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Energy Storage Analysis of a Mixed R161/MOF-5 Nanoparticle Nanofluid Based on Molecular Simulations

机译：基于分子模拟的混合R161 / MOF-5纳米颗粒纳米流体的储能分析

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The thermal properties of refrigerants can be modified by adding porous nanoparticles into them. Here, molecular simulations, including molecular dynamics and grand canonical Monte Carlo, were employed to study the thermal energy storage properties of an R161/MOF-5 nanofluid. The results show that the thermodynamic energy change of MOF-5 nanoparticles is linear to the temperature. The adsorption heat calculated by grand canonical Monte Carlo is close to that calculated by the Clausius–Clapeyron equation. Additionally, a negative enhancement of the thermal energy storage capacity of the R161/MOF-5 nanofluid is found near the phase transition area.

机译：可以通过向其中添加多孔纳米颗粒来改变制冷剂的热性能。在这里，分子模拟，包括分子动力学和经典的蒙特卡洛，被用来研究R161 / MOF-5纳米流体的热能存储特性。结果表明，MOF-5纳米粒子的热力学能量变化与温度呈线性关系。大正则蒙特卡罗计算的吸附热接近于克劳修斯-克拉佩隆方程式的吸附热。另外，在相变区域附近发现R161 / MOF-5纳米流体的热能存储容量有负增长。

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期刊名称 Materials
作者
Qiang Wang; Shengli Tang; Leilei Li;
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作者单位

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年(卷),期 2018(11),5
年度 2018
页码 848
总页数 8
原文格式 PDF
正文语种
中图分类外科学;
关键词
R161 MOF-5 adsorption thermal energy storage molecular simulation;

机译：R161;MOF-5;吸附;热能存储;分子模拟;

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专利

1. Energy Storage Analysis of a Mixed R161/MOF-5 Nanoparticle Nanofluid Based on Molecular Simulations [J] . Qiang Wang, Shengli Tang, Leilei Li Materials . 2018,第5期

机译：基于分子模拟的混合R161 / MOF-5纳米粒子纳米粒子的能量储存分析
2. Molecular Simulations of Adsorption and Thermal Energy Storage of Mixed R1234ze/UIO-66 Nanoparticle Nanofluid [J] . Qiang Wang, Shengli Tang, Sen Tian, Journal of nanomaterials . 2019,第1期

机译：混合R1234ZE / UIO-66纳米粒子混合吸附和热能储存的分子模拟
3. Energy storage analysis of R125 in UIO-66 and MOF-5 nanoparticles: A molecular simulation study [J] . Open Chemistry . 2019,第1a上a期

机译：UIO-66和MOF-5纳米粒子R125能量储存分析：分子模拟研究
4. EFFECT OF TEMPERATURE ON RHEOLOGY AND NANOPARTICLE MOVEMENTS OF WATER BASED NANOFLUIDS BY MOLECULAR DYNAMICS SIMULATION [C] . Wenzheng Cui, Jianguo Yang, Zhaojie Shen, ASME International Conference on Micro/Nanoscale Heat and Mass Transfer . 2016

机译：温度对水分动力学模拟水分纳米流体流变和纳米粒子运动的影响
5. Computational simulations of latent heat thermal energy storage systems---with innovative and first-principles based simulation for the underlying unsteady melting (and solidification) processes. [D] . Gumaste, Rohan Achyut. 2011

机译：潜热热能存储系统的计算模拟-利用基于创新和第一性原理的模拟来进行潜在的非稳态熔化（和凝固）过程。
6. The Energy Storage Properties of Refrigerants (R170 R134a R143a and R152a) in Mof-5 Nanoparticles: A Molecular Simulation Approach [O] . Qiang Wang, Zhengyong Huang, Shucheng Ou, 2019

机译：Mof-5纳米颗粒中制冷剂（R170R134aR143a和R152a）的储能特性：一种分子模拟方法
7. Effect of nanoparticles on heat capacity of nanofluids based on molten salts as PCM for thermal energy storage [O] . Chieruzzi, Manila, Cerritelli, Gian F., Miliozzi, Adio, 2013

机译：纳米颗粒对基于熔盐作为热能储存相变材料的纳米流体的热容量的影响

Energy Storage Analysis of a Mixed R161/MOF-5 Nanoparticle Nanofluid Based on Molecular Simulations

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