What is the quotation for industrial dehumidifiers? The quotation of each model of industrial dehumidifier is different. You can call us to get a new quotation on our official website. What about the next parameter of NESDA about industrial dehumidifier?

          Temperature is a state parameter describing the thermal state of the thermal system of an industrial dehumidifier. It represents the hot and cold degree of the object. The international unit is k, which is the temperature in Kelvin. There is a certain conversion relationship between Kelvin temperature (k), Celsius temperature and Fahrenheit temperature.

Pressure is a state parameter describing the internal mechanical state of the thermal system of an industrial dehumidifier composed of fluid substances. The unit is PA. The stress state that the industry cares about generally depends on the difference between absolute pressure and ambient atmospheric pressure. This difference is regarded as my index. The difference between absolute pressure and atmospheric pressure is called gauge pressure, and the difference between absolute pressure and atmospheric pressure is called vacuum.

         Humidity is divided into absolute humidity and relative humidity. Humidity is the physical quantity of dry atmosphere. At a certain temperature, the less water vapor in a certain volume of air, the drier the air; the more water vapor, the more humid the air. The degree of air humidity is called humidity. In this sense, it is usually expressed by physical quantities such as absolute humidity, relative humidity, relative humidity, mixing ratio, saturation difference, dew point, etc. If it represents the percentage of the weight of water vapor in the wet steam to the total weight (volume) of the steam, it is called Steam humidity. The comfortable humidity of the human body is: the relative humidity is lower than 70%.

       "Absolute humidity" is the mass of water vapor per unit of air, and is a physical representation of the degree of atmospheric dryness and humidity. It is usually expressed in grams of all water vapor in 1 cubic meter. Since the pressure of water vapor increases with the increase in density, the absolute humidity of the air can usually be expressed by pressure. "Relative humidity" is the percentage of the actual water vapor density in the air to the saturated water vapor density at the same temperature. The degree of air humidity is related to the amount of water vapor in the air that is close to saturation, but not directly related to the absolute amount of water vapor in the air.

          The difference between absolute humidity and relative humidity:

          1. Absolute humidity refers to the amount of steam contained in a unit volume of air, in grams.

          2. Relative humidity refers to the ratio of actual water vapor content to saturated water vapor content in the air at a certain temperature, expressed as a percentage.

          3. The absolute humidity does not change with temperature and climate change, but the relative humidity changes qualitatively with the increase and decrease of temperature. Generally speaking, the relative humidity will decrease as the temperature increases.

          4. The air with an absolute humidity of 1 cubic meter can absorb a large amount of water vapor, which is suitable for high humidity or saturation point. Suitable for high humidity depends largely on temperature.

          5. Absolute humidity refers to the density of water vapor in the air, expressed by the weight (g) of water vapor in 1m3 of air. The water vapor content is high, and the absolute humidity of the air is high. When the water content in the air is subject to certain restrictions and suitable for large-capacity use, it is called saturated steam content.