 90008 90034 Process Heater 90035 90009 90008 Process heaters are electric heaters used to heat treat, surface treat, shape and generally process raw materials. 90009 90008 90034 Cartridge Heater 90035 90009 90008 Cartridge heaters a small and cylindrical. They are designed this way so that they can be inserted into small holes drilled into metal parts and materials, where they provide internal heating. The heat they provide may be localized or it may radiate throughout the whole interior of that into which they are inserted.Typically, cartridge heaters are used in manufacturing processes like: extrusion, thermoforming, mold forming, plastic forming, rubber forming, labeling, die cutting, sealing, hot stamping, fluid heating and printing. You can find them inside of machinery like semiconductors, platens, hot plates and shrink wrap machines. 90009 90008 90034 Radiating Heater 90035 90009 90008 Radiating, or radiant, heaters work using the principles of radiant heat to radiate heat energy. They are straightforward and heat anything within their range.90009 90008 90034 Immersion Heater 90035 90009 90008 Immersion heaters are a type of radiant heater. They heat liquids and some solids when they are immersed into them. Like cartridge heaters, they heat the space around them. Immersion heaters are safe and efficient tools for heating large volumes of liquids. 90009 90008 90034 Circulation Heater 90035 90009 90008 Circulation heaters, as their name implies, are electric heaters that heat the liquid or gas that circulates within an enclosed space.90009 90008 90034 Tubular Heater 90035 90009 90008 Tubular heaters are named after their tubular shape. They consist of a coil heating element, a heating element binder in which the coil is encased and magnesium oxide powder, which surrounds the binder. They can be installed or mounted on a wide variety of items and systems. They conduct heat via radiation, convection or conduction. 90009 90008 90034 Air Heater 90035 90009 90008 Air heaters heat air in residential, commercial and industrial settings alike.They may do so within a closed space, like space heaters do, or they may heat large spaces as part of a larger fan system. On top of that, they can be used to heat air for manufacturing and packaging processes, like shrink wrapping. When used to pass air through ducts, they’re also known duct heaters. They work via gravitational or forced air methods. 90009 90008 90034 Drum Heater 90035 90009 90008 Drum heaters are industrial heaters used specifically to heat industrial drums. The drums they heat usually hold water, chemical or food products that need to maintain a certain temperature during storage and / or shipment.90009 90008 90034 Water Heater 90035 90009 90008 Water heaters, just as you’d expect, are used to heat water. There are several types of water heating, including: storage water tanks, tankless heaters, solar water heaters, geothermal heating, gravity fed water heating, point-of-use heating and centralized heating. 90009 90002 90005 Advantages 90006 90003 90008 Among the many advantages of electric heaters are: versatility, environmental friendliness, energy efficiency and safety and reliability.90009 90008 90034 Versatility 90035 90009 90008 First, electric heaters offer great versatility. They can be used for one small application, one large application or multiple applications. You can adjust coils by shape or size as an application calls for it and you have many options for heating different mediums (water, oil, air, etc.). 90009 90008 90034 Environmental Friendliness 90035 90009 90008 Next, electric heaters are far better for the environment than traditional heating methods, like petroleum, natural gas, coal or wood heating.Those traditional processes create pollution in the form of CO2 emissions, smog, fumes, smoke, vapor, chemicals and harmful gases. Electric heaters produce none of those pollutants. Electric heaters make the air cleaner for you, cleaner for your workers or family and friends, and cleaner the entire planet. That’s something we can get behind! 90009 90008 90034 Energy Efficiency 90035 90009 90008 Not only are electric heaters better for health and air quality, but they’re also more energy efficient than their traditional counterparts.All of the energy that electricity uses is converted directly into heat. This contrasts with fuel-based heaters, which waste energy through flue. This level of energy efficiency is good for the environment, and also presents significant energy and operating cost savings for you. 90009 90008 90034 Safety and Reliability 90035 90009 90008 Because electric heaters do not burn fuel, they are inherently much safer than their older counterparts. They are not subject to the risks of explosions, fires and monoxide poisoning.In addition, they do not present the risk of leakage. Finally, because they do not have moving parts to wear out or break down, they are far more reliable. On average, electric heaters last for at least 15 years. 90009 90002 90005 Accessories 90006 90003 90008 Possible accessories for your electric heater include: a thermostat, a thermocouple, gaskets, seals, baffles and remote temperature controls. 90009 90002 90005 Installation 90006 90003 90008 Electric heating is very easy to install.It simply requires a connection to the electrical circuit, so it can frequently be installed in a short span of time. As the heaters can work as stand-alone units or as a system, it is easy and cheap to add heaters to a system at any time, as budgets permit. 90009 90002 90005 Proper Care 90006 90003 90008 90034 Cleaning and Maintenance 90035 90009 90008 The biggest threat to an electric heaters health is contamination, followed by excessive temperature cycling. To keep your heater happy, check on it regularly to make sure that it free of contamination, and also keep a log of temperature cycling, so that you do not overdo it.Also avoid excessive movement. 90009 90008 90034 Optimizing Performance 90035 90009 90008 To optimize your heater performance, make sure that you are working with the best sheath material, maximum sheath temperature and watt density for the job. Compatibility is key. 90009 90002 90005 Standards 90006 90003 90008 Depending on the type of heater you plan to purchase, there are different federal / international / industry standards to which your system will have to adhere. For example, residential water heaters in the USA must meet the efficiency standards of the Department of Energy.The standards specific for water heaters vary by heater capacity. Likewise, heaters used in the USA must adhere to EPA emissions regulations. Standards can also vary by state. Other standard code certifications that you may want to look into for your heater include those put out by ANSI, the NFPA and ANSI / NFPA combined (National Electric Code, ANSI / NFPA 70). For more information, reach out to your local government and / or industry experts. 90009 90002 90005 Things to Consider 90006 90003 90008 To get the most out of an electric heater, consider your application requirements, which will determine the material make-up and the power and temperature capacity you want.Different heaters respond differently to the environment you place them in or the tasks you give them. For safety and success, communicate your application intentions and requirements clearly with your service provider. It’s also important that you connect with a quality service provider, or all your efforts will be moot. Find the right provider for you by scrolling up towards the top of this page and perusing the many electric heater manufacturers and suppliers that we have listed there. All of those with whom we work are experienced and trustworthy.Pick out a few, perhaps three or four, in whom you are most interested, and then reach out to them individually with your questions and specifications. Compare and contrast the not only the facts of the conversations, but the tones. It’s important that you choose a manufacturer that can not only deliver the bottom line, but that is also willing to work hard to make sure you’re satisfied. Once you’ve determined which company that is, get started on your project. Good luck! 90009 90008 90194 Electric Heaters Informational Video 90195 90196 90197 90009.90000 How to find the best portable electric heater 90001 90002 There’s no doubt that the occasional use of a good electric heater can be a quick and easy way to take the edge off a cold night, particularly if you’re sitting reasonably close to the heater and the room is not too large. Here’s what you need to know before hitting the shops. 90003 90002 On this page: 90003 90006 How much space do you need to heat? 90007 90002 If you have a big space to heat, you may want to try our reverse-cycle split-system air conditioner reviews or gas heater reviews.However, if you have a small, enclosed space like a bathroom or bedroom, an electric heater will do the job — particularly one with a fan, and a thermostat if you have it on for long periods. 90003 90002 It’s often claimed that this type or that type is more effective, or more efficient. CHOICE tests have found that the type of heater is not necessarily a factor; as with all appliances, it’s the overall design that makes for a good heater. 90003 90002 Of course, any portable electric heater will much more effective if you have an insulated room with no draughts.Our home heating guide gives some good tips on proofing your home against the winter chill and summer haze. 90003 90006 How much does it cost to run an electric heater? 90007 90002 Whether you run it all night or just the times you’re getting ready for bed, most costs will be roughly similar — better to check our heater test results to make sure you do not get a dud that costs you more in the long run for lower heating performance. 90003 90018 90019 Electric heater running costs 90020 90021 90022 90023 Costs 90024 90023 Fan heater 90024 90023 Oil column heater 90024 90023 Panel heater 90024 90031 90032 90033 90022 90035 Cost per hour / peak 90036 90035 $ 0.63 90036 90035 $ 0.51 90036 90035 $ 0.60 90036 90031 90022 90035 Cost per hour / off-peak 90036 90035 $ 0.37 90036 90035 $ 0.30 90036 90035 $ 0.35 90036 90031 90022 90035 Typical heat output (kWh) 90036 90035 2100 90036 90035 2400 90036 90035 2100 90036 90031 90022 90035 3 months winter use 90036 90035 $ 278 90036 90035 $ 223 90036 90035 $ 264 90036 90031 90074 90075 90002 90077 Off-peak hours are typically 10pm to 7am, and are averaged nationally at $ 17.5c / kWh. Peak hours are roughly 2 pm-8pm and are averaged nationally at 30c / kWh. Costs taken from April 2018 energy pricing check. The 3 month winter use is measured at 9 hrs off-peak use / day for 12 weeks. 