Abstract
<p>The chilling output of the chiller fluctuated according to the chilling load. When it dropped down below a certain value, the temperature of the supply chilled water flowing out of the chiller would drop down too much. And this would result the chiller being shut down abnormally, because of its low temperature protection. Any this shutdown of the chiller endangered the production continuity and security, and caused a certain economic losses. A bypass, which was from the outlet of the chiller’s condenser to the chilled water filter inlet, was added to the chilling system. Through this bypass, some cooling water was introduced from the cooling water circulation into the chilled water circulation. Then the temperature of the supply chilled water flowing out of the chiller was promoted. With experiments, and by the aid of thermodynamics analysis, the amount of introduced cooling water, which could be introduced to promote the supply chilled water temperature for maintaining the chiller running normally, was researched. Ultimately, a certain amount of introduced cooling water, at which the chiller would no longer stop abnormally at any chilling load, was determined. And the energy lose caused by the introduced cooling water was less than 5 percent the rated output of the chiller. Compared with the chiller rated output, this energy lose was so small that it could be neglected.</p>
Highlights
Chilling system was generally applied to many chemical plants for cooling their production processes, and their productions were often fluctuating
The energy lose caused by the introduced cooling water was less than 5 percent the rated output of the chiller
Some cooling water could be introduced to the chilled water circulation, to promote the supply chilled water temperature for maintaining the chiller running normally, even if the chilling load drop down below its available adjusting range
Summary
Chilling system was generally applied to many chemical plants for cooling their production processes, and their productions were often fluctuating. The chilling load (i.e., the required chilling load for production processes) varied much according to its production fluctuation This caused the chilling output of the chiller varied much too. In order to solve this problem, a bypass was added to the chilling system This bypass was from the outlet of the chiller’s condenser to the chilled water filter inlet. Through this bypass, some cooling water could be introduced to the chilled water circulation, to promote the supply chilled water temperature for maintaining the chiller running normally, even if the chilling load drop down below its available adjusting range
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
