Review of existing and development of a novel mathematical model for supercritical CO <sub>2</sub> cycles working fluid

Marcin Wo?owicz; Jaros?aw Milewski; Piotr Lis

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Review of existing and development of a novel mathematical model for supercritical CO ₂ cycles working fluid

机译：超临界CO _{2 循环工作流体数学模型的存在与发展}

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The paper aims to compare the models of working fluids against experimental data for carbon dioxide close to its critical conditions. Fortunately, most of the work is already done and published where the authors compared the models based on the equation of the state (EoS). There are a few other models which were not investigated, thus we would like to add a few new results here and focus only on near-critical properties where the biggest deviation between experimental and calculated properties can be observed. The area of interest was pressure range of 7.39 – 20 MPa and temperature range of 304-340 K just above fluid critical point (7.39 MPa, 304.25 K). Model validation was performed for density and heat capacity as one of the most important parameters in preliminary cycle analysis.

机译：本文旨在将工作流体模型与接近其临界条件的二氧化碳实验数据进行比较。幸运的是，大多数工作已经完成并发表，其中作者根据状态方程（EoS）比较了模型。还有一些其他模型尚未研究，因此我们想在此处添加一些新结果，并仅关注于在观察到的和计算出的特性之间存在最大偏差的近临界特性。感兴趣的区域是压力范围为7.39 – 20 MPa，温度范围为304-340 K，刚好高于流体临界点（7.39 MPa，304.25 K）。在初步循环分析中，对密度和热容量作为最重要的参数之一进行了模型验证。

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《MATEC Web of Conferences》 |2018年第1期|共5页
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Marcin Wo?owicz; Jaros?aw Milewski; Piotr Lis;
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Review of existing and development of a novel mathematical model for supercritical CO 2 cycles working fluid

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Review of existing and development of a novel mathematical model for supercritical CO ₂ cycles working fluid