几种聚乙二醇基相变材料混合传热的实验研究

IF 5.3 2区化学 Q2 CHEMISTRY, PHYSICAL

Journal of Molecular Liquids Pub Date : 2025-04-23 DOI:10.1016/j.molliq.2025.127652

Dana Bejan , Nicoleta Cojocariu , Elena Ionela Cherecheş , Alina Adriana Minea

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引用次数: 0

摘要

本文讨论了两种聚乙二醇（peg400和peg200）及其混合物的性能及其作为传热流体的适用性。该研究的想法是基于该研究小组之前对peg400作为传热流体和peg200作为换热过程可能候选物的研究。就这些作者所知，这种混合聚乙二醇的方法来创造一个改进的传热流体是一个完全新颖的。通过差热分析、热重法、导数热重法和差示扫描量热法对6种流体的性质进行了比较。此外，热导率和等压热容进行了实验测量，而粘度估计作为热传递变化的指示。对实验数据进行了比较分析，并结合目前的技术水平进行了讨论。结果表明，peg400和peg200之间的混合物可以作为传热流体的可行解决方案，结合了两种聚乙二醇的优点，并最大限度地减少了每种PEG的缺点。

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Studies on several mixtures of PEG based phase change materials for heat transfer Applications: An experimental approach

This article discusses the properties of two polyethylene glycols (i.e. PEG 400 and PEG 200) together with several mixtures and their appropriateness as heat transfer fluids. The idea of the research stands on this research group previous studies on PEG 400 as heat transfer fluid and PEG 200 as a possible candidate for heat exchange processes. As far as these authors are aware, this approach of mixing PEGs for creating an improved heat transfer fluid is a complete novelty. The study compares the properties of six fluids in terms of differential thermal analysis, thermogravimetry, derivative thermogravimetry and differential scanning calorimetry. Plus, the thermal conductivity and the isobaric heat capacity were experimentally measured, while viscosity was estimated as an indication for the change in thermal transport. Experimental data were analyzed comparatively and were discussed in the context of the state of the art. Results indicated that mixtures between PEG 400 and PEG 200 can be a viable solution for heat transfer fluids, combining the advantages of the two polyethylene glycols and minimizing each PEG drawbacks.

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来源期刊

Journal of Molecular Liquids 化学-物理：原子、分子和化学物理

CiteScore

10.30

自引率

16.70%

发文量

2597

审稿时长

78 days

期刊介绍： The journal includes papers in the following areas: – Simple organic liquids and mixtures – Ionic liquids – Surfactant solutions (including micelles and vesicles) and liquid interfaces – Colloidal solutions and nanoparticles – Thermotropic and lyotropic liquid crystals – Ferrofluids – Water, aqueous solutions and other hydrogen-bonded liquids – Lubricants, polymer solutions and melts – Molten metals and salts – Phase transitions and critical phenomena in liquids and confined fluids – Self assembly in complex liquids.– Biomolecules in solution The emphasis is on the molecular (or microscopic) understanding of particular liquids or liquid systems, especially concerning structure, dynamics and intermolecular forces. The experimental techniques used may include: – Conventional spectroscopy (mid-IR and far-IR, Raman, NMR, etc.) – Non-linear optics and time resolved spectroscopy (psec, fsec, asec, ISRS, etc.) – Light scattering (Rayleigh, Brillouin, PCS, etc.) – Dielectric relaxation – X-ray and neutron scattering and diffraction. Experimental studies, computer simulations (MD or MC) and analytical theory will be considered for publication; papers just reporting experimental results that do not contribute to the understanding of the fundamentals of molecular and ionic liquids will not be accepted. Only papers of a non-routine nature and advancing the field will be considered for publication.