基于實驗分析串聯熱電片數量對熱電系統影響
姚歡,吳馥郁���,汪遠泉
(南京工程學院 電力工程學院��,江蘇 南京 211167)
摘 要:為了研究串聯熱電片數量對熱電發(fā)電系統輸出性能的影響,建立了一套熱電發(fā)電實驗系統�。在設定的9 種工況下,分別串聯4片熱電片和8片熱電片進行實驗��,測量記錄系統在開路和接負載情況下的實驗數據���。分析可知��,不接負載時�,串聯熱電片數量越多��,開路電壓就越大��。接負載時��,同一工況下���,串聯熱電片數量越多���,熱電系統的輸出功率、電流���、電壓就越大���,串聯的熱電片數量增加一倍,輸出功率增加不止一倍��,大大提高了系統的輸出功率���;串聯熱電片數量越多���,熱電系統的內阻越大。
關鍵詞:熱電發(fā)電��;串聯�;熱電片數量;輸出性能
中圖分類號:TM913 文獻標識碼:A 文章編號:1007-3175(2020)07-0034-05
Effect of the Number of Series Thermoelectric Tablets on the Thermoelectric System Based on Experimental Analysis
YAO Huan ,WU Fu-yu, WANG Yuan-quan
(College of Electric Power Engineering, Nanjing Institute of Technology, Nanjing 211167, China)
Abstract: In order to study the influence of the number of series thermoelectric tablets on the output performance of the thermoelectric power generation system, an experimental system of thermoelectric power generation was established.Under the set nine working conditions, four thermoelectric tablets and eight thermoelectric tablets are connected in series to conduct experiments, and the experimental data of the system under open circuit and load are measured and recorded.Analysis shows that when there is no load, the greater the number of series thermoelectric tablets, the greater the open circuit voltage.When connected to a load, the greater the number of series thermoelectric tablets in the same working condition, the greater the output power, current and voltage of the thermoelectric system.While the number of thermoelectric tablets in series is doubled, and the output power is more than doubled, which greatly increases the output power of the system; the greater the number of thermoelectric tablets in series, the greater the internal resistance of the thermoelectric system.
Key words: thermoelectric; series; thermoelectric chip number; output performance
參考文獻
[1] 王軍��, 張超震�, 董彥, 等. 溫差發(fā)電模型的熱電性能數值計算和分析[J]. 太陽能學報,2019��,40(1):50-56.
[2] 于冉冉�,劉聯勝,葛明慧�,等. 太陽能溫差發(fā)電系統的性能[J]. 浙江大學學報(工學版),2018��,52(4):769-774.
[3] 許昊煜�,茍小龍,平會峰�,等. 一種基于引射式預混燃燒器的新型高溫溫差發(fā)電系統[J]. 太陽能學報,2017���,38(5):1240-1246.
[4] 卿紹偉���,胡周,茍小龍���,等. 一種新型高中溫耦合溫差發(fā)電系統[J]. 太陽能學報�,2018���,39(11):42-48.
[5] 許強強, 季明, 季旭�, 等. 菲涅耳聚光下半導體溫差發(fā)電組件性能研究[J]. 物理學報,2016�,65(23):259-267.
[6] 張智娟,冀曉明���,侯立群�,等. 不同連接方式熱電能量采集器的發(fā)電性能[J]. 科學技術與工程�,2019,19(6):150-154.
[7] 王春燕��,厲彥忠�,鄭江. 多級溫差發(fā)電器串并聯分析模型[J]. 制冷學報,2016���,37(1):106-113.
[8] 王長宏�,林濤���,曾志環(huán). 半導體溫差發(fā)電過程的模型分析與數值仿真[J]. 物理學報���,2014,63(19):311-316.
