4.6 Article

Multi-sensor information fusion based control for VAV systems using thermal comfort constraints

Journal

BUILDING SIMULATION
Volume 14, Issue 4, Pages 1047-1062

Publisher

TSINGHUA UNIV PRESS
DOI: 10.1007/s12273-020-0736-9

Keywords

coupled simulation; thermal comfort; multi-sensor information fusion; VAV control

Funding

  1. National Natural Science Foundation of China [51876119]
  2. Shanghai Pujiang Program [17PJD017]

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A novel VAV control method is proposed in this study, aiming to improve indoor thermal comfort by fusing information from multiple sensors, allowing real-time adjustment of the supply air temperature setpoint of VAV terminal units to achieve more uniform temperature distribution.
The conventional control methods of variable air volume (VAV) air conditioning systems usually assume that the indoor air is well mixed, and consider each building zone as one node with homogeneous temperature distribution. The average temperature is subsequently used as the controlled parameter in the VAV cascade control process, which might cause uneven temperature distribution and unsatisfactory thermal comfort. This paper presents a coupled simulation of computational fluid dynamics (CFD) and building energy simulation (BES) for the VAV system in an office building located in Shanghai for the purpose of simulating the building, the VAV control system, and indoor thermal environment simultaneously. An external interface is developed to integrate the CFD and BES models based on quasi-dynamic coupling approach. Based upon the developed co-simulation platform, the novel VAV control method is further proposed by fusing information from multiple sensors. By adding two temperature sensors to constrain the thermal comfort of the occupied zone, the supply air temperature setpoint of the VAV terminal unit can be reset in real time. The novel control method is embedded into the co-simulation platform and compared with the conventional VAV control approach. The results illustrate that the temperature distribution under the proposed method is more uniform. At most times of the typical test day, the air diffusion performance indexes (ADPIs) for the proposed method are above 80%, while the ADPIs for the conventional control method are between 60% and 80%. Due to multi-sensor information fusion, the proposed VAV control approach has better ability to ensure the indoor thermal comfort.

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