Cryogenic Refrigeration System Circulation Pump Selection Guide
- Categories:Industry Dynamic
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- Time of issue:2022-04-25 14:04
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(Summary description) When choosing a circulating pump for a low-temperature refrigeration system, you need to pay attention to the following three points: ①The temperature difference of the circulating pump of the low temperature refrigeration system is 5 degrees (20 degrees down to 15 degrees). The standard flow rate of the low temperature refrigeration system circulating pump is 0.5 cubic meters per hour, then you are using the pump. When using a low temperature refrigeration system circulating pump, you can't just look at the flow low temperature refrigeration system circulating pump, what temperature do you need? If your trial temperature is lowered from 58°C to 7°C, if the temperature difference is large, the hourly chilled water flow will be reduced from 3.5 cubic meters to over 1 cubic meter. If a low temperature refrigeration system circulation pump with a flow rate of 3.5 cubic meters per hour is required, a larger model should be selected. Cryogenic Refrigeration System Circulation Pump Selection Guide ②When trying to use a low temperature refrigeration system circulating pump, it depends on whether you are cooling directly or indirectly. Direct cooling is to put the water directly into the low temperature refrigeration system circulating pump, the chilled water will be directly cooled in the product you need. The effect of direct cooling is significantly better. Indirect cooling is equivalent to putting water in a basin, placing a small basin on top of the basin, and placing the product to be cooled in that basin. In contrast, indirect cooling is less effective. Therefore, this aspect must be considered when choosing a model. ③Some users have the following disadvantages: ⅰ Poor water quality can easily block the water channel of the machine and cause greater losses. ⅱWaste water resources and increase user cost. ⅲWhen the weather is too hot, the water temperature cannot meet the requirements, affecting the product quality and efficiency.
Cryogenic Refrigeration System Circulation Pump Selection Guide
(Summary description)
When choosing a circulating pump for a low-temperature refrigeration system, you need to pay attention to the following three points:
①The temperature difference of the circulating pump of the low temperature refrigeration system is 5 degrees (20 degrees down to 15 degrees). The standard flow rate of the low temperature refrigeration system circulating pump is 0.5 cubic meters per hour, then you are using the pump. When using a low temperature refrigeration system circulating pump, you can't just look at the flow low temperature refrigeration system circulating pump, what temperature do you need? If your trial temperature is lowered from 58°C to 7°C, if the temperature difference is large, the hourly chilled water flow will be reduced from 3.5 cubic meters to over 1 cubic meter. If a low temperature refrigeration system circulation pump with a flow rate of 3.5 cubic meters per hour is required, a larger model should be selected.
Cryogenic Refrigeration System Circulation Pump Selection Guide
②When trying to use a low temperature refrigeration system circulating pump, it depends on whether you are cooling directly or indirectly. Direct cooling is to put the water directly into the low temperature refrigeration system circulating pump, the chilled water will be directly cooled in the product you need. The effect of direct cooling is significantly better. Indirect cooling is equivalent to putting water in a basin, placing a small basin on top of the basin, and placing the product to be cooled in that basin. In contrast, indirect cooling is less effective. Therefore, this aspect must be considered when choosing a model.
③Some users have the following disadvantages:
ⅰ Poor water quality can easily block the water channel of the machine and cause greater losses.
ⅱWaste water resources and increase user cost.
ⅲWhen the weather is too hot, the water temperature cannot meet the requirements, affecting the product quality and efficiency.
- Categories:Industry Dynamic
- Author:
- Origin:
- Time of issue:2022-04-25 14:04
- Views:
When choosing a circulating pump for a low-temperature refrigeration system, you need to pay attention to the following three points:
①The temperature difference of the circulating pump of the low temperature refrigeration system is 5 degrees (20 degrees down to 15 degrees). The standard flow rate of the low temperature refrigeration system circulating pump is 0.5 cubic meters per hour, then you are using the pump. When using a low temperature refrigeration system circulating pump, you can't just look at the flow low temperature refrigeration system circulating pump, what temperature do you need? If your trial temperature is lowered from 58°C to 7°C, if the temperature difference is large, the hourly chilled water flow will be reduced from 3.5 cubic meters to over 1 cubic meter. If a low temperature refrigeration system circulation pump with a flow rate of 3.5 cubic meters per hour is required, a larger model should be selected.
Cryogenic Refrigeration System Circulation Pump Selection Guide
②When trying to use a low temperature refrigeration system circulating pump, it depends on whether you are cooling directly or indirectly. Direct cooling is to put the water directly into the low temperature refrigeration system circulating pump, the chilled water will be directly cooled in the product you need. The effect of direct cooling is significantly better. Indirect cooling is equivalent to putting water in a basin, placing a small basin on top of the basin, and placing the product to be cooled in that basin. In contrast, indirect cooling is less effective. Therefore, this aspect must be considered when choosing a model.
③Some users have the following disadvantages:
ⅰ Poor water quality can easily block the water channel of the machine and cause greater losses.
ⅱWaste water resources and increase user cost.
ⅲWhen the weather is too hot, the water temperature cannot meet the requirements, affecting the product quality and efficiency.
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