The Experts below are selected from a list of 261 Experts worldwide ranked by ideXlab platform
V. I. Artemov - One of the best experts on this subject based on the ideXlab platform.
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Numerical simulation of heat and mass transfer processes in the nozzle and Expansion Unit of the separator–steam-generator system in waste-heat utilization complex
Thermal Engineering, 2015Co-Authors: V. I. Artemov, K. B. Minko, G. G. Yan’kovAbstract:Homogeneous equilibrium and nonequilibrium (relaxation) models are used to simulate flash boiling flows in nozzles. The simulation were performed using the author’s CFD-code ANES. Existing experimental data are used to test the realized mathematical model and the modified algorithms of ANES CFD-code. The results of test calculations are presented, together with data obtained for the nozzle and Expansion Unit of the steam generator and separator in the waste-heat system at ZAO NPVP Turbokon. The SIMPLE algorithm may be used for the transonic and supersonic flashing liquid flow. The relaxation model yields better agreement with experimental data regarding the distribution of void fraction along the nozzle axis. For the given class of flow, the difference between one- and two-dimensional models is slight.
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numerical simulation of heat and mass transfer processes in the nozzle and Expansion Unit of the separator steam generator system in waste heat utilization complex
Thermal Engineering, 2015Co-Authors: V. I. Artemov, K. B. Minko, G G YankovAbstract:Homogeneous equilibrium and nonequilibrium (relaxation) models are used to simulate flash boiling flows in nozzles. The simulation were performed using the author’s CFD-code ANES. Existing experimental data are used to test the realized mathematical model and the modified algorithms of ANES CFD-code. The results of test calculations are presented, together with data obtained for the nozzle and Expansion Unit of the steam generator and separator in the waste-heat system at ZAO NPVP Turbokon. The SIMPLE algorithm may be used for the transonic and supersonic flashing liquid flow. The relaxation model yields better agreement with experimental data regarding the distribution of void fraction along the nozzle axis. For the given class of flow, the difference between one- and two-dimensional models is slight.
G. G. Yan’kov - One of the best experts on this subject based on the ideXlab platform.
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Numerical simulation of heat and mass transfer processes in the nozzle and Expansion Unit of the separator–steam-generator system in waste-heat utilization complex
Thermal Engineering, 2015Co-Authors: V. I. Artemov, K. B. Minko, G. G. Yan’kovAbstract:Homogeneous equilibrium and nonequilibrium (relaxation) models are used to simulate flash boiling flows in nozzles. The simulation were performed using the author’s CFD-code ANES. Existing experimental data are used to test the realized mathematical model and the modified algorithms of ANES CFD-code. The results of test calculations are presented, together with data obtained for the nozzle and Expansion Unit of the steam generator and separator in the waste-heat system at ZAO NPVP Turbokon. The SIMPLE algorithm may be used for the transonic and supersonic flashing liquid flow. The relaxation model yields better agreement with experimental data regarding the distribution of void fraction along the nozzle axis. For the given class of flow, the difference between one- and two-dimensional models is slight.
G G Yankov - One of the best experts on this subject based on the ideXlab platform.
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numerical simulation of heat and mass transfer processes in the nozzle and Expansion Unit of the separator steam generator system in waste heat utilization complex
Thermal Engineering, 2015Co-Authors: V. I. Artemov, K. B. Minko, G G YankovAbstract:Homogeneous equilibrium and nonequilibrium (relaxation) models are used to simulate flash boiling flows in nozzles. The simulation were performed using the author’s CFD-code ANES. Existing experimental data are used to test the realized mathematical model and the modified algorithms of ANES CFD-code. The results of test calculations are presented, together with data obtained for the nozzle and Expansion Unit of the steam generator and separator in the waste-heat system at ZAO NPVP Turbokon. The SIMPLE algorithm may be used for the transonic and supersonic flashing liquid flow. The relaxation model yields better agreement with experimental data regarding the distribution of void fraction along the nozzle axis. For the given class of flow, the difference between one- and two-dimensional models is slight.
K. B. Minko - One of the best experts on this subject based on the ideXlab platform.
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Numerical simulation of heat and mass transfer processes in the nozzle and Expansion Unit of the separator–steam-generator system in waste-heat utilization complex
Thermal Engineering, 2015Co-Authors: V. I. Artemov, K. B. Minko, G. G. Yan’kovAbstract:Homogeneous equilibrium and nonequilibrium (relaxation) models are used to simulate flash boiling flows in nozzles. The simulation were performed using the author’s CFD-code ANES. Existing experimental data are used to test the realized mathematical model and the modified algorithms of ANES CFD-code. The results of test calculations are presented, together with data obtained for the nozzle and Expansion Unit of the steam generator and separator in the waste-heat system at ZAO NPVP Turbokon. The SIMPLE algorithm may be used for the transonic and supersonic flashing liquid flow. The relaxation model yields better agreement with experimental data regarding the distribution of void fraction along the nozzle axis. For the given class of flow, the difference between one- and two-dimensional models is slight.
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numerical simulation of heat and mass transfer processes in the nozzle and Expansion Unit of the separator steam generator system in waste heat utilization complex
Thermal Engineering, 2015Co-Authors: V. I. Artemov, K. B. Minko, G G YankovAbstract:Homogeneous equilibrium and nonequilibrium (relaxation) models are used to simulate flash boiling flows in nozzles. The simulation were performed using the author’s CFD-code ANES. Existing experimental data are used to test the realized mathematical model and the modified algorithms of ANES CFD-code. The results of test calculations are presented, together with data obtained for the nozzle and Expansion Unit of the steam generator and separator in the waste-heat system at ZAO NPVP Turbokon. The SIMPLE algorithm may be used for the transonic and supersonic flashing liquid flow. The relaxation model yields better agreement with experimental data regarding the distribution of void fraction along the nozzle axis. For the given class of flow, the difference between one- and two-dimensional models is slight.
Ahmad Arabkoohsar - One of the best experts on this subject based on the ideXlab platform.
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a smart combination of a solar assisted absorption chiller and a power productive gas Expansion Unit for cogeneration of power and cooling
Renewable Energy, 2018Co-Authors: Ahmad Arabkoohsar, G B AndresenAbstract:Solar assisted absorption chiller is one of efficient cooling production systems for large cooling capacities. The main drawback of this system is that in addition to the electricity consumption, it demands for a lot of heat in relatively high temperature range of 90–120 °C, though the solar system may provide a significant portion of this heating demand. On the other hand, in gas transmission systems, there are some Expansion stations in which gas pressure is reduced considerably and this pressure drop causes temperature collapse in gas stream. Power productive gas Expansion station (PPGES) is the most recent design proponed for these stations in which the Unit is equipped with power generation systems. In this work, taking advantage of this temperature fall for cooling production is proposed by coupling the station with an absorption chiller. In this case, the chiller could also provide the heating demand of the Expansion station. In order to evaluate the effectiveness of the proposed configuration, it is simulated for a case study in Denmark, i.e. Aarhus University (AU) hospital absorption chiller and Viborg gas station. The results show that the Expansion station could provide an annual cooling production contribution of 27%. In addition, the paper presents an extensive economic assessment to prove the impact of the proposed system economically. The results show a great enhancement in the levelized cost of energy (LCOE) of the case study in case of employing the hybrid system instead of the conventional chiller.
