it adopts stainless steel tube sleeve & aluminum fin structure, and it is in close contact with steel tubethrough hydraulic expansion tube, which has better heat transfer effect.Made of high quality stainless steel tube, high thermal conductivity and strong corrosion resistance.Professional tube design,low resistance, higher heat transfer.Professional software selection to meet the needs of different users
Working conditionSteam pressure ≤0.5MPa, air supply temperature up to 150 degrees;When selecting the product, choose the economic operation wind speed range (1.5m/s-3.5m/s)In this way, it can get good economic operation results.The maximum size of a single size can be 5000mm x 2500mm, which can be assembled when thissize is exceeded.
Introduction: The heat exchange core is a cross flow heat exchange core, in which two streams of air with different temperatures flow in a positive cross flow, and heat exchange occurs between the two fluids, with their channels completely separated.
Cross flow plate heat exchangers can be applied to air handling units as the main component of heat recovery. Cross flow plate heat exchangers can also be applied to ventilation systems, installed in air ducts as the main component of the heat recovery section, and their installation positions can be flexibly switched.
Application scenarios: Waste heat recovery solutions for coating machines, laminating machines, etc., heat recovery solutions for drying vegetables, nuts, shrimp skin, and dried fish, waste heat recovery for paint baking rooms, energy-saving technologies for waste heat recovery of exhaust gases such as boiler and factory electricity.
The module structure can provide any size and stacking height combination to meet various airflow and scene applications.
Material: According to the on-site working conditions, various materials are available for selection, such as hydrophilic aluminum foil, epoxy resin aluminum foil, stainless steel, etc.
The air volume range is 1000-10000 m³/h, in terms of ventilation and exchange functions, add air purification, energy recovery, refrigeration and heating functions to maximize the recovery of cold and heat in the exhaust. It is suitable for laboratories, computer rooms, cinemas and theaters, shopping malls, supermarkets, hospitals, hotels, offices, schools, nursing homes and any other public places.
Equipped with bidirectional air exchange, air purification (G4+F5 filtration), total heat plate primary energy recovery, and heat pump system secondary energy recovery functions, it can achieve 85% energy recovery effect. The filter maintenance is easy, with options for side (opposite the press side) or bottom (opposite the press side and lower) pull-out maintenance.
LCD display control, multiple protections, easy operation; Equipped with high and low pressure protection, exhaust temperature protection, compressor start delay protection, overload and phase sequence protection to ensure safe and reliable equipment operation.
Automatic rolling shutter air filter is an air pre filtration and dust removal equipment that uses special chemical fiber rolls as the filtering medium, and uses the pressure difference before and after the filter as the sensing signal to automatically control the replacement of filter materials.
The automatic rolling shutter air filter is equipped with synthetic fiber filter material. The thickness is 8-20mm. The main raw material of the filter material is polyester fiber. The structural form often presents a density gradient arrangement and combination. This synthetic fiber composite filter material has the characteristics of good comprehensive ventilation and dust removal performance, high strength, etc. It is non-toxic, odorless, non-volatile, non irritating to the skin, and easy to operate.
The automatic rolling shutter air filter has the advantages of simple structure, low operating cost, and convenient use. It can be used in various intake purification places, especially for air purification of high air volume and low air pressure intake systems, such as in front of ventilation equipment and air conditioning units, and at the intake end of blower rooms.
The application principle of waste heat recovery equipment in biopharmaceutical enterprises is mainly to transfer the thermal energy in the pharmaceutical factory exhaust gas to the working medium through a heat exchanger, so as to raise its temperature, and then convert this thermal energy into useful energy, such as preheating air, hot water, steam, etc., to avoid energy waste and reduce exhaust gas emissions while protecting the environment.
Advantages of biopharmaceutical waste heat recovery heat exchanger:
Efficient heat transfer
Energy conservation and environmental protection
Easy to maintain
Customizable design
The use of plate heat exchangers for dehumidification and waste heat recovery in the process of biopharmaceutical waste heat recovery can effectively reduce energy consumption, improve efficiency, extend equipment service life, and help meet environmental requirements.
A coating machine is a mechanical device used to evenly apply specific functional adhesives, coatings, inks, etc. onto the surface of a substrate and dry it, with a wide range of applications. For example, printing and packaging coating, textile and building materials anti-corrosion and waterproof coating, automotive sheet metal coating, optical coating for circuit boards, semiconductors, and lithium battery production coating. The coating process of a coating machine mainly includes three steps: coating, drying, and winding. The drying process generates a large amount of waste heat during the heating process. Therefore, designing an effective waste heat recovery device can effectively reduce the energy consumption of the coating machine, which is important for its energy conservation and environmental protection. Principle of residual heat recovery of coating machine The waste heat recovery device of the coating machine uses a heat exchanger to recover waste heat. Using the waste heat gas emitted by the coating machine (coating machine) to preheat the new air, the preheated new air enters the oven through the pipeline, achieving the goal of energy conservation. The heat exchanger achieves waste heat recovery by exchanging heat between the hot air and flue gas generated during the drying process of the coating machine and the recovery medium (such as air, water, or other fluids). Hot air and flue gas flow through the heat exchanger through one side channel, while the recovery medium flows through the other side channel. The plate structure of the heat exchanger increases the surface area for heat transfer and improves the efficiency of heat recovery. Advantages of Coating Machine Waste Heat Recovery Device Compact structure, high heat transfer efficiency, and strong adaptability. They are suitable for heat transfer and energy recovery in high temperature, high humidity, and corrosive environments. Through a well-designed waste heat recovery system, lithium battery coating machines can operate more efficiently and reduce their impact on the environment.
