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1.
Here, we describe the development of a reacting flow multi-species/combustion methodology, implemented as an extension to the differential reduced ejector analysis (DREA) computer program [Mathematical and computer modeling, vol. 31, 2000, p. 21; Appl. Math. Model. 25 (2001) 427; Comput. Math. Appl. 43(10–11); NASA Contractor Report, 1998]. Use of the single fluid IVP solver framework that was developed for the original DREA model has been directly coupled into the combustion formulation. With these modifications, the analysis has an elementary single step reaction Fuel+Oxidizer→Product combustion capability. Though approximate in nature, the simplicity and efficiency of the DREA formulation make it suitable for its original niche, namely design and preliminary design environments where more complex and expensive models may be inappropriate. 相似文献
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在对喷射式气、液反应器中复杂的流动行为进行简化和假定的基础上,导得了传质模型,并以空气-水系统进行实验研究。用光电毛细管法测定喷射管内气泡平均直径 d_(32)和比表面积 a,用氮气解吸水中溶解氧的方法获得体积传质系数 k_La,以确定传质模型中的有关参数。实验获得如下结果:α=9.18×10~2β~(0.74)e~(0.372),k_Lα=0.7206β~(0.88)e~(0.492)。其结果与理论分析较接近,可作为喷射式气、液反应器设计参数。 相似文献
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介绍置换通风的原理和特性。在满足热舒适性的条件下,探讨置换通风在工程应用时送风参数的选择范围。针对目前能源危机和生态环境恶化的状况,提出太阳能喷射式制冷置换通风系统,并对该系统中各主要装置的特性及系统的经济性作简要分析。 相似文献
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An ejector expansion transcritical CO2 refrigeration cycle is proposed to improve the COP of the basic transcritical CO2 cycle by reducing the expansion process losses. A constant pressure mixing model for the ejector was established to perform the thermodynamic analysis of the ejector expansion transcritical CO2 cycle. The effect of the entrainment ratio and the pressure drop in the receiving section of the ejector on the relative performance of the ejector expansion transcritical CO2 cycle was investigated for typical air conditioning operation conditions. The effect of different operating conditions on the relative performance of the ejector expansion transcritical CO2 cycle was also investigated using assumed values for the entrainment ratio and pressure drop in the receiving section of the ejector. It was found that the COP of the ejector expansion transcritical CO2 cycle can be improved by more than 16% over the basic transcritical CO2 cycle for typical air conditioning operation conditions. 相似文献
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S. Balamurugan 《Chemical engineering science》2008,63(3):721-731
Ejectors are gas-liquid contactors that are reported to provide higher mass transfer rates than conventional contactors. Detailed experiments were performed and computational fluid dynamics (CFD) modeling studies were undertaken to understand the hydrodynamic characteristics of the ejector geometry. The CFD model provides a basis for quantifying the effects of operating conditions on the ejector performance. CFD studies shows that there is an optimum ratio of nozzle area to throat area (area ratio), at which the liquid entrainment rate is the highest. This can lead to substantial economic benefit in the industrial practice. The liquid entrainment rate correlates with pressure difference between the water surface in the suction chamber and the throat exit for a wide variety of ejector geometries and operating conditions. 相似文献
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In the present study, two empirical correlations from the test results of 15 ejectors are derived for the performance prediction of ejectors using R141b as the working fluid. The ratio of the hypothetical throat area of the entrained flow to the nozzle throat area Ae/At, the geometric design parameter of the ejector A3/At, and the pressure ratios Pg/Pe and Pc*/Pe are used to correlate the performance of the ejector. The prediction of the entrainment ratio ω using the correlations is within ±10% error. A method of calculation for the ejector design using the correlations is also developed. R141b is shown in the present study to be a good working fluid for an ejector. The measured ω for the ejectors used in the present study can reach as high as 0.54 at Pg=0.465 MPa (84°C), Pc*=0.087 MPa (28°C) and Pe=0.040 MPa (8°C). For Pg=0.538 MPa (90°C), Pc*=0.101 MPa (32°C) and Pe=0.040 MPa (8°C), ω reaches 0.45.