加拿大西部浅层地热:气候变暖影响随时间深度变化

Pub Date : 2023-06-28 DOI:10.12775/bgeo-2023-0003

J. Majorowicz, J. Šafanda

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引用次数: 0

摘要

近几十年/一个世纪以来，浅层地下的热量和温度的增加受到了工业时期气候地表气温(SAT)升高的影响。第一作者对43口井的温度-深度数据进行了详细研究，并将其与数据库信息(Jessop et al 2005)相结合，创建了深度温度图。根据这43条测井曲线，在地表至约200m的可用深度数据范围内，热通量在大多数情况下随深度增加而增加。基于工业时代气候变暖期间地表气温变化的热流随深度变化模式解释了这些数据。加拿大西部沉积盆地WCSB各省可用温度和热增益的空间和深度分布表明，靠近地表的钻井比深度50-100米的钻井更经济。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Shallow geothermal heat in Western Canada: climatic warming impact changes with time– depth

Gain of heat and temperature in the shallow subsurface over the last decades/century has been impacted by the industrial period climatic surface air temperature (SAT) increase. Detailed study of the available temperature-depth data based on 43 wells with single and repeated temperature logs done by the first author has been combined with data base information (Jessop et al 2005) to create temperature maps at depth. Based on these 43 logs it is shown that the heat flux increases with depth in most cases for the available depth data range from surface to some 200m. Model of heat flow versus depth based on the surface air temperature changes through the industrial epoque climatic warming explains the data. Spatial and depth distribution of available temperature and heat gain through the provinces of the Western Canadian Sedimentary Basin WCSB shows that drilling closer to surface is more economic than deeper to 50-100m.

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