Fan Heaters are long-lasting machines that can give efficient and homogeneous heat compared to many other heaters. It provides ease of use to the user with the handle or the air guide chassis on which it is mounted. Fan Heaters do not require refueling and are very useful with the energy savings they provide. Fan Heaters, which are an effective solution especially for heating places with no flue gas outlet and gas or liquid fuel supply problems; With its unique structure and standard ambient thermostat, it is used in all small and large businesses, offices, stores, plazas, shops, construction sites, paint and varnish drying works, shipyards, yacht workshops, workshops, workshops, tents, and various social organizations.
Fan heaters, drying with hot air, curtaining processes. It is used for heating places such as offices, workshops, factories, restaurants, cafeterias and greenhouses. It is one of the low-cost industrial solutions of fan heaters. They are products with strong heating capacity that can appeal to large areas alone.
Our industrial fan heaters are heater types that you can use safely in businesses. Industrial fan heater models, which are produced in accordance with all your needs, operate on the same principles as classical style heaters.
It is used for heating places such as offices, workshops, factories, restaurants and cafeterias in hot air drying and curtaining processes. The heater models that you can choose in different sizes according to your needs have an easy assembly process.
These heaters, which can meet all the needs of large areas without the problem of heating capacity, are durable products that you can use for many years.
Technical Information
These Heaters provide ideal heating for 90-300 m2 areas with five different power options. It prevents bad odor in the areas where it is used. Thanks to the adjustable hanger apparatus, ceiling and wall mounting are made in the desired direction. It is used as a coolant in the summer and a heater in the winter. It has a structure that does not dry the air and does not consume oxygen. It can be used safely in areas such as cafes, restaurants, greenhouses, agriculture and livestock. There is an automatic thermostat inside the Fan Heaters. In this way, the desired temperature value is automatically controlled by the device. It has digital thermostat and remote control options according to the user’s request.
Electrical Fan Heaters
Technical Details of Electrical Fan Heaters
Electrical fan heaters are devices primarily used to increase air temperature. They convert electrical energy into heat, which is then distributed into the surrounding environment by a fan, raising the ambient temperature. The technical details of electrical fan heaters involve the heating elements, fan system, and overall device structure. Below are key details regarding electrical fan heaters:
1. Heating Elements
Electrical fan heaters typically use heating elements made from metal or ceramic materials. When an electric current passes through these elements, they heat up, and this heat is then transferred to the airflow.
• Metal Heating Elements: Often made of durable metals such as stainless steel. Metal heating elements provide rapid heating and have long lifespans.
• Ceramic Heating Elements: Made from high-temperature-resistant ceramic materials, they emit more uniform heat. Ceramic elements are generally more energy-efficient and can withstand high temperatures.
2. Fan System
A crucial component of an electrical fan heater is its fan system. The fan ensures airflow and quickly distributes the heated air throughout the room. The fan speed is usually adjustable to regulate airflow according to the desired temperature level. The efficiency and design of the fan directly affect the overall performance of the heater.
• Fan Types: Centrifugal (wheel) or axial fans may be used. Centrifugal fans typically provide higher airflow, while axial fans operate at lower noise levels.
3. Heat Transfer
In electrical fan heaters, heating elements come into direct contact with air, converting electrical energy into heat. As air passes over the heated elements, it warms up and is quickly delivered to the environment by the fan. This heat transfer primarily occurs through convection.
• Convection: As air heats up around the heating elements, it rises, and cooler air is drawn in from below. This cycle promotes uniform temperature distribution in the room.
4. Control Systems
Electrical fan heaters include various control systems for temperature regulation and safety, which are crucial for efficient operation and to prevent overheating.
• Thermostat: Once the desired ambient temperature is reached, the thermostat adjusts or cuts power to the heating elements, maintaining a stable environment.
• Speed Controls: The ability to adjust the fan speed optimizes heater performance, increasing or decreasing airflow based on room temperature conditions.
• Timer: Some models include timers to set how long the heater will operate.
5. Energy Efficiency
The energy efficiency of electrical fan heaters depends on the type of heating elements and the fan’s efficiency. Ceramic heaters generally heat up faster and consume less energy. Additionally, efficient fan operation and optimized airflow reduce energy consumption.
• Low Power Consumption: Energy-efficient electrical fan heaters consume less electricity during heating.
• Minimized Heat Loss: Well-insulated electrical fan heaters minimize heat loss, enhancing energy efficiency.
