Feedforward decoupling control of indoor temperature and humidity using a single direct expansion air conditioning unit

Achieving simultaneous control over temperature and humidity through a single direct expansion air conditioner would be advantageous, especially considering its widespread use in residential buildings. Traditional control strategies fail to achieve satisfactory control performance due to the nature...

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Bibliographic Details
Published inHVAC&R research Vol. 30; no. 6; pp. 626 - 643
Main Authors Xia, Yudong, Chang, Kai, Lin, Youbin, Zhu, Chunyu
Format Journal Article
LanguageEnglish
Published Philadelphia Taylor & Francis 02.07.2024
Taylor & Francis Ltd
Subjects
Air conditioners
Air conditioning
Air temperature
Compensators
Control systems design
Controllers
Correlation coefficients
Decoupling
Dynamic models
Feedforward control
Humidity
Latent heat
Residential buildings
Transfer functions
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Summary:Achieving simultaneous control over temperature and humidity through a single direct expansion air conditioner would be advantageous, especially considering its widespread use in residential buildings. Traditional control strategies fail to achieve satisfactory control performance due to the nature of complexity and cross-decoupling of the system. Therefore, this research paper presents the advancement of a feedforward decoupling control scheme designed for a direct expansion air conditioning unit to effectively control both temperature and humidity. To facilitate the controller design, a dynamic model considering both sensible and latent heat transfers was developed and verified. The thermal responses of the coupled system were analyzed and their correlation coefficients also examined. Through identifying the transfer function model of the coupled system, a feedforward decoupling controller with two compensators was designed. The proposed decoupling control scheme was tested using the developed model as the plant to be controlled. Test results showed that, in comparison to the transitional PID based dual single-input and single-output controller, the proposed decoupling control scheme was capable of eliminating the interactions between indoor air temperature and humidity under variable speed operation, and realizing the simultaneous control over indoor air temperature and humidity with a desirable control performance.
ISSN:2374-4731
2374-474X
DOI:10.1080/23744731.2024.2327975