连云港温盐井水温资料对比分析
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摘要
随着海洋自动观测系统的推广应用,温盐井也在海洋系统普及开来,对温盐井性能的研究,即所测得的水文数据的有效性进行研究有现实意义。对连云港海洋环境监测站温盐井内外表层海水温度的数据运用传统的统计对比分析,指出该温盐井测得的数据中有96.2%的水温数据符合海滨观测规范规定的三级标准是有效的。从而表明温盐井满足了测量表层海上温度的技术要求。
With the popularization and application of automated ocean observation system,thermohaline recorder wells are popular in marine system.Study on the performance of thermohaline recorder wells and validity of the measured hydrological data has practical significance.This article compares and analyses sea surface temperature data inside and outside a thermohaline recorder well in Lianyungang marine environment monitoring station,and points out that 96.2% of the temperature data collected by the thermohaline recorder wells meets Level III standard specified in the Coastal Observation Standard which is effective.It shows that thermohaline recorder wells meet the technical requirements for measuring surface sea water temperature.
With the popularization and application of automated ocean observation system,thermohaline recorder wells are popular in marine system.Study on the performance of thermohaline recorder wells and validity of the measured hydrological data has practical significance.This article compares and analyses sea surface temperature data inside and outside a thermohaline recorder well in Lianyungang marine environment monitoring station,and points out that 96.2% of the temperature data collected by the thermohaline recorder wells meets Level III standard specified in the Coastal Observation Standard which is effective.It shows that thermohaline recorder wells meet the technical requirements for measuring surface sea water temperature.
引文
[1] 侍茂崇.物理海洋学[M].济南:山东教育出版社,2004.
[2] 陈则实,王文海,吴桑云,等.中国海湾引论[M].北京:海洋出版社,2007.
[3] MAO X Y,JIANG W S,ZHAO P,et al.A3-D numerical study of salinity variations in the Bohai Sea during the recent years[J].Continental Shelf Research,2008,28(19):2689-2699.
[4] 乔方利.中国区域海洋学:物理海洋学[M].北京:海洋出版社,2012.
[5] 张阳,陈春涛,朱建华,李铜基.基于ARGO数据的日本以南黑潮水温垂直变化研究[J].海洋测绘,2011,31(6):52-55.
[6] 中村启美,马兰.西太平洋海域升温现象仍在持续[J].海洋测绘,1998,18(4):57-59.
[7] 石强.渤海冬季温盐年际变化时空模态与气候响应[J].海洋通报,2013,32(5):506-513.
[8] 金义亭,刘敬彪,章雪挺.高精度海水温度检测系统设计[J].电子器件,2011,34(5):542-545.
[9] 林建国,吴中鼎,陈军.SBE19 CTD的资料处理[J].海洋测绘,2001,21(1):54-56.
[10] 肖付民,王琪,暴景阳.温跃层对侧扫声纳测量声图的影响[J].海洋测绘,1997,17(2):11-15.
[11] 黄文群,惠力,鲁成杰.海洋站温盐传感器安装方式的研究[J].海洋技术学报,2014,33(2):99-103.
[12] GB/T 14914-2006,海滨观测规范[S].北京:中国标准出版社,2006.
[13] 张伟.小麦岛海洋站自动观测系统[J].海洋技术,1991,10(1):1- 6.
[14] 宋升锋,侯继灵,郑培宁,等.岚山海洋观测站验潮、温盐井的设计建设[J].海洋工程,2009,28(4):64- 68.
[15] 丁森,王珍珍,朱文武,等.海洋站温盐井设计建设研究—一个室外温盐井建设的成功案例[J].海洋信息,2012(3):22-24.
[2] 陈则实,王文海,吴桑云,等.中国海湾引论[M].北京:海洋出版社,2007.
[3] MAO X Y,JIANG W S,ZHAO P,et al.A3-D numerical study of salinity variations in the Bohai Sea during the recent years[J].Continental Shelf Research,2008,28(19):2689-2699.
[4] 乔方利.中国区域海洋学:物理海洋学[M].北京:海洋出版社,2012.
[5] 张阳,陈春涛,朱建华,李铜基.基于ARGO数据的日本以南黑潮水温垂直变化研究[J].海洋测绘,2011,31(6):52-55.
[6] 中村启美,马兰.西太平洋海域升温现象仍在持续[J].海洋测绘,1998,18(4):57-59.
[7] 石强.渤海冬季温盐年际变化时空模态与气候响应[J].海洋通报,2013,32(5):506-513.
[8] 金义亭,刘敬彪,章雪挺.高精度海水温度检测系统设计[J].电子器件,2011,34(5):542-545.
[9] 林建国,吴中鼎,陈军.SBE19 CTD的资料处理[J].海洋测绘,2001,21(1):54-56.
[10] 肖付民,王琪,暴景阳.温跃层对侧扫声纳测量声图的影响[J].海洋测绘,1997,17(2):11-15.
[11] 黄文群,惠力,鲁成杰.海洋站温盐传感器安装方式的研究[J].海洋技术学报,2014,33(2):99-103.
[12] GB/T 14914-2006,海滨观测规范[S].北京:中国标准出版社,2006.
[13] 张伟.小麦岛海洋站自动观测系统[J].海洋技术,1991,10(1):1- 6.
[14] 宋升锋,侯继灵,郑培宁,等.岚山海洋观测站验潮、温盐井的设计建设[J].海洋工程,2009,28(4):64- 68.
[15] 丁森,王珍珍,朱文武,等.海洋站温盐井设计建设研究—一个室外温盐井建设的成功案例[J].海洋信息,2012(3):22-24.