A decentralized, model-free, global optimization method for energy saving in heating, ventilation and air conditioning systems

Wang, Shiqiang; Xing, Jianchun; Jiang, Ziyan; Dai, Yunchuang

doi:10.1177/0143624419862707

Cited by 10 publications

(3 citation statements)

References 24 publications

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“…In Equation (11), I Cη represents the thermal resistance of human clothing. The calculation of T Cη is shown in Equation (12).…”

Section: Regression Functionmentioning

confidence: 99%

“…This method involved heating, ventilation, and air conditioning systems, and different devices were mainly connected through physical relationships. To achieve overall optimization of heating, ventilation, and air conditioning systems, this study assessed the influence of distributed area fans on airflow velocity [12]. Researchers such as Ju FL developed a theoretical expression for the deviation of airflow rate in branch duct design for mechanical ventilation systems and identified the factors that affect the deviation.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Optimization Design of Indoor Environmental Ventilation in Buildings Based on Improved SVR-PSO Model

Han,

Zhang,

Yin

et al. 2024

Sustainability

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As the growth of society and the continuous upgrading of people’s living standards increase, people’s requirements for indoor environment are also increasing. To optimize the ventilation methods inside buildings, a numerical simulation method was used to construct numerical simulations of airflow organization and aerosol diffusion, and based on this model, better ventilation methods were determined. To optimize the determined better ventilation method, a multi-constraint optimization model was constructed using infection probability, thermal comfort, energy utilization coefficient, and velocity non-uniformity coefficient. The ventilation method was optimized through multi-objective constraints. To solve the optimization model, an optimized particle swarm algorithm was studied and designed. The results showed that under the “air rain” flow field, the maximum values of aerosol particles at the human body, bed surface, and outlet were 171, 769, and 19,973, respectively, while the minimum values were 4, 169, and 2197, respectively. The “air rain” flow field is a better ventilation method. The maximum and minimum values of the original non-uniformity coefficient were 0.44 and 0.08, respectively. After optimization by the particle swarm optimization algorithm, the maximum and minimum predicted non-uniformity coefficients were 0.457 and 0.08, respectively. The original value and predicted value are very close. The numerical model and algorithm constructed by the research institute are effective. The algorithm designed by the research institute can provide technical support for multi-objective optimization of indoor ventilation methods.

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“…In Equation (11), I Cη represents the thermal resistance of human clothing. The calculation of T Cη is shown in Equation (12).…”

Section: Regression Functionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Optimization Design of Indoor Environmental Ventilation in Buildings Based on Improved SVR-PSO Model

Han,

Zhang,

Yin

et al. 2024

Sustainability

View full text Add to dashboard Cite

show abstract

“…Few researchers addressed the practical implementation of distributed optimal control, the implementation and distribution of decomposed optimization tasks on physical devices. Wang et al [15] and Cai et al [16] presented a generic structure of an agent-based optimal control strategy for HVAC systems. Both chose to decompose the optimization problems from the system level to the components level.…”

mentioning

confidence: 99%

Impacts of uncertain information delays on distributed real-time optimal controls for building HVAC systems deployed on IoT-enabled field control networks

Wang

2021

Applied Energy

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Agent-Based Decentralized Energy Management with Distributed Intelligence for HVAC Control

Asad,

Jayasena,

Lan

et al. 2023

Environmental Science and Engineering

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A decentralized, model-free, global optimization method for energy saving in heating, ventilation and air conditioning systems

Cited by 10 publications

References 24 publications

Optimization Design of Indoor Environmental Ventilation in Buildings Based on Improved SVR-PSO Model

Optimization Design of Indoor Environmental Ventilation in Buildings Based on Improved SVR-PSO Model

Impacts of uncertain information delays on distributed real-time optimal controls for building HVAC systems deployed on IoT-enabled field control networks

Agent-Based Decentralized Energy Management with Distributed Intelligence for HVAC Control

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