90078 90003 90018 90019 How much electricity do they use? 90020 90021 90022 90023 Energy 90024 90023 Fan heater 90024 90023 Oil column heater 90024 90023 Panel heater 90024 90031 90032 90033 90022 90035 Typical heat output (kWh) 90036 90035 2100 90036 90035 2400 90036 90035 2100 90036 90031 90022 90035 Energy consumption kW / hour 90036 90035 2.1 90036 90035 1.91 90036 90035 2.01 90036 90031 90022 90035 3 months winter use (kW) 90036 90035 1588 90036 90035 1444 90036 90035 1520 90036 90031 90074 90075 90002 90077 Your running costs will vary based on your electricity price. To calculate your own running costs multiply your energy cost per kWh by your heater’s hourly energy consumption. To calculate your annual running costs, multiply this figure by the number of hours a day, and then by the number of days per year that you expect to be running your heater.For our calculations we use an estimate of 30 cents per kWh, and an estimate of 9 hours a day, every day for 12 weeks. 90078 90003 90006 Which are the safest heaters? 90007 90002 Space heaters are responsible for around 43% of all home heating related fires and 85% of associated deaths every year, so safety should be high on your list of priorities. The good news is, modern electric heaters are considerably safer than their ancestors, and incredibly safe in comparison to liquid fuel combustion heaters which burn kerosene or other accelerants.Modern heaters also come with built-in safety features, such as thermal cut-outs and tilt switches which are designed to keep you and your family safe. 90003 90136 Electrical compliance 90137 90002 Like all electrical appliances, electric heaters must comply with Australian electrical safety standards. It’s a safe bet that any heater from a major brand or retailer will comply, and have the right compliance labels. But be wary if you’re tempted by a no-name bargain on an online site; check that the product is stated to comply, and check its label when it arrives.A guide to compliance marks can be found on many regulatory websites, such as the Electrical Equipment Safety System or NSW Fair Trading. 90003 90002 If you’re buying a second-hand heater, check that it has not been the subject of a recall at recalls.gov.au. 90003 90136 Convection heaters can be a safer option 90137 90002 As a rule, convection heaters such as oil column and panel heaters are the safest heaters to use as they tend to have lower surface temperatures, do not have exposed heating elements and are more stable due to their greater weight or wall mounting.90003 90002 But while oil column heaters are relatively safe as far as space heaters go, there’s always a risk of fire due to faulty wiring or connection to an unsuitable extension cord, tipping over, oil leaks (particularly an oil with a low flashpoint was used) , or fires caused by items hung over or falling onto the heater. And while they tend not to get as hot on the surface as other heater types, children (and adults) can still sustain a nasty burn if they’re not careful. 90003 90136 Tips for safely using a heater 90137 90002 Regardless of the type of heater you’re using you should follow these guidelines for safe operation.90003 90152 90153 Only ever use a space heater on the floor — never use a space heater on a shelf, bench or any raised or uneven surface 90154 90153 Do not use a space heater in bathrooms, kitchens or any other wet areas — water and electricity are a bad combination 90154 90153 Keep flammable items such as clothes, curtains and furniture at least a metre away from your space heater, and be mindful of the risk of items falling onto the heater from above, and 90154 90153 Never leave a running space heater unattended, especially if there are small children around.90154 90161 90006 Do electric heaters need ventilation? 90007 90002 No — electric heaters do not produce carbon monoxide the way gas, kerosene or other combustion heaters do, so they’re safe to use without ventilation — with a couple of caveats. While a space heater may evaporate some moisture from the air, an oil column heater does not. Good news for sufferers of dry skin, but the combination of warmth and moisture is conducive to mould growth, which can exacerbate respiratory and other problems.And while you do not need ventilation, to get the most out of a convection heater you will need a way to circulate the air in your room, such as a ceiling fan on reverse, or even a pedestal fan to distribute the heat evenly rather than having it pool directly above the heater. 90003 90002 On the other hand, unflued gas heaters definitely need ventilation, and even flued gas heaters should never be used in bedrooms, bathrooms or confined spaces due to the risk of carbon monoxide poisoning. Incidentally, it was the gas lamps and heating, and its subsequent carbon monoxide production that’s responsible for most (but not all) Victorian era ghost stories — visual and auditory hallucinations are a common symptom of carbon monoxide poisoning from the gas lamps and coal fires they used for lighting and heating.Gas heating also increases the moisture content in the air, so it can further contribute to mould problems. 90003 90006 Which heaters are safe to leave on all night? 90007 90002 Convection heaters, such as oil column or panel heaters are your best choice for a heater you’re going to leave on all night — their gentle convection heating is conducive to an easy night’s sleep, and they do not get as hot as other types of heaters so they’re safer to touch (they compensate for this with the larger heating surface area.Panel heaters can be a good option for children’s ‘rooms, as they can be secured to a wall so they can not fall over, and usually have a lower temperature contact surface. 90003 90002 Regardless of heater type, if you’re looking for a heater to keep you warm and toasty while you go to sleep or when you wake up, you should look for one with a timer so it can turn itself down / off once you ‘ re asleep under the doona to save electricity, and then turn itself on to warm the room up again in the morning to make getting out of bed that little bit easier.90003 90002 You should avoid leaving radiant heaters on all night as their exposed heating elements pose a particular fire risk if anything falls on it, and avoid heaters which can easily tip over. A heater with a fan does not pose an elevated risk, but if the fan’s noisy then it will not be conducive to getting a good nights ‘sleep. 90003 90006 What types of electric heaters are available? 90007 90006 Radiant heaters 90007 90002 These are personal heaters.As the name suggests, they radiate heat from a red-hot heating element — the family will have to take turns sitting in front of it. 90003 90136 Pros 90137 90152 90153 There are floor and wall-mounted models. 90154 90153 Relatively inexpensive. 90154 90153 Have a cosy glow and personal warming effect, like sitting in front of a fire. 90154 90161 90136 Cons 90137 90152 90153 They’re not going to heat the air in a room very well. 90154 90153 The relatively exposed heating element can be a fire and safety hazard.For example, a piece of clothing dropped over it may ignite, or small children playing around a floor model may burn themselves — so be careful. 90154 90161 90136 Cost 90137 90002 From $ 20 to $ 200. 90003 90006 Oil-filled column heaters 90007 90002 These do not actually burn oil — they use electricity to heat the oil that’s sealed inside their columns or ‘fins’. The heat from the oil is then transferred to the casing and to the air circulating the fins.And some column heaters are not even oil-filled but instead use other material or heating technology, but work the same way. 90003 90136 Can oil heaters catch fire? 90137 90002 The risk of fire with an oil column heater is low compared to other heater types, but never zero. Oil heaters do not have exposed elements like radiant heaters do, and their surface temperature is lower than many other heater types (but their large surface area makes up for it), but they’re still an electrical appliance filled with hot oil.Oil column heaters will not explode, and while they do not burn their oil to generate heat, it’s still flammable (albeit, with a high flashpoint — hopefully), so there is a fire risk if the oil leaks, if the heater tips over and leaks, or if flammable objects or fabric are draped over or fall on the heater. You should exercise the same degree of caution with oil heaters as for other heater types, and never hang towels or clothes over one to dry them — use a drying rack instead, at least one metre away.If your oil heater is leaking, or showing signs of serious corrosion or damage, then you should replace it. 90003 90136 Pros 90137 90152 90153 Column heaters are particularly useful in rooms where they’ll be switched on for long periods of time or where they’ll operate unattended, such as overnight in a bedroom. 90154 90153 The surfaces you’re likely to touch on a column heater do not get as hot as on other types of electric heaters. 90154 90153 You can use a ceiling fan on very low speed to assist the column heater to distribute the heat faster and more evenly.90154 90161 90136 Cons 90137 90152 90153 They rely on natural convection so they take longer to heat a room than fan-assisted heaters of similar capacity. 90154 90153 If there’s not much air movement (for example, if you’re sitting reading or watching TV), the heat may not be distributed evenly. 90154 90161 90136 Cost 90137 90002 From $ 50 to $ 380 90003 90006 Convection and panel heaters 90007 90002 These heaters draw cold air over an electric heating element.The warmed air then leaves the heater and rises towards the ceiling, while cooler air moves in to replace it. 90003 90002 They usually have a fan which enhances the convection effect by forcing the warm air from the heater. When you use the fan, the room will heat up more quickly and evenly. Without it, the air is more likely to form horizontal temperature layers which could leave you with cold feet — particularly, if there’s not much movement in the room (again, if you’re snuggled up on the sofa with a good book or watching a movie — activities lots of people enjoy during winter).The fan will break up these layers to a certain extent. However, it’s also noisy — so make sure the fan can be switched off. You do not want the fan drowning out the TV! 90003 90002 Panel heaters are a type of convection heater that are, as the name suggests, particularly thin and flat, though they can also be quite long. They often come with a wall-mounting kit for permanent attachment, much like an old-style radiator (though some convection heaters are also wall-mountable). 