基于人工蜂群算法的温差发电阵列最优重构方法
Optimal Reconfiguration Method for Thermoelectric Power Array Based on Artificial Bee Colony Algorithm
杨博 1胡袁炜骥 1郭正勋 1束洪春 1曹璞璘 1李子林2
作者信息
- 1. 昆明理工大学电力工程学院,昆明 650031
- 2. 香港理工大学电机工程系,香港 999077
- 折叠
摘要
在新能源发电技术快速发展的背景下,温差发电(TEG)技术能够很好地利用新能源发电中产生的废热.然而,温度分布的变化会使得TEG阵列的输出特性恶化、发电效率降低.提出基于人工蜂群(ABC)算法的TEG阵列重构方法,在3种不同温度分布情况下,利用ABC在对称9×9和不对称10×15两种TEG阵列进行动态重构.将所提算法与遗传算法、粒子群优化算法和秃鹰搜索优化算法3种启发式算法作对比,并给出由ABC重构后的TEG阵列温度分布图.结果表明:ABC能够提高TEG阵列的输出功率,输出功率-电压曲线均趋向呈现出单个峰值.此外,利用基于RTLAB平台上的硬件在环实验验证了硬件可行性.
Abstract
With the rapid development of new energy generation technology,the thermoelectric generation technology(TEG)can make good use of the waste heat generated in new energy generation.However,the change of temperature distribution will worsen the output characteristics and reduce the power generation efficiency of the TEG system.In this paper,a TEG array reconfiguration method based on the artificial bee colony(ABC)algorithm is proposed.In three different temperature distributions,ABC is used for dynamic reconfiguration of symmetric 9X9 and unsymmetric 10 X 15 TEG arrays.Three meta-heuristic algorithms,the genetic algorithm,the particle swarm optimization algorithm,and the bald eagle search are compared with the proposed method,and the temperature distribution of the TEG array reconfiguration by ABC is given.The results show that ABC can improve the output power of the TEG array,and the output power-voltage curves tend to show a single peak value.In addition,real-time hardware-in-the-loop(HIL)experiment based on the RTLAB platform is undertaken to verify the implementation feasibility.
关键词
温差发电/人工蜂群算法/动态重构/硬件在环实验Key words
thermoelectric generation/artificial bee colony algorithm(ABC)/dynamic reconfiguration/hardware-in-the-loop(HIL)引用本文复制引用
基金项目
国家自然科学基金项目(61963020)
国家自然科学基金项目(62263014)
出版年
2024
NETL
NSTL
维普
万方数据