10 - 2023 - Industrial purification heat recovery

Waste heat recovery from shaping machine exhaust gas

The waste heat recovery of the molding machine exhaust gas is an energy-saving technology that improves energy efficiency by capturing and reusing the heat in the exhaust gas emitted by the molding machine. This process typically includes the following steps:

Exhaust gas capture: The shaping machine generates a large amount of exhaust gas during operation, including high-temperature hot air. The exhaust gas capture system is used to effectively collect these exhaust gases.
Heat exchanger: The exhaust gas is introduced into the heat exchanger, which is a device used to transfer heat. Usually, the heat energy in the exhaust gas is transferred to other media flowing through a heat exchanger, such as water or heat transfer oil.
Energy transfer: The heat energy in the heat exchanger is transferred to the passing medium, thereby heating the medium.
Thermal energy reuse: The heated medium can be used for different applications, such as heating buildings, heating process water, providing hot water or steam, or for other industrial heating needs.
Energy conservation and efficiency improvement: Through waste heat recovery, the energy utilization efficiency of the molding machine is improved, reducing energy costs and reducing the impact on the environment.
The performance of the waste heat recovery system depends on the scale of the molding machine, working temperature, exhaust gas composition emitted, and the design and control of the recovery equipment. These systems can effectively reduce exhaust emissions, improve resource utilization efficiency, and reduce energy costs, making them widely used in many industrial applications.

Laminar flow hood weighing hood ultra clean workbench manufacturer: Kunshan Aifeige

Kunshan Aifeige Purification Equipment Co., Ltd. is a company engaged in the manufacturing, sales, and research and development services of air filtration products. It has passed the ISO9001 14001 dual system certification and has achieved international standards in the integration of various management systems, indicating that the company can continuously and stably provide customers with expected and satisfactory qualified products. The company's research and development mainly collaborates with universities and research institutions in the field to complete the development and performance testing of new products. The main products include: primary efficiency filter, medium efficiency filter, high-efficiency filter, oil mist filter, suspension blower filter, clean shed, laminar flow hood, weighing hood, FFu filter, ultra clean workbench and other air filtration products.
The company is located in the High tech Zone of Kunshan City, and currently has efficient production lines, complete sets of testing instruments for efficiency, wind speed, and other aspects. The entire production process is carried out in a Class 10000 clean room. Junior high efficiency filters are all operated in a streamlined manner. Our products are diverse, providing customers with one-stop service for the entire factory filter configuration. Simultaneously undertaking OEM ODM and import and export trade business.
No. 167 Chensong Road, High tech Zone, Kunshan City, Jiangsu Province
Kunshan Aifeige Purification Equipment Co., Ltd
Manager Chen: 15051630690
Manager Li: 19962800836
https://www.afgjh.com/

air to air heat exchanger calculator

An air-to-air heat exchanger calculator typically helps in determining the heat transfer and energy recovery efficiency of an air-to-air heat exchanger or heat recovery ventilator(HRV)system.The exact calculations can be complex and depend on various factors,including the type of heat exchanger,temperature differences,flow rates,and specific heat capacities.To use such a calculator,you would typically need the following information:
1.Temperature Differences:You would input the incoming air temperature and the exhaust air temperature to calculate the temperature difference.
2.Flow Rates:The flow rates of the incoming and exhaust air streams are needed to determine the heat transfer rate.
3.Specific Heat Capacities:Specific heat capacities of the air on both the supply and exhaust sides are used in the calculations.
4.Efficiency:The calculator may also provide an efficiency rating,indicating how effectively heat is transferred from the outgoing air to the incoming air.
5.Heat Recovery:The calculator may show the amount of heat energy recovered,which can be valuable for estimating energy savings.
Specific calculators can vary in complexity,and there are both simple and more advanced tools available online or as software applications.For precise calculations,especially for complex systems,it's often recommended to use dedicated HVAC design software or consult with a professional HVAC engineer.
When using such a calculator,ensure that you have accurate input values to get meaningful results for your specific air-to-air heat exchanger system.

Air compressor filter element level

The filter element level of air compressor filters is usually in microns（ μ m) Represented in units, it is used to describe the size range within which filters can effectively remove particulate matter. Different applications require different levels of filters, which typically include:

Coarse filtration: usually at 25 μ M to 100 μ Within the range of m, it is mainly used to remove larger particulate matter, such as dust and particulate matter. This level of filter is usually used for pre filtration of air compressors to protect finer filters.
Precision filtration: usually at 1 μ M to 25 μ Within the range of m, it is used to remove smaller particles and solid particles. This level of filter is commonly used to provide cleaner air to meet specific application requirements, such as food processing and pharmaceuticals.
Ultra precision filtration: usually at 0.01 μ M to 1 μ Within the range of m, it is used to remove small particles, including bacteria, viruses, and small particles. This level of filter is typically used for high demand applications such as electronic manufacturing and healthcare.
The selection of an appropriate filter level depends on the application requirements, and usually needs to be based on the properties of smoke, particulate matter, and liquid droplets. In general, a coarse filter is used for pre filtration, followed by precision or ultra precision filters to ensure the required air quality and dryness are provided. Different applications may require different levels of filters to meet standards for cleanliness and particulate matter control.

Industrial purification heat recovery

Monthly Archive 2023-10-27

Waste heat recovery from shaping machine exhaust gas

Laminar flow hood weighing hood ultra clean workbench manufacturer: Kunshan Aifeige

air to air heat exchanger calculator

Air compressor filter element level

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