90003 90002 Micathermic panel heaters usually have a similar shape as a column heater, but are often thinner.They have panels of the mineral mica around their heating element; the mica absorbs the heat and radiates it more evenly, or so the marketing material claims. Supposedly this helps the heater warm the room faster and more efficiently than the element alone. We have not seen it eventuate in our testing. 90003 90136 Pros 90137 90152 90153 More portable than their oil-filled column heater counterparts because they’re significantly lighter. 90154 90153 Will heat the air in a room evenly and quickly.90154 90153 Like a column heater, you can use a ceiling fan on very low speed to it to distribute the heat faster and more evenly. 90154 90161 90136 Cons 90137 90152 90153 Some models, particularly panel heaters, are comparatively expensive to buy. 90154 90153 Those with fans can be noisy. 90154 90161 90136 Cost 90137 90002 From $ 30 to $ 700. 90003 90006 Fan heaters 90007 90006 Ceramic fan heaters 90007 90002 You’ll see the term ‘ceramic’ used in conjunction with some fan heaters.This is a safety advantage rather than performance advantage, as the ceramic cools faster than metallic heating elements, reducing a burn risk. The Dyson heaters fall into the fan category. 90003 90136 Pros 90137 90152 90153 Generally smaller and more portable than other electric heaters. 90154 90153 Can heat the air in a room more rapidly evenly and quickly. 90154 90153 Claimed lower risk of burns. 90154 90161 90136 Cons 90137 90152 90153 They can be quite noisy with the fan on full power, though are usually reasonably quiet at lower fan speeds.90154 90161 90136 Cost 90137 90002 From $ 60 to $ 900. 90003 90006 Infrared heaters 90007 90002 A relatively recent entrant into the consumer market, far infrared heaters heat the room like the sun heats your face (without the UV rays so no danger of skin cancer). Whereas other heaters heat up the air in a space, infrared heaters will heat up objects. 90003 90002 One of our sister organisations, Consumer NZ, carried out tests on two 450W infrared panel heaters last year.They found they were equivalent to most other forms of heating in both performance and costs to run. 90003 90136 Pros 90137 90152 90153 Can be wall or ceiling mounted — the most unobtrusive form of heating. 90154 90153 Heat the objects in a room rather than space, so may be good for a room you can not draught-proof. 90154 90153 Can be mounted behind mirrors to heat a bathroom (mirrors let the infrared rays pass through). 90154 90153 They do not take time to warm up — instant on.90154 90153 Silent and only minor maintenance. 90154 90161 90136 Cons 90137 90152 90153 Can be quite expensive. 90154 90153 Heat objects directly so need to be in line of sight. 90154 90153 Can not be installed opposite windows, otherwise heat goes straight through. 90154 90161 90136 Cost 90137 90002 From $ 300 to $ 900. 90003 90002 Left to right: wall-mounted IR panels, radiant heater, oil column heater, fan heater.Courtesy: CNZ 90003 90006 Heater features 90007 90136 Timer 90137 90002 A timer allows you to set the heater to run at set times or periods — useful to heat up the room before you get up in the morning or for when you get home from work. Timers are also handy at night time, to turn your heater off and save electricity while you’re asleep under the doona. 90003 90002 If you think you will use a timer you’re better off looking for a heater with a timer built in.Smart plugs or timer switches may not be able to cope with your heater’s high current draw and could be a fire risk. 90003 90136 Frost watch 90137 90002 Useful for colder climates where the temperature could drop below zero, frost watch heaters claim to maintain a temperature of around five degrees if the thermostat is left on its lowest setting, avoiding frost / freezing on the heater which could damage it. 90003 90136 Thermostat 90137 90002 The thermostat on your heater is essentially a heat activated switch which allows you to regulate the temperature in the room by turning on the heater on below a minimum temperature, then turning it off again once the maximum set temperature is reached.A good thermostat will maintain a very consistent temperature. Without a thermostat your heater would run constantly — your room may become uncomfortably hot, and your electricity consumption will be correspondingly high. 90003 90002 Importantly, turning the thermostat on you heater up really high will not bring a cold room to temperature any quicker — your heater will still heat at the same rate, you’ll just over heat your room if you forget to turn it down when your desired temperature is reached — leave it on your desired setting and your room will warm up just as quickly, but once your target temperature is reached your heater will cycle on and off to maintain a comfortable environment.90003 90002 Heater thermostats can be either mechanical or digital. Mechanical thermostats use a bi-metallic strip — two different metals laminated together with different rates of thermal expansion — as the temperature changes, the strip will bend or straighten, opening or closing a circuit and switching the heater on or off. Many modern thermostats are digital, which allows for greater functionality, such as programmable settings. 90003 90136 Thermal cut-out 90137 90002 An essential safety feature, a thermal cut-out switches the heater off if it overheats — if something’s covering your heater for example — reducing the risk of fire.We assess the effectiveness of thermal cut-outs in our test. Regardless of the presence of a thermal cut-out, you should never drape towels or other items over any heater to dry — use an appropriate drying rack instead. 90003 90002 Some heaters may have a fuse instead of (or as back-up to) a switch; this will do the job, but once the fuse is triggered, it will need to be replaced by a service technician before the heater will work again. The cost of this service could be more than the heater’s original price tag.A thermal fuse is not as convenient as a thermal switch; unfortunately, it’s almost impossible for a consumer to know whether a heater has this sort of thermal cut-out device. 90003 90002 Most heaters have a thermal cut-out of some sort, but not all of them say so in their product specifications. If in doubt, choose a heater which clearly identifies that it has this feature. 90003 90136 Tilt switch 90137 90002 Another important safety feature, a tilt switch turns the heater off if it tilts beyond a certain angle or falls over to prevent a potential fire.We’ve found some heaters do not state whether they have a tilt switch, but still turn off when pushed over in our test. 90003 90136 Warranty 90137 90002 Heaters usually come with a one- or two-year warranty, but some offer more, or even «lifetime» cover. Regardless of warranty, do not forget your rights under the Australian Consumer Law — the seasonal nature of heaters means you may have only used your heater for a few months out of a given 12-month period. 90003 90136 On-board cord storage 90137 90002 Unless you live somewhere really, really cold then your heater’s only going to be in use for part of the year — perhaps only a few months.Which means for the rest of the time it’s going to be packed away. On-board cord storage makes this much easier — especially for large, heavy oil column heaters where a floppy cord can get in the way while you’re trying to wrestle it into the cupboard for the summer. 90003 90136 Cord length 90137 90002 Cord length is an important consideration for heaters from both a useability and safety perspective — you need a cord that’s long enough that you can position your heater where it’s going to be most effective, but not so long that it’s a trip hazard — an extra risk for heaters in case you fall on it or knock it over.We’ve seen heater cord lengths ranging from under a metre up to 2.7 metres, with an average of 1.7 metres on our test. As a rule, larger heaters will have slightly longer cords. 90003 90002 Importantly, you should never use an electric heater with an extension cord or power board. Heaters draw a lot of current which can cause smaller gauge extension cords to heat up and catch fire — plug them directly into a wall socket instead. And if you absolutely have no choice but to use an extension cord, make sure it’s a heavy duty one rated for the amount of current your heater draws.90003 90006 Which is the cheapest heater? 90007 90002 This depends on what cost you are looking at — up front purchase, or running cost? As per usual, there are trade-offs with either selection. Check out our electric heater review to find out which ones perform the best. 90003 90378 90136 Running cost 90137 90381 90002 On average, oil column heaters will be the cheapest on the market to run — but only by a narrow margin ahead of convection heaters such as panel and micathermic panels.There are some comfort trade-offs for that cheap running cost, primarily being slow to heat and ineffective at heating a whole room if they do not have a fan. If you have a reversible ceiling fan, it will help disperse the heat around the room more evenly (see below). 90003 90378 90136 Purchase cost 90137 90381 90002 On average, small fan heaters are less expensive to purchase, but can have higher running costs. 90003 90006 What’s the most energy efficient electric heater? 90007 90002 Your electric heater is basically 100% efficient, in that pretty much all of the electricity is being converted to heat (some is also used by built-in fans and electronic controls).But that does not mean one 2000W heater will output exactly as much heat as another; for example, one may have a poor-quality thermostat which stops the heater from running at full power when it ought to. «Efficient» is not always the same as «effective». 