In the conventional drying process of wood, the traditional ventilation method results in significant heat loss due to the removal of moisture and exhaust gas. The forced ventilation and waste heat recovery system in the wood drying room is a new technology that improves the indoor and outdoor dry wet air exchange process in drying production and effectively recovers waste heat. The counterflow plate heat exchanger adopts high-quality hydrophilic coated aluminum foil, epoxy resin coated aluminum foil and other materials. The two air streams enter the channel in reverse, increasing the heat transfer area. The fresh air and exhaust air are completely separated to avoid the transmission of odors and moisture. Fast thermal conductivity, no secondary pollution, achieving ventilation and heat recovery functions.
Product Introduction: Plate heat exchanger is a detachable energy recovery heat exchange device composed of multiple corrugated heat transfer plates. The heat exchange core is made of hydrophilic aluminum foil, oxygen resin aluminum foil, stainless steel and other materials. The air flows in a cross flow manner, and the fresh exhaust is completely separated to avoid the transmission of any odor and moisture.
Product features:
Using hydrophilic coated aluminum foil as the heat transfer conductor, processed by special technology, it has the characteristics of high heat transfer efficiency, easy maintenance, and long service life.
Epoxy resin aluminum foil can be used, which is corrosion-resistant and suitable for special occasions.
Multiple specifications, sizes, and spacing (3-12mm) are available for selection.
Modular structure, capable of providing combinations of cross-sections of any size and plate stacking thickness, with no moving parts and low equipment maintenance costs.
Compact structure, small volume, suitable for various occasions.
Flexible assembly: The combination form of plate heat exchangers can be reasonably selected according to the size of the usage and installation site space, as well as the operating conditions.
Application areas: Widely used in ventilation, energy recovery, cooling, heating, dehumidification, and waste heat recovery industries such as HVAC, telecommunications, power, textile, automotive, food, medical, agriculture, animal husbandry, baking, drying, welding, and boilers. Heat pump system: Plate heat exchangers are widely used in air source heat pump systems, suitable for household and small commercial projects. Industrial sector: Suitable for large-scale heat exchange in industrial production, such as chemical, food processing, energy and power industries. Ground source heat pump system: suitable for ground source heat pump systems, with high heat transfer efficiency. Seawater desalination: suitable for seawater desalination process, corrosion-resistant and high-temperature resistant.
The application of cooling heat exchangers in data centers is an important component of energy efficiency management in data centers. Through efficient thermal management technology, energy consumption is significantly reduced and system performance is improved.
The function of plate heat exchanger Improving energy efficiency: Plate heat exchangers play a crucial role in data center cooling systems. Through an efficient heat exchange process, plate heat exchangers can effectively transfer the heat generated by servers to the cooling water, which is then released into the atmosphere through the cooling tower. This efficient heat exchange process not only improves the energy efficiency of data centers, but also reduces energy consumption and operating costs. Optimize temperature control: Plate heat exchangers can accurately control the temperature and humidity inside data centers, ensuring that server equipment operates in a suitable environment. By adjusting the flow rate and temperature of cooling water, plate heat exchangers can meet the cooling needs of different data centers, ensuring the stable operation and efficient performance of server equipment. Energy saving and environmental protection: The use of plate heat exchangers helps reduce the impact of data centers on the environment. By using environmentally friendly materials and energy-saving technologies, plate heat exchangers can reduce energy consumption and emissions, in line with the concept of sustainable development. Meanwhile, the efficient heat exchange process of plate heat exchangers also reduces waste of natural resources, providing strong support for the green operation of data centers. Flexible and reliable: Plate heat exchangers have the advantages of compact structure, small footprint, and easy installation, making them widely used in space limited places such as data centers. At the same time, the design and manufacturing of plate heat exchangers have undergone strict quality control and testing verification, ensuring their long-term stable and reliable operational performance.
Rotary heat exchanger, an industrial energy-saving tool, adopts advanced design, dynamically adapts to changes in heat load, and improves heat transfer efficiency and thermal energy utilization. It efficiently converts heat energy through two methods: direct contact heat transfer and indirect heat transfer. Compared with fixed bed heat exchangers, it has higher heat transfer efficiency and larger heat transfer area, especially in high temperature, high pressure, and high corrosion environments, demonstrating unique advantages. High degree of automation, reducing labor costs, and achieving precise temperature control. Widely used in industries such as petrochemicals, energy and power, food and medicine, as heaters, coolers, condensers and other equipment, to improve energy utilization efficiency, reduce energy consumption and carbon emissions.
Summary of Characteristics: High heat transfer efficiency: dynamic operation to enhance efficiency. Strong adaptability: able to handle diverse processes and meet complex needs. High degree of automation: advanced control, reducing costs. Easy to maintain: The structure is simple, easy to maintain, and cost-effective.
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