Internal heat source in the vadose zone: A comprehensive exploration through theoretical spectral analysis and practical application into thermal diffusivity and hydraulic flux in a Quaternary soil water layer

IF 3.2 3区 地球科学 Q1 Environmental Science
David Ching-Fang Shih
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Abstract

This groundbreaking study introduces a scientifically robust method for assessing internal heat generation in shallow, unsaturated aquifers, highlighting the intricate interplay between internal heat, thermal diffusivity, and hydraulic flux. The research pioneers a novel approach employing time-frequency spectral analysis to address challenges posed by conventional methods that rely solely on prescribed thermal diffusivity and hydraulic flux for evaluating internal heat over time. Rooted in a solid theoretical framework supported by meticulous temperature and heat flux observations, the method adeptly incorporates the concept of an unknown internal heat. The study systematically explores three distinct boundary conditions, showcasing versatility: one with fixed temperatures at the inlet and outlet, another with known temperature at the inlet and no heat flux at the outlet, and a third with a prescribed inlet temperature and constrained outlet heat flux. The estimation of internal heat, coupled with prescribed thermal diffusivity and hydraulic flux, harnesses in-situ temperature and heat flux spectra through an innovative inverse stochastic spectral approach. A notable feature of this research lies in its ability to strategically handle various parameters, including prescribed thermal diffusivity, hydraulic flux, variations in target depth, significant frequency components, and boundary conditions. The variation assessment findings emphasize the diverse range when predicting internal heat generation based on prescribed thermal diffusivity and hydraulic flux. This study facilitates the determination of potential internal heat magnitudes at different depths and provides profound insights into in-situ conditions within the vadose zone.

Abstract Image

渗流带的内部热源:通过理论光谱分析和实际应用对第四纪土壤水层的热扩散和水力通量进行全面探索
这项开创性的研究介绍了一种科学可靠的方法,用于评估浅层非饱和含水层的内生热量,突出了内生热量、热扩散率和水力通量之间错综复杂的相互作用。该研究开创了一种采用时频频谱分析的新方法,以应对传统方法所带来的挑战。传统方法仅依靠规定的热扩散率和水力通量来评估随时间变化的内热。该方法以坚实的理论框架为基础,辅以细致的温度和热通量观测,巧妙地融入了未知内热的概念。研究系统地探讨了三种不同的边界条件,展示了其多功能性:一种是入口和出口温度固定,另一种是入口温度已知而出口无热流量,第三种是入口温度规定而出口热流量受限。通过创新的反向随机光谱方法,结合规定的热扩散率和水力通量,利用原位温度和热通量光谱估算内热。这项研究的一个显著特点是能够战略性地处理各种参数,包括规定的热扩散率、水力通量、目标深度变化、重要的频率成分和边界条件。变化评估结果强调了根据规定的热扩散率和水力通量预测内部发热量时的不同范围。这项研究有助于确定不同深度的潜在内热量大小,并为深入了解地下渗流带的原位条件提供了依据。
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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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