Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption
Traditional static pressure reset control strategies commonly use a feedback indicator to reset the static pressure; this results in under-ventilation in certain zones and over-ventilation in others. Based on this issue, the objective of this study was to develop a model-based, improved, static pres...
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sg-ntu-dr.10356-1505472021-06-07T02:48:59Z Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption Jing, Gang Cai, Wenjian Zhang, Xin Cui, Can Yin, Xiaohong Xian, Huacai School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Ventilation Air Balancing Traditional static pressure reset control strategies commonly use a feedback indicator to reset the static pressure; this results in under-ventilation in certain zones and over-ventilation in others. Based on this issue, the objective of this study was to develop a model-based, improved, static pressure reset control strategy, providing a well-balanced system to eliminate under-ventilation and over-ventilation, while consuming minimal energy. In the study reported here, a comprehensive mathematical model was established to simulate the non-linear behavior of the ventilation system, and a supervised machine learning algorithm for a support vector machine was used to obtain values for unknown parameters in the model. The resulting model was then used as the basis for development of a damper position control method and to determine the damper position, given a desired airflow rate. An optimal, static pressure set-point selection method was also proposed using the developed model to calculate the minimum static pressure set-point in a closed-form. As a result, the revised system consumed less energy owing to the better-balanced system and optimized pressure set-point selection. Moreover, through the application of the damper position control method, the ventilation system was well-balanced and eliminated both under-ventilation and over-ventilation. Experimental tests were carried out to validate the performance of the proposed method in comparison with the conventional static pressure reset strategy, data from which were collected to train the proposed model. National Research Foundation (NRF) This work was partially funded by National Research Foundation of Singapore under the grant NRF2014EWT-EIRP003-014, NRF2013EWT-EIRP004-019, NRF2011 NRF-CRP001-090, the scholarship from China Scholarship Council (CSC) (No. 201704000002) and the Science and Technology Plan project of Shandong higher education institutions (No. J16LN26, No. J17KA210). 2021-06-07T02:48:59Z 2021-06-07T02:48:59Z 2019 Journal Article Jing, G., Cai, W., Zhang, X., Cui, C., Yin, X. & Xian, H. (2019). Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption. Applied Energy, 236, 574-589. https://dx.doi.org/10.1016/j.apenergy.2018.12.026 0306-2619 https://hdl.handle.net/10356/150547 10.1016/j.apenergy.2018.12.026 2-s2.0-85058026174 236 574 589 en NRF2014EWT-EIRP003-014 NRF2013EWT-EIRP004-019 NRF2011 NRF-CRP001-090 Applied Energy © 2018 Elsevier Ltd. All rights reserved. |
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Engineering::Electrical and electronic engineering Ventilation Air Balancing Jing, Gang Cai, Wenjian Zhang, Xin Cui, Can Yin, Xiaohong Xian, Huacai Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption |
| description |
Traditional static pressure reset control strategies commonly use a feedback indicator to reset the static pressure; this results in under-ventilation in certain zones and over-ventilation in others. Based on this issue, the objective of this study was to develop a model-based, improved, static pressure reset control strategy, providing a well-balanced system to eliminate under-ventilation and over-ventilation, while consuming minimal energy. In the study reported here, a comprehensive mathematical model was established to simulate the non-linear behavior of the ventilation system, and a supervised machine learning algorithm for a support vector machine was used to obtain values for unknown parameters in the model. The resulting model was then used as the basis for development of a damper position control method and to determine the damper position, given a desired airflow rate. An optimal, static pressure set-point selection method was also proposed using the developed model to calculate the minimum static pressure set-point in a closed-form. As a result, the revised system consumed less energy owing to the better-balanced system and optimized pressure set-point selection. Moreover, through the application of the damper position control method, the ventilation system was well-balanced and eliminated both under-ventilation and over-ventilation. Experimental tests were carried out to validate the performance of the proposed method in comparison with the conventional static pressure reset strategy, data from which were collected to train the proposed model. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Jing, Gang Cai, Wenjian Zhang, Xin Cui, Can Yin, Xiaohong Xian, Huacai |
| format |
Article |
| author |
Jing, Gang Cai, Wenjian Zhang, Xin Cui, Can Yin, Xiaohong Xian, Huacai |
| author_sort |
Jing, Gang |
| title |
Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption |
| title_short |
Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption |
| title_full |
Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption |
| title_fullStr |
Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption |
| title_full_unstemmed |
Modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption |
| title_sort |
modeling, air balancing and optimal pressure set-point selection for the ventilation system with minimized energy consumption |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150547 |
| _version_ |
1702431301430149120 |