AUTOMOTIVE

    ● The equipment has a large air volume. The maximum air volume of the MERI MR Unit can reach 350,000 m ³ /h.
    ● The MERI MR Unit develops a sheet metal structure box body, which is connected by bolts or welding. The bottom plate is fully welded and has a slope of 3 to 5 degrees.
    ● The fan section of the MERI MR Unit is equipped with lifting beams and guide rails, and the cold and hot water heat exchange section is configured with a pull-out structure.
    ● The environmental temperature and humidity requirements for the equipment are highly accurate and stable, with a temperature of ± 0.5℃ and a humidity of ± 3%.
    ● Traditional equipment consumes a lot of energy. The MERI  MR Unit reduces energy consumption from multiple aspects such as energy configuration, equipment selection, reasonable layout of functional sections, and fluid analysis to reduce wind resistance.
    ● The MERI MR Series is equipped with a special steel inspection door (1800mm*800mm), which is of high strength and low air leakage rate. It also features a special external light box with high illuminance.

    ● The MERI MR Unit adopts multi-stage filtration, sterilization and disinfection methods to meet the requirements of supply air cleanliness.
    ● The MERI MR Unit adopts a patented built-in frame structure, featuring a low air leakage rate and facilitating installation, disassembly and maintenance.
    ● The MERI MR Unit adopts variable-frequency EC fans, ensuring stable and precise air volume control.
    ● Optimize the system configuration, adopt energy-saving design and reduce the energy consumption of the air conditioning system;
    ● The MERI MR Units can be customized to meet the needs of different customers.

    BIOMEDICAL

    ELECTRONIC INFORMATION

    It adopts multi-stage filtration to precisely control particles and floating dust, which can meet the air supply cleanliness requirements of grade 10, Grade 100 and Grade 1000.
    ● Optimize the design of functional sections, make rational use of return air, and implement separate control of heat and humidity to achieve energy-saving operation.
    ● To meet the anti-corrosion and explosion-proof requirements of specific areas, stainless steel and other corrosion-resistant materials are used to provide explosion-proof and flameproof protection for moving parts and electrical components.
    ● It adopts a patented built-in frame structure with a low air leakage rate, which is convenient for installation, disassembly and maintenance.
    ● Strengthen control and coordination, and jointly supply air with other equipment (such as FFU, DC) to meet the requirements of temperature, humidity and cleanliness of the supply air.

    GREEN ENERGY

    ● Multi-stage filtration is adopted to meet the cleanliness requirements of the supply air.
    ● Mechanical labyrinth seals are adopted to prevent air leakage from adversely affecting temperature, humidity, cleanliness, etc.
    ● Dehumidification is carried out by using a first-stage or second-stage rotor to meet the requirements of low-humidity air supply (the dew point temperature of the air supply reaches -60°C or even lower).
    ● By adopting heat recovery technology, heat is recovered from the regenerative exhaust air to reduce energy consumption and achieve energy-efficient operation.
    ● The functional sections are rationally arranged, occupying a small area and achieving space optimization.
    ● It is equipped with a carbon dioxide heat pump to provide high-temperature desorption heat source and surface cooling heat source, with a GWP of 1, which is environmentally friendly and green.

    PUBLIC SERVICE

    ● Configurations can be selected according to different requirements to provide an overall customized solution.
    ● Low energy consumption, convenient operation, effectively saving operating costs, uniform wind speed, constant water temperature, and comfortable body feeling.
    ● The air flow organization methods of the supply/return air system are diverse and can be flexibly configured according to customer requirements.
    ● Diverse heating methods: including refrigerant condensation heating, steam heating, hot water heating, electric heating, etc.
    ● Diverse refrigeration methods: including refrigerant evaporation refrigeration, cold water cooling, spray cooling, etc.
    ● Diverse humidification methods: including large-scale spray humidification, mist spray humidification, wet film humidification, and spray humidification, etc.

    ENERGY CONVERSATION

    ● By optimizing the system configuration, the entire system can achieve the best coordination, optimal performance, highest efficiency and minimum space occupation.
    ● Optimize equipment configuration and adopt high-performance, low-GWP and high-efficiency equipment.
    ● Optimize pipeline design and construction to reduce pipeline resistance and save operating costs.
    ● It adopts fully variable-frequency equipment and the optimal control logic of comprehensive energy efficiency. According to the changes in the required cooling capacity and the amount of cold/hot water, it automatically adjusts the number of operating units and working conditions of the equipment, reducing losses, saving energy and lowering operating costs.
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