高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
3期
566-572
,共7页
郑雁翎%许志亮%张冠军%张延辉%杨凤民%宋伟
鄭雁翎%許誌亮%張冠軍%張延輝%楊鳳民%宋偉
정안령%허지량%장관군%장연휘%양봉민%송위
有限元法(FEM)%电力电缆%排管敷设%载流量%温度场%数值计算
有限元法(FEM)%電力電纜%排管敷設%載流量%溫度場%數值計算
유한원법(FEM)%전력전람%배관부설%재류량%온도장%수치계산
finite element method(FEM)%power cable%pipe laying%ampacity%temperature field%numerical calculation
随着电力电缆在输配电线路中的广泛应用,准确确定电力电缆及其周围环境温度场的分布和电缆的载流量对于提高电力电缆的使用率、动态调整负荷具有重要的意义。为此,以地下排管敷设的交联聚乙烯电力电缆为研究对象,其实际模型为1个容量为250MVA、额定电压为230kV的变电站的高压进线。根据传热学和有限元法(finite element method,FEM)基本原理,建立了1种基于有限元法的水泥排管敷设电缆温度场计算模型,并对电缆及其周围环境的求解区域进行复合有限三角形单元剖分,即对电缆区域进行较密集的网格划分,而对电缆周围的土壤区域则进行较为稀疏的网格划分,以提高程序的运算精度和运行速度。结果表明:用MATLAB软件仿真,从而得到电缆及其周围环境的温度场分布,迭代计算了排管敷设交联聚乙烯电缆的载流量。证明使用有限元的方法分析地下电缆温度场,为电力工程中电缆载流量确定提供了一个比较可靠的计算方法。
隨著電力電纜在輸配電線路中的廣汎應用,準確確定電力電纜及其週圍環境溫度場的分佈和電纜的載流量對于提高電力電纜的使用率、動態調整負荷具有重要的意義。為此,以地下排管敷設的交聯聚乙烯電力電纜為研究對象,其實際模型為1箇容量為250MVA、額定電壓為230kV的變電站的高壓進線。根據傳熱學和有限元法(finite element method,FEM)基本原理,建立瞭1種基于有限元法的水泥排管敷設電纜溫度場計算模型,併對電纜及其週圍環境的求解區域進行複閤有限三角形單元剖分,即對電纜區域進行較密集的網格劃分,而對電纜週圍的土壤區域則進行較為稀疏的網格劃分,以提高程序的運算精度和運行速度。結果錶明:用MATLAB軟件倣真,從而得到電纜及其週圍環境的溫度場分佈,迭代計算瞭排管敷設交聯聚乙烯電纜的載流量。證明使用有限元的方法分析地下電纜溫度場,為電力工程中電纜載流量確定提供瞭一箇比較可靠的計算方法。
수착전력전람재수배전선로중적엄범응용,준학학정전력전람급기주위배경온도장적분포화전람적재류량대우제고전력전람적사용솔、동태조정부하구유중요적의의。위차,이지하배관부설적교련취을희전력전람위연구대상,기실제모형위1개용량위250MVA、액정전압위230kV적변전참적고압진선。근거전열학화유한원법(finite element method,FEM)기본원리,건립료1충기우유한원법적수니배관부설전람온도장계산모형,병대전람급기주위배경적구해구역진행복합유한삼각형단원부분,즉대전람구역진행교밀집적망격화분,이대전람주위적토양구역칙진행교위희소적망격화분,이제고정서적운산정도화운행속도。결과표명:용MATLAB연건방진,종이득도전람급기주위배경적온도장분포,질대계산료배관부설교련취을희전람적재류량。증명사용유한원적방법분석지하전람온도장,위전력공정중전람재류량학정제공료일개비교가고적계산방법。
As more and more power cables are being used in power circuits,identifying the thermal field distribution of power cables and cable ampacity is very important to improve the capacity utilization of power cables so that adequate adjustment of cable loading can be achieved.Consequently,we evaluated the ampacity of XLPE cables laid in duct with pipes,which was 230 kV high voltage power cable in 250 MVA transformer substation.Using the principle of heat transfer theory and finite element method(FEM),we developed a model for power cable thermal field,in which complex triangle finite element was divided as meshes in region,namely,dense meshes in cables and sparse ones in other areas were divided so as to improve the running speed of the program and operation precision.The thermal field of cables and surrounding cables was computed using FEM.The results show that through simulation with MATLAB,the temperature field distribution of the cable and its surroundings are obtained,the ampacity of single XLPE power cable systems are calculated by iteration method,proving that FEM can be used to analyze temperature field of underground cable system.
