气象与环境科学
氣象與環境科學
기상여배경과학
METEOROLOGICAL AND ENVIRONMENTAL SCIENCES
2012年
1期
8-13
,共6页
电线积冰%线路舞动%气候特征%雨凇
電線積冰%線路舞動%氣候特徵%雨凇
전선적빙%선로무동%기후특정%우송
wire icing%transmission line galloping%climatic characteristic%glaze
利用河北省1980-2009年20个气象站的电线积冰观测资料,分析了河北省电线积冰的时空分布特征和不同方位电线积冰的特征。结果表明:河北省电线积冰平原多于山区;年际变化较大,呈减少的趋势;季节变化十分明显,1月份电线积冰日数最多;东西方向和南北方向的电线积冰在最大重量上有一定差别。利用常规观测资料、1°×1°间隔6h的NCEP资料和2010年1月1910日黄骅气象站逐时风向风速资料,对一次引起线路舞动的电线积冰天气过程进行了分析。结果表明:这次电线积冰是在地面冷空气与500hPa、700hPa低槽共同影响下由雨凇形成的。20日受冷空气影响,黄骅地面气温快速降至0℃附近,而850hPa温度由零上逐渐转为零下,在对流层低层有逆温层,气温的垂直结构有利于形成雨凇;发生舞动的线路走向与风向夹角较大;舞动发生在较大风速出现之后。
利用河北省1980-2009年20箇氣象站的電線積冰觀測資料,分析瞭河北省電線積冰的時空分佈特徵和不同方位電線積冰的特徵。結果錶明:河北省電線積冰平原多于山區;年際變化較大,呈減少的趨勢;季節變化十分明顯,1月份電線積冰日數最多;東西方嚮和南北方嚮的電線積冰在最大重量上有一定差彆。利用常規觀測資料、1°×1°間隔6h的NCEP資料和2010年1月1910日黃驊氣象站逐時風嚮風速資料,對一次引起線路舞動的電線積冰天氣過程進行瞭分析。結果錶明:這次電線積冰是在地麵冷空氣與500hPa、700hPa低槽共同影響下由雨凇形成的。20日受冷空氣影響,黃驊地麵氣溫快速降至0℃附近,而850hPa溫度由零上逐漸轉為零下,在對流層低層有逆溫層,氣溫的垂直結構有利于形成雨凇;髮生舞動的線路走嚮與風嚮夾角較大;舞動髮生在較大風速齣現之後。
이용하북성1980-2009년20개기상참적전선적빙관측자료,분석료하북성전선적빙적시공분포특정화불동방위전선적빙적특정。결과표명:하북성전선적빙평원다우산구;년제변화교대,정감소적추세;계절변화십분명현,1월빈전선적빙일수최다;동서방향화남북방향적전선적빙재최대중량상유일정차별。이용상규관측자료、1°×1°간격6h적NCEP자료화2010년1월1910일황화기상참축시풍향풍속자료,대일차인기선로무동적전선적빙천기과정진행료분석。결과표명:저차전선적빙시재지면랭공기여500hPa、700hPa저조공동영향하유우송형성적。20일수랭공기영향,황화지면기온쾌속강지0℃부근,이850hPa온도유령상축점전위령하,재대류층저층유역온층,기온적수직결구유리우형성우송;발생무동적선로주향여풍향협각교대;무동발생재교대풍속출현지후。
Using wire icing observation data of 20 stations in Hebei province from 1980 to 2009, the spatial and temporal distribution characteristic of wire icing are analyzed. The result shows that wire icing days on plain are more than in mountain, that wire icing days have obvious annual variation and present a descending trend. The wire icing days is obviously different in different seasons and wire icing days are the most in January. Maximum weight of wire icing is different in directions. Using conventional observa-tion data, 1°×1°NCEP data 6 h intervals, and hourly wind of Huanghua from 19 January 2010 to 20 January 2010, a synoptic process causing transmission line galloping is analyzed. The result shows that the wire icing process is caused by glaze on the background of ground cold air and low trough at 500 hPa and 700 hPa. Huanghua surface air temperature quickly dropped to near 0℃ on 20 January 2010 forcold air effect; and the temperature dropped gradually from zero to below zero at 850 hPa; the inversion layer occurs in the lower level of troposphere ; the vertical temperature structure is conducive to the formation of glaze. The intersection angle on galloping wire trend and wind direction is larger ; the galloping occurs after the higher wind speed appears.