90003 90002 You can improve the effectiveness of an electric heater by making sure its heat is not wasted; the best way to do that is by insulating your home and stopping draughts. For more about home heating efficiency, check out our home heating guide.90003 90006 Ceiling fans can make your electric heater more effective 90007 90002 If you have a ceiling fan, the reverse feature found on many of them can be a boon in winter when combined with an electric heater. Usually a ceiling fan blows a cooling breeze down towards you, but in reverse or «winter» mode, the fan instead draws the room’s air up, where it mixes with the warm air rising from the heater, and is moved along the ceiling and back down the walls, thus spreading the warm air more evenly around the room.Check out our ceiling fan review to make your heat work for you. 90003 90002 Without the ceiling fan, warm air collects directly above the heater and cold air pools near the floor 90003 90002 A ceiling fan circulates the warm air around the room for more even temperatures, and pushes it back down to where you need it 90003 .90000 Electric Heater Manufacturers Suppliers | IQS Directory 90001 90002 90003 business 90004 Industry Information 90005 90006 Electrical & Electronic Components Associations Electrical & Electronic Components Tradeshows 90007 90002 Electric Heaters 90005 90006 Electric heaters are utilities used for heat generation. The use of electric heaters throughout industry, commerce and consumer products contexts is widespread and varied; the number of different heater configurations and applications grows almost daily.Some heater varieties resemble each other very closely. Band heaters and strip heaters, for example, are distinguished from each other only by the fact that band heaters are usually slightly smaller and more flexible than strip heaters. 90007 90006 The variety of electric heaters on the market is astounding, sometimes with cross over styles and sometimes not. Cartridge heaters sometimes qualify as immersion heaters, but not always. Sometimes, a heater’s name is descriptive of its use, as is the case with drum heaters.In other cases, a heater’s name is descriptive of its configuration, as is the case with tubular heaters. Some heater terms can be used interchangeably; air heaters and duct heaters are both used in 90013 HVAC filter 90014 systems to heat air, though a free-standing space heater could also be considered an air heater but not a duct heater. Both could be described as circulation heaters, though some circulation heaters are used to heat liquids in a containment system. All of these heaters can be considered process heaters, depending on their use, and they are all likely to feature wire or coil heating elements with ceramic, mineral or other insulation material.Despite the seeming interchangeability of terms and the confusion it can cause, each variety contributes to an important industrial process or commercial utility as well as some purposes in the context of consumer products. 90007 90006 An electric heater is any electric-powered device used to create heat. They are used in a great variety of contexts. In manufacturing and industrial processing, electric heaters can provide localized heat to an area within a machine to help shape or melt materials, heat liquid tanks, radiate heat through the air or preserve the molten state of a substance.Strip and band heaters as well as cartridge and air heaters are all frequently used for these purposes. In metal, plastic and rubber extrusion, for example, the friction generated as a natural expression of the extrusion process does not always generate sufficient heat to plasticize the materials intended for extrusion. Heaters can be used as a supplement to generate and sustain material plasticization, which contributes to a more efficient process and helps yield a higher-quality extruded product.Heat is an essential part of many other manufacturing processes as well. In packaging, foam fabricating, metal fabricating and food processing industries, cartridge heaters are most often inserted through a custom-sized hole into equipment parts that require localized or high temperature heat. Radiating heaters like immersion heaters and tubular heaters are used to heat liquid or air in water treatment facilities, residential applications, commercial buildings and many other applications. 90007 90006 Every electric heater consists of a few parts that are essential for electrical heat generation.Electric heating is the process by which electricity is converted into thermal energy. An electric charge is usually conveyed by electrons flowing through a medium. When such a medium is connected to an electrically resistant material, the electrons collide with the atomic particles of the resistor, causing them to vibrate. The noticeable expression of that vibration is heat. In the case of electric heating, the resistor is called the heating element. Heating element composition and configuration is variable.Coil heaters can be a simple metal resistor coiled into a spiral shape. Others can feature elaborate configurations and advanced ceramic insulators to maximize heat generation, direct heat distribution and otherwise control the qualities of the heat more effectively. Electric heaters only need heating elements to generate heat, but most of them feature some kind of insulation, and almost all of them feature a sheath of stainless steel, aluminum, nickel or another material to improve performance and extend operating life.Insulation is necessary in many types of electric heaters to retain and absorb electrical energy so that it can be released as heat energy by surrounding coils or materials. 90007 90006 Ceramics are the most common types of insulation, although electric heaters can be fitted with mineral, mica or fiberglass insulation as well, depending on the heater’s application requirements. Radiating types of electric heaters transfer heat from ceramic cores or complete heating elements by moving heat through the air with fans, as is the case with space heaters, or through hot air ductwork systems, as is the case with duct heaters.Each application for electric heaters will require a standard for material make-up, temperature capacity and power. Non-electric heating systems can involve coal, wood, gas or water, although most of these alternatives are far less energy-efficient than electric heat generation. Electric water heaters, for example, are more environmentally sustainable and economical than other heating methods. Safety is another crucial concern when purchasing a heater. Different heaters respond in different ways to different environments and applications.Successful industry professionals carefully choose electric heaters based on a foundation of clear knowledge about the operating conditions in which an electric heater will be employed and to what tasks a heater will be applied. 90007 90022 90023 90024 90025 90026 90027 90026 90027 90026 90031 90027 90026 90034 90027 90036 90025 90026 90006 Electric Heater Manufacturers — WATTCO 90007 90027 90026 90006 Electric Heater Manufacturers — Ulanet 90007 90027 90026 90006 Electric Heater Manufacturers — Hotwatt, Inc.90007 90027 90026 90006 Heater Manufacturers — Hotwatt, Inc. 90007 90027 90036 90055 90056 90022 90058 90059 How Heaters Work 90060 90006 Heaters are fitted with a high resistance wire that converts electrical to heat energy. It works the same way resistors in home and industry applications do; obstructing or opposing the flow of current. The first heaters were in form if a bulb where current was passed through a thin wire, a filament, which produced a white glow accompanied by heat.90007 90006 Most of the high power incandescent bulbs are rated 100 Watts, but their heat barely reaches the user. To this end, making heaters will require a high resistance wire such as Chromel to form a heating element. 90007 90006 Typical heat production-elements are designed in form of coils, ribbons of strips of wire that give off heat just like a lamp filament. They are used in many applications in homes and in industries. These elements are either iron based or nickel based. 90013 Nickel 90014 based elements are usually nichrome, or chromel, an alloy of nickel and chromium.In nichrome, nickel forms about 80 percent of the alloy. 90007 90006 Nichrome is preferred as its melting point, ranging between 1400 and 2550 degrees Fahrenheit, it does not oxidize, only shows slight expansion when heated and has an optimal resistance. Granted, most applications use nichrome. 90007 90006 There are other different forms of heat production-elements used in industries and homes. 90007 90073 90074 Bare Nickel-Chromium wire (NiCr) or ribbon, which can be used straight or coiled.This is normally used in toasters and hair dryers. 90075 90074 Screen printed metal or ceramic tracks deposited in metal plates insulated with ceramic. These are common in kettles and other domestic appliances. 90075 90074 Clarod sealed elements: This is a nickel-chromium wire with a ceramic binder and sealed inside a metal shell. They can be straight or curved rods and are normally used in coffeemakers, ovens and electric stoves. 90075 90074 Heat lamps: These are high powered incandescent lamps, radiating infrared instead of white light.They are used in space heaters and food warmers. 90075 90074 PTC Ceramic, short for Positive Thermal Coefficient Ceramic: This type of ceramic becomes highly resistive above a given composition dependent temperature threshold. This property allows the material to act as its own thermostat, seeing that temperature passes when it is cool and stops when it is hot. 90075 90084 90006 In industries that require high amounts of heat, such as those melting metal and plastic, metal alloys, Silicon Carbide and Molybdenum Disilicide are used.90007 90013 Ceramics 90014 are the most common types of insulation, although electric heaters can be fitted with mineral, mica or fiberglass insulation as well, depending on the heater’s application requirements. Radiating types of electric heaters transfer heat from ceramic cores or complete heating elements by moving heat through the air with fans, as is the case with space heaters, or through hot air ductwork systems, as is the case with 90013 duct heaters 90014. 