Industrial Furnaces
|
Industrial-Grade Furnaces
|
WIN GROUP industrial furnaces are engineered with superior technical expertise and advanced materials to deliver highly-controlled temperatures utilising fuels, gases, raw materials, and electricity. |
|
Comprising heat exchanges, air & flue blowers, burners, pilot/ignition devices, control circuitry, and thermostats, industrial furnaces combine different technologies and construction methods to achieve highly controllability and fuel efficiency with optimum thermal characteristics and high fuel capacity. |
|
To deliver reliability, safety, and efficiency, we integrate advanced materials capable of withstanding extreme temperatures and proven and proprietary technologies, including the latest fuel/electrically heated furnaces, furnace burner types, and furnace stacks for manufacturing, production, and processing. |
|
At WIN GROUP, we stand for quality, safety, and reliability to bring the best technological solutions to the industry. |
|
All Industrial Applications
|
Our industrial furnaces service clients across all industrial manufacturing & processing applications: |
- Metallurgy
- Mechanical engineering
- Chemicals engineering/production
- Ceramic production/processing
- Building materials
- Manufacturing
- Dental laboratory
- General laboratory
- Other light industry
|
|
What fuel your furnace? Furnace Type Considerations
|
At WIN GROUP, we provide Electric Furnace and Fuel-Fired Furnace designs to fulfil the technical challenges and operation goals of our clients across all manufacturing and material processing industries. |
|
Depending on the application, environment, availability of resources, and budget, it is important to consider several core design considerations to achieve optimal efficiency, safety, and desired product outcomes. |
|
Electric Furnaces |
|
Electric furnaces generate heat via electrical induction or resistance, making them highly efficient with a controllable internal temperature and pressure. They are also more environmentally friendly. However, they are relatively more expensive to operate compared to fuel-fired furnaces. |
|
Resistance-type electric furnaces |
|
Resistance-type electric furnaces generate heat by passing electrical current flows through a resistor circuit. |
|
Induction-type electrical furnaces |
|
Induction-type electrical furnaces generate heat by passing electricity through induction coils around a load. These systems are often water-cooled to prevent overheating. |
|
Advantages: |
|
- Rapid heating
- Precise frequency control via the load material/number of coils
- More consistent and even heating as compared to gas-type furnaces
- More environmentally friendly as compared to gas-type furnaces
|
|
Considerations for selecting an Electric Furnace: |
|
- Pressure range
- Process temperature
- Chamber length
- Outer diameter of furnace tube; height, width
- Pressure range
- Operating temperatures
|
|
|
Fuel-Fired Furnaces |
|
Fuel-fired furnaces generate heat via the combustion of fuels, gases and raw materials. With the high availability of inexpensive fuels and the large amounts of heat energy they can produce, fuel-fired furnaces are a mainstay in manufacturing and material processing. |
|
In addition, high-efficiency modern fuel-fired furnaces match the efficiency of electric furnaces, leading to increased cost-performance and lower environmental impact. |
|
|
|