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Indicator-based multi-objective chemical reaction optimization for combined heat and power optimum power flow with thermodynamic model

机译：基于指示器的多目标化学反应优化，用于综合热力和热力学模型

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Chemical reaction optimization is a recently developed heuristic optimization technique. This research aims to utilize Indicator-Based Chemical Reaction Optimization (IBCRO) to solve multi-objective combined heat & power (CHP) optimization, which considers cost, steam production and power system loss. CHP system will be modeled using thermodynamic equations of gas turbine and Heat Recovery Steam Generators (HRSG). The performance will be compared with other algorithms: goal attainment, NSGA II, MOPSO and PESA. The result shows that IB-CRO can compete with other popular algorithms, proven by high average satisfactory degree values and coverage metrics.

机译：化学反应优化是最近开发的启发式优化技术。本研究旨在利用基于指标的化学反应优化（IBCro）来解决多目标组合热量和功率（CHP）优化，其考虑成本，蒸汽生产和电力系统损失。 CHP系统将使用燃气轮机和热回收蒸汽发生器（HRSG）的热力学方程进行建模。将与其他算法进行比较：目标达到，NSGA II，MOPSO和PESA。结果表明，IB-CRO可以与其他流行算法竞争，经过高平均令人满意的度值和覆盖度量。

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《International Conference on Information Technology and Electrical Engineering 》|2017年|430p|共6页
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Priambudi Pujihatma; Sasongko P. Hadi; Sarjiya; Tri Agung Rohmat;
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中图分类 G20-53;
关键词
Turbines; Optimization; Cogeneration; Mathematical model; Resistance heating; Heat engines; Electrical engineering;

机译：涡轮机;优化;热电联产;数学模型;电阻加热;热动发动机;电气工程;

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Indicator-based multi-objective chemical reaction optimization for combined heat and power optimum power flow with thermodynamic model

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