AIRBORNE ELECTROMAGNETIC SEA ICE THICKNESS SOUNDING IN SHALLOW, BRACKISH WATER ENVIRONMENTS OF THE CASPIAN AND BALTIC SEAS

机译：浅水和咸淡水环境在卡皮和波罗的海地区的航空电磁海冰厚度

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Ice engineering projects often rely on the knowledge of ice thickness in shallow, brackish water like in the Baltic and Caspian Seas. By means of field data and model results, the paper shows that helicopter-borne electromagnetic induction measurements using frequencies of 3.68 and 112 kHz can yield accurate thickness estimates with salinities as low as 3 ppt. The higher frequency yields the strongest EM signals. In addition, in shallow water the higher frequency is less sensitive to the sea floor signal, and can thus be used in water depths as shallow as 4 to 6 m, depending on flying altitude. Because the low frequency signal is very sensitive on shallow water depth, a combination of both signals will allow the retrieval of both ice thickness and water depth.

机译：像波罗的海和里海那样，冰工程项目通常依赖于浅咸水中的冰厚知识。通过现场数据和模型结果，本文表明，使用频率为3.68和112 kHz的直升机进行的电磁感应测量可以得出准确的厚度估算值，盐度低至3 ppt。较高的频率产生最强的EM信号。另外，在浅水中，较高的频率对海底信号不太敏感，因此可以根据飞行高度在浅至4至6 m的水深中使用。由于低频信号对浅水深度非常敏感，因此将这两种信号结合使用将可同时获取冰厚和水深。

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《25th International Conference on Offshore Mechanics and Arctic Engineering 2006(OMAE2006) vol.2: Ocean Engineering; Polar and Arctic Sciences and Technology》|2006年|717-722|共6页
会议地点 Hamburg(DE)
作者
Christian Haas;
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作者单位

Alfred Wegener Institute for Polar Research, Bremerhaven, Germany;

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原文格式 PDF
正文语种 eng
中图分类海洋工程;
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AIRBORNE ELECTROMAGNETIC SEA ICE THICKNESS SOUNDING IN SHALLOW, BRACKISH WATER ENVIRONMENTS OF THE CASPIAN AND BALTIC SEAS

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