6. Material and Construction
Electrical fan heaters are generally built with durable, heat-resistant, and lightweight materials to ensure safe operation and long life.
• Metal Structures: Often use aluminum or stainless steel, which quickly conduct heat and contribute to efficient operation.
• Plastics and Composites: Lightweight, durable plastic materials are typically used for the outer casing, increasing portability.
7. Heating Area and Applications
Electrical fan heaters are typically used to heat small to medium-sized spaces. Their rapid heating capability makes them suitable for both industrial and residential use.
• Industrial Use: Workshops, warehouses, production lines, etc.
• Residential Use: Offices, bedrooms, living rooms, etc., providing practical heating solutions.
8. Safety Features
Safety is paramount to prevent overheating and fire risks. Electrical fan heaters are generally equipped with safety features such as:
• Overheat Protection: Thermal fuses or safety thermostats prevent overheating.
• Tip-over Protection: Some units include tilt sensors that automatically shut off the heater if it falls over.
Electrical fan heaters are energy-efficient devices that rapidly produce warm air by converting electrical energy into heat through heating elements and distributing it with a fan system. Advanced temperature control systems, energy efficiency, and safety measures make these devices ideal heating solutions for a variety of applications, ensuring efficient and safe heating.
Dimensional Details of Electrical Fan Heater Elements
The dimensions of electrical fan heater elements vary depending on the type of heating element used, the capacity of the device, and the operating conditions. Below are important details regarding the various dimensional specifications of electrical fan heater elements.
1. Heater Length
The length of electrical fan heater elements is a crucial factor that determines the heating capacity and airflow. The length varies based on the material used and the heating requirements of the device.
Metal Heating Elements: Typically available in lengths ranging from 10 cm to 30 cm.
Ceramic Heating Elements: These elements are generally produced in lengths ranging from 15 cm to 40 cm.
2. Heater Diameter
The diameter of the heating element affects the coverage area and the efficiency of heat distribution. The diameter also impacts the capacity of the device.
Metal Heating Elements: Usually range from 6 mm to 20 mm in diameter.
Ceramic Heating Elements: Larger diameters are common, typically ranging from 10 mm to 25 mm.
3. Heating Power (Wattage)
The power rating of electrical fan heaters is a key factor that determines the efficiency and speed of heating. This power is typically measured in watts.
Low-Power Models: 300W – 500W
Medium-Power Models: 500W – 1500W
High-Power Models: 1500W – 3000W or higher
4. Fan Speed and Airflow
The fan speed in electrical fan heaters is an essential parameter that directly impacts the airflow and heating speed.
Fan Speed: Typically ranges from 1,500 RPM (revolutions per minute) to 3,000 RPM.
Airflow: Common airflow rates range from 100 m³/h to 500 m³/h.
5. Mounting Dimensions
The mounting dimensions of electrical fan heaters vary depending on the application. The size and mounting style of the device are particularly important for industrial applications.
Compact Models: Typically around 25 cm x 25 cm x 50 cm.
Industrial Models: Larger sizes such as 60 cm x 60 cm x 120 cm are available.
6. Heat Distribution Area
The effective heat distribution area of electrical fan heaters is directly related to the efficiency of the device. The diameter of the heating elements and the fan’s airflow determine the heat spread.
Small Areas: Suitable for heating areas between 10 m² – 30 m².
Large Areas: Models with high wattage and larger fans are preferred for areas over 50 m².
7. Electrical Connection
The electrical connection specifications of electrical fan heaters are also important. Most devices operate on 220V and 50Hz, but industrial models may require different voltage ratings (380V).
Household Models: 220V
Industrial Models: 380V or 400V
8. Weight and Portability
The weight of electrical fan heaters varies depending on the materials used and the design. Lightweight and portable models are usually smaller and more compact.
Compact Models: 1 kg – 5 kg
Larger Models: 10 kg – 20 kg or more
9. Outer Casing Material Thickness
The outer casing material of electrical fan heaters is another important parameter. The thickness of the outer surface affects the durability and heat insulation of the device.
Metal Surfaces: Typically range from 1 mm to 2 mm in thickness.
Plastic Surfaces: Usually range from 2 mm to 5 mm.
The dimensional details of electrical fan heater elements vary according to the type and intended use of the device. Selecting the correct dimensions is crucial for the efficiency, heating capacity, and energy-saving potential of the device. Factors such as the length and diameter of the heating element, power ratings, and fan speed, as well as mounting dimensions and airflow, can be customized based on user requirements.