90022 90059 The History of Electric Heaters 90060 90006 Early forms of electric-heaters used bulbs.Granted, credit is given to Thomas Edison who invented the light bulb in 1880. However, heaters needed to be durable and produce relatively more heat for different applications, a high resistance wire needed to be used. Albert Leroy Marsh developed chromel, the first alloy to be used in these heaters. Chromel, also referred as nichrome, was up to 300 times stronger than other 90013 alloys 90014 developed at that time. 90007 90006 The alloy can heat up to more than 1400 degrees Celsius and it is corrosion resistant.This revolutionized electrical engineering. 90007 In the early 1890’s, General Electric, an American company, started producing the first heaters. These heaters used an elongated glass bulb and were produced in two companies, one of which was headed by Thomas Edison. 90022 90059 The UK and Heater Technology 90060 In the UK, Herbert John Dowsing was designing an all-electric cooking method based on the long cylindrical bulb model in 1891. Though the design was rudimentary, it was the closest to modern heaters.The unit had copper backing to ease radiation of heat into the room. He is credited for domestic heating in the UK. 90022 In 1912 portable heating technology started gaining traction. Charles Reginald Belling set up his own business to manufacture heaters. The early heater models were in form of table lamps. 90022 90059 90022 90060 90059 Electric-Heaters in the 1900’s 90060 90006 Radiant heating became popular after World War 2. During this era, the bar heater, also known as electric fire, was invented.Radiant heater units were using bars of coiled wire that would give an orange glow when current passed through them. 90007 90006 Most units produced were portable electric heater units. However, the units were not completely safe as they would be knocked off and start fires, or inquisitive fingers would get burned. Today, bar heaters are still produced, but with better safety standards. 90007 90006 In the 1960’s, the demand for power led to the development of storage heaters that allowed those in different industries and those in homes get heat production while using less power.90007 90006 Modern heat production concentrates on the use of smart technologies to control the radiant heat production. Applications in different industries applies remotes and digital programming. This has enhanced energy efficiency, made the units more portable, and allowed them to be used in industries that require high amounts of heat. 90007 90059 90022 90060 90059 Ways to Enhance the Efficiency of Electric Heaters 90060 90006 Heating appliances are essential for any industrial process.Even before the Industrial Revolution, various types of heating systems were used for the production of goods and in several other processes. However, if we look back at the major transformations in the structuring and capacities of industrial heating applications, we find that most of the changes occurred after the 1970s and 80s. Electric heaters have replaced their traditional coal-powered counterparts, lowering our overall dependency on wood and coal. This shift has no doubt slowed down the spread of pollution caused by industrial processes.90007 90006 90013 Induction Systems 90014 90007 90006 Industries are rapidly deploying induction-heating systems in their processes, thanks to a host of benefits offered by these advanced systems. We will be talking about the advantages delivered by these appliances in the later sections of the post, but before that let us understand the features of modern-day induction systems. 90007 90006 Induction heating made its entry into industries in the 1980s. However, it was within the last decade that induction heating rose to fame, because of its intelligent control system and promise to help industries save thousands of dollars every month.90007 90006 Most of today’s induction heaters employ Eddy Current and electricity conducting metal to generate the energy required to power industrial processes. With the help of a metal piece and automatic control panel, the devices provide even heating and helps save big on energy consumption. 90007 90006 By introducing an induction-based electric heater in your manufacturing process, you can increase operational efficiency while decreasing your surplus energy consumption. Check out some of the biggest benefits of induction based heaters in the following paragraphs.90007 90006 90013 Flame & Pollutant Reduction 90014 90007 90006 When you use the traditional fuels such as coal, wood or petroleum, pollution is the usual outcome of your industrial processes. Smog, vapor, smoke, chemicals, harmful gases, etc. are some of the most common releases from industrial processes. By using induction-based electric heaters, you can significantly bring down the rate of flames and other pollutants from your facility. In fact, induction systems release no flame causing them to become a widely popular heating appliance among industries.90007 90006 90013 Easy Heat Adjustment 90014 90007 90006 Electric heating systems use electro-magnetism to generate energy according to the industrial procedure at hand. Any temperature can be achieved by adjusting the controls of the system. You can easily adjust the output temperature of the heating application. 90007 90006 90013 Process Versatility 90014 90007 90006 You can implement induction-based electric heaters in almost any process. You have options to make adjustments in the coils to fit into an application of any shape or size.Additionally, a single device can be used as the heating source for various applications. However; you will need to check the capacity of the device before making such adjustments. 90007 90006 Apart from these features, electric heating devices can be designed and ordered as per your needs. They are handy and mobile, and they will not show any limitation because of their size. You can get your induction heater designed in even in small size without compromising strength and heating output. 90007 90002 90022 90005 90059 Important Tips to Consider for Electric Heater Maintenance 90060 90006 To ensure that your industrial heating appliances are working efficiently and cost-effectively, two things are mandatory: proper installation and proper maintenance.Regular maintenance ensures that your heater is performing efficiently but also lowers the risk of frequent repairs and replacements that affect your overall expenses. 90007 90006 The Department of Energy suggests that electric heaters should be cleaned twice every year. A number of manufacturers also recommend that cleaning of heating appliances every six months is imperative if you are expecting a long and uninterrupted performance. However, this suggestion is unrealistic for heating devices that run extensively day and night.An ongoing maintenance routine should be selected based on the frequency of machine utilization. 90007 90006 Cleaning improves the performance your process machines and enhances the quality of your plant and facility equipment. This is especially true for the processes that require a constant temperature level. Maintenance ensures that a heater is providing the necessary heat to a manufacturing process. 90007 90006 Whether you install an electric heater or any other type such as band heater, strip heater, or pipe heater, the following tips will help you perform effective and initial maintenance for your machine.These tips may also be followed for the maintenance of home heaters. 90007 90006 90013 Cut Off the Power Supply 90014 90007 90006 You can not clean your electric heater while it is turned on. Switching the heater off is the first step in the maintenance process. Use a voltmeter to make sure that there is not electricity flowing to the device and the heater has been switched off completely. 90007 90006 90013 Remove the Thermostat Carefully 90014 90007 90006 If there is a thermostat in your heater, it should be removed first after disconnecting the power supply.Be careful while removing the grill. Find the knob or screw that mounts the thermostat to the heater. Many users remove the thermostat inaccurately and end up damaging the unit. 90007 90006 90013 Vacuum Clean the Heater 90014 90007 90006 Use a 90013 vacuum cleaner 90014 to blow out the debris from the heating appliance. If you do not have a vacuuming device, you can use a hair dryer to remove dirt from the corners and sides of the heater. Experts suggest that you should never use canned air to remove debris, reasoning that this process could increase the production of potentially inflammable elements.Another safety tip from http://energy.gov: make sure that the fans of the heater do not move while you blowout debris from the heater. 90007 90006 90013 Gently Clean the Grill 90014 90007 90006 Use lukewarm soapy water to remove all dust and dirt from the grill. Soak the grill in this solution for 10 minutes to soften the debris before final cleaning. 90007 90006 90013 Carefully Replace the Grill 90014 90007 90006 After you have cleaned the grill, allow it to dry out completely. Reinstalling the grill while it is wet can severely damage the heater and electric circuits.Carefully place the thermostat on the heater, put in the screw, and tighten it. 90007 90006 Now, turn on the power supply, and allow the thermostat to run for a few minutes before turning on the. Observe if there are any changes in the noise or heating. If you notice a change, it would be ideal to speak to an electric heater repair service. 90007 90002 90022 90005 90059 Electric Heaters and Costs 90060 90006 During the design of electric-heaters, either tankless water heater or garage heater, manufacturing companies consider that intermittent or partial day use will be more energy efficient than whole building use.When used in industries, these units are relatively cost effective. 90007 90006 Granted, most of the units, when fitted into applications, are designed with auto shut-off with an exception of air heaters features to reduce energy consumption. The programmable nature of the units and their use of infrared sensors allow modern heaters to save more energy. 90007 90002 90022 90005 90059 Different Types of Industrial Heaters 90060 90006 Electric heaters are important industrial and domestic devices that use electric current to produce heat.These appliances use an electrical resistor that supports the theory of Joule Heating. According to this theory, a current converts into heat energy while navigating through an electrical resistor. In most present-day electric heaters, the element wire is made of nichrome. There are various types of electric heaters, used by industries and households. A description of various types of 90013 industrial heaters 90014 follows. 