Title :
Global optimization of large scale HVAC system
Author :
Yan Xiuying ; Ren Qingchang ; Meng Qinglong
Author_Institution :
Xi´an Univ. of Archit. & Technol., Xi´an, China
Abstract :
A large-scale Variable Air Volume (VAV) air-conditioning system composed of several subsystems is established. It´s a multi-variable, strongly coupled, time variant, nonlinear and large time delay system. The system is wholly analyzed with large-scale system theory(LSST) in this paper. Iterative learning control (ILC) is adopted to solve the problems of long steady-state time and large overshoot when set-points change. The system is divided based on “decomposition and coordination” strategy. Decentralized steady-state and energy consumption models are built for global optimal control. For the evaluation of the large scale hierarchical control system theory, ILC and steady-state optimization strategy (LSHC-ILC-SO), a case is studied on the VAV experimental platform. The results show that all devices work under coordinated conditions with coordination strategy under variable loads. The global steady state optimization can reduce the total energy consumption.
Keywords :
HVAC; adaptive control; decentralised control; delays; hierarchical systems; iterative methods; large-scale systems; learning systems; optimal control; optimisation; air conditioning system; decentralized steady state model; energy consumption model; global optimization; hierarchical control system; iterative learning control; large scale HVAC system; optimal control; time delay system; variable air volume; Artificial intelligence; Energy consumption; Optimal control; Optimization; Steady-state; Trajectory; Global optimization; Large scale system; Steady state;
Conference_Titel :
Control Conference (CCC), 2010 29th Chinese
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-6263-6