Working Principle of Electrical Fan Heaters
Electrical fan heaters generate heat by converting electrical energy into thermal energy using heater elements and distributing it through fans. These devices are commonly used indoors to provide air circulation and effective heating. Here is the working principle of electrical fan heaters:
1. Passage of Electrical Current Through Heater Elements
Electrical fan heaters contain a heater element, usually made of nickel-chromium alloy, which converts electrical energy into heat energy. As the electrical current passes through the heater, it encounters resistance. This resistance restricts the flow of electricity, resulting in energy loss in the form of heat. The heat accumulates on the surface of the heater and comes into contact with the air.
2. Airflow Provided by the Fan
A fan is used to distribute the heat generated by the heater elements to the surroundings. The fan operates via a motor inside the device that directs airflow. It draws in ambient air, passes it over the heater elements, and disperses the heated air into the room. This process quickly increases the room temperature.
3. Distribution of Heat in the Environment
The fan continuously circulates the warm air throughout the room, ensuring an even distribution. This allows electrical fan heaters to heat the environment more quickly and efficiently. The power of the fan motor determines the airflow speed. Fans operating at higher speeds provide effective heating in larger areas.
4. Temperature Control with Thermostat
Most electrical fan heaters are equipped with a thermostat that regulates the temperature. The thermostat monitors the room temperature and operates the heater as needed. Once the desired temperature is reached, the thermostat stops the heater. This feature enables electrical fan heaters to maintain a stable temperature by automatically turning on and off as required.
5. Energy Efficiency and Safety
Electrical fan heaters are typically designed for energy efficiency, aiming to produce maximum heat with minimal energy consumption. Additionally, they are equipped with safety features to prevent overheating. These features ensure that the device does not exceed a specific temperature, providing protection for the user.
6. Rapid Heating
One of the advantages of electrical fan heaters is their ability to heat up quickly. Since electrical energy is directly converted into heat, the airflow from the fan helps to rapidly increase the room temperature. For this reason, they are often preferred during cold winter days to warm up spaces in a short time.
Electrical fan heaters operate on the principle of converting electrical energy into heat through resistance and distributing it to the surroundings using a fan. These devices provide efficient heating while quickly increasing room temperatures. Thanks to thermostats, temperature control is achieved, ensuring energy savings and safe usage with built-in safety measures.
Electrical Fan Heaters
An electrical fan heater is a device that combines a fan system with heater elements to provide air-based heating. The heater element converts electrical energy into heat, while the fan distributes this heat throughout the environment. These types of heaters are commonly used to efficiently heat large spaces.
Electrical fan heaters offer advantages such as rapid heating, uniform heat distribution, and high efficiency. They are also portable and easy to install. The fan system helps distribute heat over a wider area, ensuring effective heating.
Electrical fan heaters are commonly used in industrial areas, warehouses, hangars, greenhouses, food processing facilities, and vending machines. Additionally, smaller home models are suitable for residential spaces, offices, and workshops.
Electrical fan heaters typically have a power capacity ranging from 1000 W to 50 kW. This power range varies depending on the size of the space and heating requirements. Low-capacity heaters are used for smaller areas, while high-capacity systems are preferred for larger spaces.
Electrical fan heaters can usually operate within a temperature range of -30°C to 400°C. This range may vary depending on the materials used and the design of the device. Temperature settings can be controlled either manually or digitally.
Electrical fan heaters should be regularly cleaned, and their fans should be inspected. Electrical connections should also be checked periodically. Ensuring that the fan operates correctly is crucial, as blockages can reduce heating efficiency.
Electrical fan heaters are designed for high efficiency. Fans help distribute heat evenly, producing more warmth with less energy consumption. Some systems include heat recovery features to further enhance energy efficiency.
Electrical fan heaters can be installed as wall-mounted or standalone units. Proper electrical connections and correct fan orientation are essential during installation. Additionally, positioning temperature sensors correctly is a critical part of the installation process.
The lifespan of electrical fan heaters typically ranges between 5 to 15 years. This duration can be extended with regular maintenance, proper usage, and favorable environmental conditions. Neglecting maintenance can lead to a shorter lifespan.
Electrical fan heaters are designed with high energy efficiency in mind. Features such as fan speed control, insulation, and heat recovery systems can enhance their efficiency. Many devices include digital thermostats and autonomous control systems to optimize energy consumption.