90007 90006 Immersion heaters have uses a cross a number of different industries, including 90013 plastic 90014, food processing, etc.These heating applications are used to heat liquids store din large containers, reservoirs, or tanks. Working on the principles of direct heat transfer, these heaters can be used for processes that require quick and high temperature adjustments. 90007 90006 Moreover, if you have fluids of dissimilar characteristics, then electric heaters provide an obvious choice. Immersion heaters work well with liquids that have different properties. The aspect that makes immersion heaters the favorite of many industries is that they do not need frequent repairs and maintenance.Immersion heaters can be subdivided into Flanged, Screw-plug, Circulation and Side Heater varieties. A large number of today’s immersion heaters work on electricity, while the ones of earlier generations used petroleum as fuel. 90007 90006 Pipe heaters are designed and shaped to be incorporated into pipes of two and three inches in diameter. These tiny devices perform well while staying mounted inside a pipe. Ideally used for applications that need slow and low heating, 90013 pipe heaters 90014 are widely used for processing wax and tar.They are also used for supplying heat for the treatment of highly corrosive materials. An interesting trait of these devices is they do not actually touch the liquid that they supposed to heat. Therefore, these heaters do not follow the principles of direct heat transfer. In fact, they work on indirect heat transfer. An element inside the pipe carries heat to the liquid. As the heater is not put into the liquid, pipe heaters do not require frequent maintenance. 90007 90006 Cartridge heaters are designed to warm up solids — typically, metal-based solids.These appliances work on extremely high temperatures, because the melting or heating point of metals is usually very high. Cartridge heaters are affixed into a mold and perform thermo coupling to control their temperature. Providing accurate heating and temperature control, these heaters are used for motor or hydraulic oil applications, 90013 gearboxes 90014 and water-based applications. Cartridge heaters are also used in food production and laboratories. Cartridge heating devices use conductive wires for the transfer of heat.90007 90006 Duct Heaters are commonly used in airflow ventilation systems, comfort heating systems, and several process heating applications at commercial and industrial facilities. Residential ovens are also based on this technology. Duct heater motors can be classified in three categories? -? Tubular, open coil and finned tubular duct heaters. 90007 90002 90022 90005 90059 The Design of Heating Elements 90060 90006 Heat production elements are designed for the smallest of heat production applications such as kettles to the largest applications such as metal melting units.Engineers consider up to 30 different factors when designing these units. When electrical energy is passed through a heat production unit to warm air or heat water, its performance will be affected by current in amps and voltage in W for domestic applications and kW for applications in industries. 90007 90006 The performance is also affected by length and diameter of element used, the material of the element, and operating temperature. For each type of element, there are specific factors to be considered including length, stretch and pitch among others.For a ribbon element, thickness, width, weight and surface area are of key importance during the design of heat production elements. 90007 90006 Heat production elements will not work in isolation, but will need to be integrated into different appliance. How the element is used or abused will also determine the end performance. This includes how the element will relate with the insulators it is fitted in. The size and the thickness of the elements will be determined by the appliance to be made.For instance, the element to be used in a convection heater is different from the one used in a soldering iron. 90007 90006 The expansion of the element material will determine how it reacts when supported between insulators. Some elements might sag and cause problems. 90007 90006 The above and many more factors have to be balanced for the heater to work optimally without causing any safety issues. 90007 90002 90022 90005 90059 Producing Heat in Industries 90060 90006 Electric heat production has been adopted in different industries thanks to the fact that this form of clean heat does not lead to production of fumes.Electric heat is easily applied at the precise point it is needed. In industries, there is normally high concentration of power in per unit volume and per unit area. These units can be designed in any size and, therefore, can be used anywhere within a processing plant. Given the high speed of response, these heaters lead to rapid cycling mass production of equipment. 90007 90006 Transferring electricity to the exact point of use is relatively costly. Designing a system for the industry use starts with identifying the amount of temperature and heat required, and the most feasible methods of transferring heat within a plant.90007 90006 The most common heat transfer methods include: 90007 90264 90073 90074 Conduction 90075 90074 Convection 90075 90074 Radiation 90075 90074 Electric fields 90075 90074 Magnetic fields 90075 90084 90277 90006 Industries apply different form of heaters based on their needs. Some of the most common methods include: 90007 90264 90073 90074 Resistance heat production 90075 90074 Electric arc heat production 90075 90074 Induction heat production 90075 90074 Dielectric heat production 90075 90084 90277 90006 In some applications, the heat from the heater is directly applied to the workpiece, such as in arc welding.In other applications, heat is produced from the heater and transferred by either of the methods listed above. Industries require either low-temperature heat about 400 degrees Celsius, medium temperature about 1150 degrees Celsius or high temperature above 1150 degrees Celsius. High temperatures are needed in making stainless steel, smelting, welding, cutting and brazing among other applications. 90007 90002 90022 90005 90059 Points to Consider When Selecting an Electric Heater for Industrial Use 90060 90006 Industrial heaters are powerful and well-controlled devices with features well beyond heaters used within residences.The power, energy, or fuel they consume is greater than the consumption of home heating and cooling appliances. This heavy energy expenditure adds to the final cost of production when industrial heaters are in use at a manufacturing facility. 90007 90006 Moreover, some processes and productions are entirely dependent on the performance of an electric heater when used in conjunction with other plant and facility equipment. Choosing the wrong heating appliance may have a significant impact on the quality of production.Therefore, selection of the right heating appliance becomes inevitable for any forward-looking business. 90007 90006 Consider the following criteria when selecting an industrial heating system. 90007 90006 90013 Types of Electric Heaters 90014: Basically, there are four types of industrial heaters: electric, radiant, infrared, and petroleum. Out of these types, petroleum-based appliances produce the greatest level of pollutants and smoke, and the electric versions produce the lowest. 90007 90006 90013 Electric Heaters 90014: These are the most easy-to-operate and easy-to-install machines, and the most popularly used industrial heaters.Electric heaters can be used for home, commercial and industrial purposes. These machines are powered by electric energy, which is converted into heat, following the Joule’s theory of energy conversion. The structure of electric heaters also involves a fan that circulates heat over the area or application it is being used for. 90007 90006 90013 Radiant Heaters 90014: If an industrial application needs simple and even heating, radiant heaters are the most suitable pick. These machines work on the principles of radiant heat to radiate energy to anything that lies in its range.The nearer you are, the more heat you will feel. 90007 90006 90013 Infrared Heaters 90014: Infrared heaters are similar to radiant heaters. However, they provide heating only to the area that has been fixed as its target. No fan is used in infrared heaters, so you can be sure that no unnecessary noise pollution is being spread via your industrial processes. 90007 90006 90013 Petroleum-based Heaters 90014: These heaters can be labeled as traditional heating appliances, despite the fact that they are used in a large number of processes nowadays as well.Petroleum-based heather employ gas, diesel, and kerosene as fuel, and they release a large amount of chemicals, smoke, smog, and various pollutants into the environment. 90007 90006 90013 Power Consumption 90014: Since we are talking about the selection criteria of industrial heaters, it would be wise to consider the power consumption or wattage of the appliance you are investing in. You need to discuss the capacity requirements of your process equipment with your engineers and suppliers. Make sure that you invest in a machine that has been rated as very energy efficient.90007 90006 90013 Safety Considerations 90014: In addition, keeping the safety of your workers and facilities in mind is also an important concern. When selecting an electric heater, ideal features include an automatic tip-over switch, overheat protection sensor, cool-touch exterior housing, adjustable louvers, carrying handle and wheels, and many other design-related conveniences that promote the safety of users. 90007 90002 90022 90005 90059 Choosing the Right Manufacturer 90060 90006 There are many heater producing companies, creating heaters for common applications like kettles and home HVAC systems and also custom heaters as requested by clients.Companies that offer custom heaters are preferred. 90007 90006 When requesting for a heating system, clients will specify the power and voltage, material of the heat production-element, size including length, width and diameter, styles, whether coiled or straight and much more. Hot water heaters will need lower power than industry heaters. The overall cost of the unit will be dependent on the factors specified by the client. 