多孔介质中二氧化碳水合物相平衡条件的实验研究与热力学模拟

IF 1.7 4区 工程技术 Q3 THERMODYNAMICS
Jiaqi Wang, Jiaxing Liu, Haoqi Wei
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引用次数: 0

摘要

通过实验和模型研究了各种多孔介质上的二氧化碳水合物相平衡。该模型考虑了介质的不同表面特性。实验是在受控条件下进行的,以测量水合物的形成条件。提出的模型基于 Chen-Guo 理论,并结合了每种多孔介质的表面性质参数。通过与实验数据比较,验证了模型的预测结果,发现模型拟合良好。此外,还将模型的精度与其他现有模型进行了比较,发现其精度更高。这项研究有助于更好地理解不同多孔介质中二氧化碳水合物的形成,并为预测此类系统中的相平衡条件提供了一个可靠的模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EXPERIMENTAL STUDY AND THERMODYNAMIC SIMULATION OF CO2 HYDRATE PHASE EQUILIBRIUM CONDITIONS IN POROUS MEDIA
The phase equilibrium of CO2 hydrates on various types of porous media is studied experimentally and modeled. The model lies in the consideration of different surface properties of the media. The experiments are conducted under controlled conditions to measure the hydrate formation conditions. The proposed model is based on the Chen-Guo theory and incorporate the surface property parameters for each type of porous media. The model’s predictions are validated by comparing them to experimental data, and it is found to fit well. Furthermore, the accuracy of model is compared with other existing models, and it is observed to have higher precision. The study contributes to a better understanding of CO2 hydrate formation on different porous media and provides a reliable model for predicting phase equilibrium conditions in such systems.
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来源期刊
Heat Transfer Research
Heat Transfer Research 工程技术-热力学
CiteScore
3.10
自引率
23.50%
发文量
102
审稿时长
13.2 months
期刊介绍: Heat Transfer Research (ISSN1064-2285) presents archived theoretical, applied, and experimental papers selected globally. Selected papers from technical conference proceedings and academic laboratory reports are also published. Papers are selected and reviewed by a group of expert associate editors, guided by a distinguished advisory board, and represent the best of current work in the field. Heat Transfer Research is published under an exclusive license to Begell House, Inc., in full compliance with the International Copyright Convention. Subjects covered in Heat Transfer Research encompass the entire field of heat transfer and relevant areas of fluid dynamics, including conduction, convection and radiation, phase change phenomena including boiling and solidification, heat exchanger design and testing, heat transfer in nuclear reactors, mass transfer, geothermal heat recovery, multi-scale heat transfer, heat and mass transfer in alternative energy systems, and thermophysical properties of materials.
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