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Optimal Exergy-wise Predictive Control for a Combined MicroCSP and HVAC System in a Building

机译：建筑物中MicroCSP和HVAC组合系统的最优按火能预测控制

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This paper presents a new control method to minimize the energy consumption of a micro-scale concentrated solar power (MicroCSP) system and building heating, ventilation, and air conditioning (HVAC) system. A new realtime optimal control method is proposed using the concept of “exergy” and model predictive control (MPC) techniques. To achieve this, first law of thermodynamics (FLT) and second law of thermodynamics (SLT) based mathematical models of MicroCSP are developed and integrated into a model of an office building located at Michigan Technological University. Then, an exergy-wise MPC framework is designed to optimize MicroCSP operation in accordance with the building HVAC needs. The new controller reduces exergy destruction by 28%, compared to a common rule-based controller (RBC). This leads to 23% energy saving, compared to the applied RBC.

机译：本文提出了一种新的控制方法，以最大程度地减少微型集中式太阳能（MicroCSP）系统和建筑物采暖，通风和空调（HVAC）系统的能耗。提出了一种新的实时最优控制方法，采用了“火用”的概念和模型预测控制（MPC）技术。为此，开发了基于MicroCSP的热力学第一定律（FLT）和热力学第二定律（SLT）的数学模型，并将其集成到位于密歇根理工大学的办公楼模型中。然后，根据建筑的HVAC需求，设计了一种能动型MPC框架，以优化MicroCSP的运行。与普通的基于规则的控制器（RBC）相比，新控制器将“火用”破坏降低了28％。与应用的RBC相比，这可节省23％的能源。

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《Annual American Control Conference》|2019年|235-240|共6页
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Chethan R. Reddy; Meysam Razmara; Mahdi Shahbakhti; Rush D. Robinett;
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building management systems; exergy; HVAC; optimal control; optimisation; predictive control; solar power;

机译：建筑管理系统;火用;暖通空调;最优控制;优化;预测控制;太阳能;

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专利

1. Exergy-wise predictive control framework for optimal performance of MicroCSP systems for HVAC applications in buildings [J] . Reddy C. R., Shahbakhti M., Robinett R. D., Energy Conversion & Management . 2020,第Apra期

机译：高度明智的预测控制框架，用于大楼HVAC应用的Microcsp Systems的最佳性能
2. Model-based predictive control for optimal MicroCSP operation integrated with building HVAC systems [J] . Toub Mohamed, Reddy Chethan R., Razmara Meysam, Energy Conversion & Management . 2019,第Nova期

机译：基于模型的预测控制，可与建筑物HVAC系统集成，实现最佳MicroCSP操作
3. Impacts of uncertain information delays on distributed real-time optimal controls for building HVAC systems deployed on IoT-enabled field control networks [J] . Su Bing, Wang Shengwei, Li Wenzhuo Applied Energy . 2021,第Octa15期

机译：不确定信息延迟对部署IOT现场控制网络的HVAC系统的分布式实时最佳控制的影响
4. Optimal Exergy-wise Predictive Control for a Combined MicroCSP and HVAC System in a Building [C] . Chethan R. Reddy, Meysam Razmara, Mahdi Shahbakhti, Annual American Control Conference . 2019

机译：建筑物中混合密度计和HVAC系统的最佳漏洞预测控制
5. Investigation of distributed model predictive control for economic load shifting in building HVAC systems [D] . Kinsella, Peter A. 2015

机译：建筑空调系统经济负荷转移的分布式模型预测控制研究
6. IoT Based Architecture for Model Predictive Control of HVAC Systems in Smart Buildings [O] . Raffaele Carli, Graziana Cavone, Sarah Ben Othman, 2020

机译：基于物联网的智能建筑HVAC系统模型预测控制架构
7. Combining Simulation and Optimisation for Dimensioning Optimal Building Envelopes and HVAC Systems [O] . Hamdy Mohamed 2012

机译：结合仿真和优化，确定最佳建筑围护结构和HVAC系统的尺寸
8. Rapid Deployment of Optimal Control for Building HVAC Systems Using Innovative Software Tools and a Hybrid Heuristic/Model Based Control Approach. [R] . Daly, A. 2017

机译：利用创新的软件工具和基于混合启发式/模型的控制方法快速部署HVaC系统的最优控制。

Optimal Exergy-wise Predictive Control for a Combined MicroCSP and HVAC System in a Building

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