90007 90006 A good company should incorporate the needs of the client by designing the unit together until all the needs are met.90007 90058 90022 90002 Electric Heaters Types 90005 90073 90074 Air heaters are electric heaters used to heat air in an enclosed volume or in tandem with a fan system for distribution throughout a building. 90075 90074 Band heaters are small electric heaters that can be affixed to pipes, tubes and nozzles for the application of heat in a small area. 90075 90074 Cartridge heaters 90354 90355 are small electric heaters that can be inserted into machinery to provide heat in a small area; they are often used during extrusion and other thermoforming processes.90075 90074 Ceramic heaters 90354 90355 are electric heaters whose heat coils or other heating element materials are insulated with ceramic materials. 90075 90074 90013 Circulation heaters 90014 are electric heaters used to heat a circulating volume of liquid or gas in an enclosed space. 90075 90074 Coil heaters are electric heaters characterized by the shape and composition of their heating elements, which are coiled metal ribbons or other similar materials. 90075 90074 90013 Drum heaters 90014 are electric heaters used to heat drums; large quantities of industrial chemicals, water and even food products like chocolate (which are often stored or shipped in drums) can be heated with drum heaters.90075 90074 Duct heaters are electric heaters used in tandem with other HVAC components in order to provide heat to a building. 90075 90074 Foil heaters are used in many industries and they can be found in products like car battery warmers, cabinets, defrost applications, heat exchangers, laboratory equipment, incubators, ceiling panels, and wall panels. 90075 90074 Immersion heaters are electric heaters that can be immersed in liquids and some solids and retain their functionality; these can be used for efficiently and safely heating large volumes of liquid.90075 90074 Kapton heaters are a type of electronic heater that uses polyimide film to encapsulate heating circuits. This thin, ultra-flexible and lightweight material makes Kapton heaters a great solution for compact applications. 90075 90074 90013 Process heaters 90014 are electric heaters used to heat-treat or otherwise process raw materials with heat; process heaters can be used in surface treatment, raw materials shaping and in many other industrial applications. 90075 90074 Silicone heaters are flexible heaters with an internal wire element and a body made of silicone rubber.These durable heaters can operate at temperatures of up to 450 degrees Fahrenheit. Silicone performs well in environments where there are rapid changes in temperature and it is highly resistant to moisture and chemicals. 90075 90074 Strip heaters are small electric heaters used conduct controlled amounts of heat to a small area; they can be affixed to equipment, which they heat on contact, or they can be used to heat small volumes of air. 90075 90074 Tubular heaters are electric heaters characterized by a tubular shape.90075 90084 90013 90391 90002 Electric Heaters Terms 90005 90014 90006 90013 AC Current 90014 — Short for «alternating current.» An alternating current is characterized by the periodic reversal of the flow of electricity. 90007 90006 90013 Ceramics 90014 — Non-metallic, inorganic, often crystalline materials used, in the context of electric heaters, as insulating materials. 90007 90006 90013 Conduction 90014 — The transfer of heat. An object’s atomic particles vibrate when heated; there is a linear relationship between temperature and vibration intensity.When these vibrating particles come into contact with other particles, they transfer their energy. Energy can be transferred amongst every state of matter via conduction. 90007 90006 90013 Convective Heat Transfer 90014 — The transfer of heat between fluids because of the movement of those fluids. Instead of direct transmission (conductive heat transfer), the heat in liquids and gasses is dispersed as the molecules move. 90007 90006 90013 DC Current 90014 — Short for «direct current.» A direct current is characterized by the unidirectional flow of electricity.90007 90006 90013 Desalination 90014 — Process by which salt is removed from saltwater. 90007 90006 90013 Ducts 90014 — Channels used to direct filtered or temperature-treated air throughout an area. 90007 90006 90013 Electric Current 90014 — The movement of an electrical charge through a conductive medium. 90007 90006 90013 Electro-polish finishing 90014 — Used to remove unwanted material from a surface during surface finishing. 90007 90006 90013 Extrusion 90014 — The shaping of a raw material into a useful product through the use of a die.Plastic, metal, elastomers and other material can be formed into continuous profiles by extrusion. 90007 90006 90013 Heat 90014 — The transfer of energy between objects; heat is the expression of atomic particles colliding with each other. 90007 90006 90013 HVAC 90014 — Abbreviation for Heaving, Ventilating and Air Conditioning; HVAC equipment is any tool or component used in any HVAC process. 90007 90006 90013 Incoloy 90014 — A proprietary superalloy characterized by its qualities of strength.90007 90006 90013 Insulation 90014 — Non-electrically-conductive material used to coat electrically conductive materials. In electric heaters, insulators are used to increase the efficiency of a heater and protect heating elements from becoming damaged. 90007 90006 90013 Molding 90014 — The shaping of a raw material into a useful product through the use of a mod. Plastic, metal, elastomers and other material can be formed into complex, non-continuous shapes through molding. 90007 90006 90013 NEMA Enclosures 90014 — Enclosures built to varying standards set by the National Electrical Manufacturers Association; these enclosures house electrical equipment of varying sensitivity and delicateness.Corresponding NEMA numbers indicate the intended use of a given enclosure. 90007 90006 90013 Radiation 90014 — The travel of energy particles and waves. Examples of radiation include visible light, radio waves and heat generated by a heating coil. 90007 90006 90013 Thermostat 90014 — A temperature-regulating device that employs the combination of a thermometer and mechanical parts to control heating and cooling equipment. 90007 90006 90013 Watt 90014 — A unit by which the intensity of an electrical current is measured.90007 More Electric Heaters Information 90022 90472 90006 90002 Electric Heaters Informational Video 90005 90476 90477 90007 90022 90472 .90000 micro heaters cut 87% off my electric heat bill 90001 90002 REALLY saving energy by heating the person instead of the whole house 90003 90004 In June of 2010 I moved to a place in Montana with only electric heat. By myself. In the past few winters I had conducted experiments in cutting the amount of energy I needed to stay warm, with a focus on heating myself instead of heating the whole house. 90005 90004 I had a lot of motivators here, but the primary motivator was that the greenwashing being done around fluorescent light bulbs.My power company sent me literature telling me that I should replace all of my incandescent light bulbs with fluorescent light bulbs to save energy and money. Based on my lighting usage, the most I could possibly save is $ 5 per year. Yet, with changing my heating habits, I think I have proven that I can save $ 500 per year. I therefore call «shenanigans» on the power company, the government and the fluorescent light bulb industry. 90005 90004 Here is the general idea. Most folks heat the whole house: 90005 90010 90004 My earliest efforts were to turn the house thermostat down to 50 (F) and use a personal electric heater: 90005 90013 90004 That saved a lot, but it left my legs too hot and the rest of me too cold.90005 90004 So then I focused on personal electric heaters that would focus on warming me. I got this down to about 235 watts .: 90005 90018 90004 And then I optimized the system where I added a sweater and focused the electric heaters on the areas featuring exposed skin or seemed to get cold: 90005 90021 90004 I got this down to 82.5 watts. 90005 90002 a video demonstration 90003 90004 Camille Pearl sits at my desk with a normal layer of clothes and comments on how she feels surrounded by a barrage of micro electric heaters: 90005 90004 90029 90030 90005 90004 In this video Camille uses the word «bubble» for the first time.I like it. Sometimes I refer to this technique as «the heat bubble.» 90005 90002 Quick overview 90003 90004 I am not a cold hardened person. Some people have suggested that I can tolerate the cold better than most. And there might be a little truth to that. But only a little. Without the little personal electric heaters, I get uncomfortable at 65 degrees F. In other words at 65 degrees F, my fingers get stiff and I can not type.Plus I just feel so cold that I can not concentrate. And that is with a sweater on. 90005 90004 My optimized system ended up with two parts: my desk and my bed. The key is that when I am inside, I spend 99% of my time at my desk or in bed. I have had people comment on how this does not solve anything for families, or for people that are watching TV, or for people that live a life that does not follow this pattern. I think that this position has a lot of truth to it, but is not absolutely true.I think that the key point here is that I focused on heating people instead of heating all of the air of all of the house. I think that this general approach can do great things for nearly every situation. Although it could take some time and thought for each situation. Maybe some situations will be able to save only 50%. And others will be able to save only 70%. Maybe somebody will have a situation where they were able to save 95%. 90005 90002 About 80 watts of personal electric heaters at my desk 90003 90004 I experimented with quite a few personal heating contraptions and optimized things down to these: 90005 90004 a dog bed warmer (15 watts) 90005 90046 90004 heated keyboard (25 watts) 90005 90049 90004 heated mouse (2.5 watts) 90005 90052 90004 A standard 40 watt incandescent light bulb 90005 90055 90004 This last one was the most important. A standard incandescent light bulb heats something to the point that it glows white hot. So I used this to heat myself and it doubled as a light source. And, I should point out that in a few months this light bulb will be banned by the US government. It is already banned in many countries. The comedy is that it is being banned to save energy.And yet, I think people can save far more energy by keeping it. 90005 90004 I am conducting experiments, so I have been willing to sacrifice aesthetics in favor of gathering data. But this is a space where there are more elegant solutions currently existing, and, I would like to think, that if this becomes widely accepted, manufacturers will create something that is even better still. 