Heat pump humidifier and working method

Abstract

The invention discloses a heat pump humidifying device and a working method. The device comprises: a heat pump system, a solar heat collector and a spray air supply system. The method is based on the atmospheric temperature T 0 and the inlet and outlet water temperature difference ΔT of the solar heat collector are divided into three working modes, namely: A, T 0 ≥15℃, △T≥30℃ working mode, B, T 0 ≥15°C, △T<30°C working mode, C, T 0 <15°C, △T<30°C working mode; the invention couples the heat pump technology with the solar heat collection technology, realizes the series / parallel operation of the heat pump and the solar heat collector, and improves the steam production and production efficiency; compared with the existing With a humidifying device, the present invention has many advantages of high steam output, good energy efficiency, economical operation and wide application range.

Description

technical field [0001] The present invention relates to a humidifying device, more specifically, to a heat pump humidifying device. It belongs to the technical field of air conditioning equipment. Background technique [0002] The humidity of the air is one of the "four degrees" of air conditioning. From the perspective of meeting the requirements of comfort and craftsmanship, ensuring that the air has an appropriate humidity value will be an important part of air conditioning. The phase value of air comfort is between 40% and 60%. The air in winter is relatively dry, and the humidity value of the air in the room will drop during the heating process, which makes people feel uncomfortable; it is used in printing and dyeing textiles, food processing, flowers In the typical industrial production such as horticulture and electronic chips, the maintenance of air humidity is also very important, which not only affects the output of industrial products, but also affects the qualit...

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Problems solved by technology

[0003] The existing humidification methods mainly include: isothermal humidification, isenthalpy humidification, cooling humidification, temperature increasing humidification, etc., and each has its own characteristics in terms of humidification devices. There are small electric heating, ultrasonic household humidifiers, large ultrasonic, wet film, Centrifugal industrial humidifiers, but the existing humidifiers have many shortcomings such as large power consumption, high operating costs, low energy efficiency, and large floor space

[0004] In the three seasons of spring, autumn and winter, the air is dry and the relative humidity is low. It is very necessary to increase the air humidity to increase the relative humidity to maintain the comfort of the air. Great progress has been made, but there are still many deficiencies in achieving the comfort of building air humidity efficiently and uniformly; in industrial production, humidity regulation is indispensable. Judging from the existing industrial humidification devices, there are many problems such as high energy consumption, The problem of low output, and some devices are greatly affected by the environment when they work, and even have the problem of not working. Therefore, it is necessary to build an efficient and economical humidification device for use in life and production.

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