Predicting and Optimizing for Energy Efficient ACMV Systems: Computational Intelligence Approaches
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In this study, a novel application of neural networks that predict thermal comfort states of occupants is proposed with accuracy over 95 optimization algorithms are proposed and evaluated under two real cases (general offices and lecture theatres/conference rooms scenarios) in Singapore. The two optimization algorithms are Bayesian Gaussian process optimization (BGPO) and augmented firefly algorithm (AFA). Based on our earlier studies, the models of energy consumption were developed and well-trained through neural networks. This study focuses on using novel active approaches to evaluate thermal comfort of occupants and so as to solves a multiple-objective problem that aims to balance energy-efficiency of centralized air-conditioning systems and thermal comfort of occupants. The study results show that both BGPO and AFA are feasible to resolve this no prior knowledge-based optimization problem effectively. However, the optimal solutions of AFA are more consistent than those of BGPO at given sample sizes. The best energy saving rates (ESR) of BGPO and AFA are around -21 preference for both Case 1 and Case 2. As a result, an potential benefit of S1219.1 can be achieved annually for this experimental laboratory level in Singapore.
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