90005 90004 Here is what I used — a chick brooder reflector: 90005 90062 90004 But a person could use a really nice swinging arm lamp: 90005 90065 90004 While I was optimizing my systems, somebody pointed out the value of the japanese kotatsu.And so I sorta cobbled together a cheap imitation: 90005 90004 Maybe next years experiments will feature something a bit more quilt like and less blanket-like. 90005 90002 About 0.1 kwh each night to help me get to sleep 90003 90004 I had trouble getting to sleep in a cold room. And I really did not like getting into a cold bed. I started to turn the heat up in my bedroom for a half hour before bed and then turn it back down as I got into bed.Once asleep I was fine — I had lots of blankets. I later optimized this to using a heated mattress pad and a special timer. The mattress pad uses 200 watts. The timer allows power to pass through for 30 minutes and then shuts off. 90005 90004 If I turn it on, do something for 20 minutes and then get into bed, it is luxurious. If I turn it on, brush my teeth and go to bed, it is okay. Better if I floss too. 90005 90004 heated mattress pad 90005 90078 90004 30 minute power timer 90005 90081 90004 The mattress pads are sold damn near everywhere.The timer was really hard to find. 90005 90002 miscellaneous electric heaters 90003 90004 These are things that I currently use for company, although they started out as my primary heat, but got dropped when I optimized my systems. 90005 90004 This odd looking thing is a reptile heater that fits into a standard light socket. At first I used it to hover over my keyboard. It worked GREAT! My hands were quite warm.It even warmed my face a bit. I moved away from this only because the heated keyboard and mouse did the same job but used less power. 90005 90004 reptile electric heaters in desk lamps 90091 90092 90005 90004 I still keep these around, and when friends stop by with their laptops, the house stays at 50 and they can use these over their keyboard to stay warm. 90005 90004 This is a 300 watt radiant heater.It works with a lot of the same stuff as the reptile heater, but runs 5 times hotter. I still use this once in a while if I want to work in the kitchen for a while or do a project somewhere that I have not set up a «heat bubble». Most radiant heaters like this use a lot more watts meaning that you have to set them further away so you do not feel too warm. I like the idea of ​​using far less watts and just being closer to it. 90005 90004 300 watt radiant electric heater 90091 90005 90004 I did try a butt warmer for a while.But that died after a month of use. In the end, I simply wrapped my chair in a blanket and that seemed to work just as good if not better. 90005 90002 some numbers 90003 90004 This ten cent graph is my feeble attempt to show outside temp (black line) and the amount of power needed (red) to maintain 70 degrees (F): 90005 90004 And here is the same graph with the thermostat set to 50: 90005 90004 And then I add in the power used for my 82.5 watts (the yellow) 90005 90004 Here is the raw data since I moved in. The power company tells me the kwh that I use, and the kwh that was used one year ago by the guy that lived here before me. The first number is for a year ago and the second number is for me: 90005 90113 90114 jun 468/279 90115 90114 jul 383/308 90115 90114 aug 304/247 90115 90114 sep 352/189 90115 90114 oct 714/314 90115 90114 nov 960/695 90115 90114 dec 1284/460 90115 90114 jan 1503/485 90115 90114 feb 1274/438 90115 90132 90004 jun / jul / aug average: 385/278 (gonna use this as a baseline for not using heat) 90005 90004 February is where I really optimized my systems, so for this bit of math, I’m going to focus on February.My bill for February was for 32 days, and the bill for a year ago was for 29 days. So 438 adjusted from 32 days to 29 days is 397 kwh. 90005 90004 1274 — 385 = 889 kwh used for heat in February one year ago. 90005 90004 397 — 278 = 119 kwh used for heat this February. 90005 90004 119/889 = 13.39% 90005 90004 Therefore, I cut 87% off of my heating bill for February even though it was four degrees, on average, colder. And, at the same time, I cut 28% off of the rest of my power bill.90005 90002 FAQ: Will not your pipes freeze? 90003 90004 During the experimental phase, I worried a lot about this. In the end, I found the optimal approach was to focus a tiny fan on areas with pipes that might freeze. The fan uses very little power (thus, it actually gives off a little heat) and makes very sure that the area is 50 degrees and not a frost pocket. I experienced no frozen pipes. Here is my first post about keeping the pipes from freezing.90005 90002 FAQ: Can this work for people that do not sit at a desk so much? 90003 90004 In a way, I have blazed a new path. And now that others are traveling this path, more people are trying more things. This sort of thing can be modified for nearly any situation. I hope that in the future, we see more personal micro heaters to facilitate a variety of different home scenarios. As is, I keep some micro radiant heaters for company.And when I have a lot of people over, I turn the whole house heat up for a few hours. 90005 90002 FAQ: It might work in Montana, but in Seattle, our windows would get moldy 90003 90004 There are a variety of ways to mitigate the mold problems that occur in cold, humid climates. I did some experimenting when I lived in the Seattle area and have compared notes with people that are still living there. This is a really large issues even if you do not try this.While there are many things to be done, I think the first two would be: 1) learn how to properly clean mold problems (borax, not bleach) and 2) a dehumidifier nearly eliminates all mold problems and gives off heat. 90005 90002 FAQ: How do you keep from getting a chill from the toilet seat? 90003 90004 The bathroom is the one room in the house that is heated normally. So when I saved 87%, part of the 13% was heating the bathroom. 90005 90002 FAQ: Why bother? 90003 90004 I’ve been asked this about a dozen times.The reasoning is that for a few hundred bucks it might be worth just heating the house and not bothering to tinker. I think that is fair. Let us suppose that we are talking about one person and how they might save a thousand bucks by doing what I did. Maybe they make lots of money and tinkering in this space is not worth the thousand bucks. I think that is reasonable. It is worth it to them. 90005 90004 At the same time, I think there are millions of people that would enjoy getting that thousand bucks.So this is really for them. 90005 90004 Some people can afford the thousand bucks, they want to show a bit of care for their community, including a bit of care for the greater community. Every form of energy generation pollutes. Some more than others. If we cut our energy usage, it cuts the pollution. 90005 90004 10% of the electic production in New England comes from oil. 51% for Alaska. I wonder if these techniques caught on, could this reduce or eliminate US war for oil? If I wrote this article 20 years ago might we have never gone to war with Iraq? 90005 90004 A lot of people go to rallies.They holler and carry posters and rage against the others. A lot of people argue about why war is wrong and people should not die for oil. But what do they really DO? How much oil was used to get people to the rallies? Hundreds of millions of people want us to do the right thing, and I think they are willing to cut energy use, as long as they can remain comfortable. 90005 90004 If enough people do this, maybe we can save a lot of tax money on war stuff. 90005 90004 Is it possible that we could shut off a few coal plants? 90005 90002 FAQ: Turning the central heating down at night 90003 90004 I think that this does produce some savings, but not as much as you might think.If you set your thermostat to a constant 70, the heater works a little at a time throughout the day. If you drop it to 50 at night or in the middle of the day, the heater stops working, but then when the time comes to warm the house again, the heater has to work at full power for a long time to get the temp back up — thus losing a lot of your savings. 90005 90004 This is my ten cent graph of what is in my head. The red represents house temp over a 24 hour period. Midnight to midnight.Warm things up in the morning and in the evening. The blue represents energy used to get that house temp. The peaks in the second graph represent the same temp in the first graph. (All this depends on dozens of factors, so this is all a lot of averaging and generalizing and a heavy dose of utter fiction — but this is what is in my head) 90005 90004 I think people will get five to twenty times better results with keeping the temp lower all day, and using personal heaters as needed.90005 90004 We had a bit of a chat about this in a thread called all night central heating. 90005 90002 Summary 90003 90004 This house is pretty small. About 700 square feet. I know of lots of folks living alone in 3000 square foot homes using exclusively electric heat. I wonder if these folks might be able to save thousands of dollars per year by using these techniques. 90005 90004 Sometimes I turned up the heat for company.Sometimes I set them up with a small radiant heater to stay warm. 90005 90004 I did a few days at 40 and was fine. I did a few hours at 37 one day and I needed more personal heaters. 90005 90004 I think some people might try this sort of thing while setting their house thermostat to 60. They might cut 50% off of their heating bill. 90005 90004 Since I’ve been asked: I have not gotten sick even once all winter. Not even a cold (knock on wood). 90005 90004 You can read a huge amount of discussion on this as I went through several levels of optimization in the thread making the best of electric heat.90005 90004 You can contribute to the discussion about this article in the thread at Permies.com here. 90005 .