浅层岩土室内、外热物性测试的相关性

对于浅层岩土热物性参数测试中常用的实验室和现场热响应试验方法,结合上海某工程的实际情况,提出一种基于室内试验的岩土综合热物性参数确定方法。首先,根据室内、外试验测试结果的差异,选取地层厚度、含水率、密度及渗透系数作为影响二者热物性参数测试差异的主要因素,使用层次分析法确定各影响因素的权值,并按权值大小修正室内热物性参数测试结果。然后,分别模拟室外现场热响应试验和修正后的室内热物性参数以及实际地层的传热过程,得出三者在热量传导能力之间的差距分别为1.2%、1.1%及2.3%。最后,提出埋管深度和导热系数的乘积可代表岩土层的换热能力,且计算出修正后的室内热物性参数对应的均一导热系数与现场热响应试验测出的综合导热系数分别为1.832 W/(m·℃)和1.778 W/(m·℃)。     

北欧海深层水的研究进展简

As a connection region between North Atlantic and Arctic Oceans, the Nordic Sea plays a critical role in global climate system. In the Nordic Seas, surface water converts into intermediate water and deep water after cooling and other effects. These waters transport southward, and enter into North Atlantic as a form of overflow, therefore, they are the main source of the North Atlantic Deep Water(NADW), which play a key role in global ocean conveyor. The causes and processes of the deep water formation in the Nordic Seas are still uncertain. Based on a review of current and historical research results of the deep water in the Nordic Seas, the most important process for deep water formation convection is addressed. Factors and physical processes that may have impact on deep water formation are summarized. The transport of deep water in the Nordic Seas is summed up. Multi year variation of the deep water is described with the aim of giving some instructions and research directions to the readers.     

全球气候变化研究与科学数据简

By illustrating the relationship between the climate system and the scientific data, a requirement of scientific data for the earth system research has been proposed to be paid more attention to climate change studies. The research progresses of global climate change in China for the recent 10 years have been reviewed and the important role of observation datasets and assimilated production in the global climate change has been pointed out. Furthermore, the meteorological data sharing situation