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Yang Y.,Hunan Electrical Corporation Research Institute | Jin S.-P.,Huazhong University of Science and Technology | Tian Z.-J.,Huazhong University of Science and Technology | Huang S.-Y.,Huazhong University of Science and Technology
Energy Sources, Part A: Recovery, Utilization and Environmental Effects | Year: 2015

The heat transfer between heat carriers and biomass in the down-flow tube reactor is very complicated. In order to simplify the study, a V-shaped down-flow tube apparatus was designed and fabricated and the heat transfer experiments were conducted in the V-shaped down-flow tube apparatus without the presence of biomass. Temperatures at various positions of apparatus and the final temperature of heat carriers were measured and the coefficients of convective heat exchange between heat carriers and air were then determined for different initial temperatures of the heat carriers (50°C, 60°C, and 70°C). The experimental results show that the final temperature of heat carriers at the outlet of the reactor, the temperature of the tube, and the temperature of the air increase exponentially, and the temperature of the tube and the temperature of the air delay the temperature of heat carriers. The heat flow across the wall of the tube and the heat flow across the air increase with the increase of the initial temperature of heat carriers similarly. The convective heat transfer coefficient between heat carriers and air also increase with the increase of the air temperature. © Taylor and Francis Group, LLC. Source


Liu Y.,Hunan Electrical Corporation Research Institute | Ye H.-S.,Hunan Electrical Corporation Research Institute | Shan Z.-P.,Hunan Electrical Corporation Research Institute | Liu X.-W.,Hunan Electrical Corporation Research Institute | And 3 more authors.
Gaoya Dianqi/High Voltage Apparatus | Year: 2013

Partial discharge test is one of the most effective methods for inspecting the insulation condition of electrical equipment. Compared with partial discharge test of transformer, partial discharge test of reactor has the features of large capacity, complicated testing equipment, difficult shielding, heavy current in testing circuit, and so on. In this paper, the configuration of the testing device for 500 kV shunt reactor, as well as its test method, principle and calculation, is introduced. Test results indicate that the configuration of the testing device meets the requirement for spot test of partial discharge of a 500 kV, 40~60 MV · A reactor. Source

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