搭建了常压水超汽化实验回路(HVL-Ⅰ),采用平面激光诱导荧光(PLIF)、高速摄影、微距摄影、粒子成像测速(PIV)等先进测量技术,开展聚变堆面对等离子体部件(第一壁、偏滤器)在高热流过冷沸腾工况下强化换热特性实验研究.选择三角...搭建了常压水超汽化实验回路(HVL-Ⅰ),采用平面激光诱导荧光(PLIF)、高速摄影、微距摄影、粒子成像测速(PIV)等先进测量技术,开展聚变堆面对等离子体部件(第一壁、偏滤器)在高热流过冷沸腾工况下强化换热特性实验研究.选择三角形和矩形翅片的铬锆铜超汽化样件,实验工况为常压室温(296K),若丹明 B 水溶液流速0.3~0.5m.s-1连续可调,热流密度~5MW.m-2.实验结果表明同等工况下,矩形翅片比三角形翅片换热效果显著增强,性能提升约30%~50%.微距摄影显示翅根涡流形态保持时间越短,越有利于小汽泡充分扩散,从而使换热得到强化.展开更多
The aim of this paper was preliminary design of the process for low-temperature coal tar hydrocrackmg m supercritical gasoline based on Aspen Plus with the concept of energy self-sustainability. In order to ensure the...The aim of this paper was preliminary design of the process for low-temperature coal tar hydrocrackmg m supercritical gasoline based on Aspen Plus with the concept of energy self-sustainability. In order to ensure the correct- ness and accuracy of the simulation, we did the following tasks: selecting reasonable model compounds for low-tem- perature coal tar; describing the nature of products gasoline and diesel accurately; and confirming the proper property study method for each block by means of experience and trial. The purpose of energy self-sustainability could be pos- sibly achieved, on one hand, by using hot stream to preheat cold stream and achieving temperature control of streams, and on the other hand, by utilizing gas (byproduct of the coal tar hydrocracking) combustion reaction to provide energy. Results showed that the whole process could provide a positive net power of about 609 kW-h for processing the low- temperature coal tar with a flowrate of 2 268 kg/h. The total heat recovery amounted to 2 229 kW-h, among which 845 kW'h was obtained from the gas combustion reaction, and 1 116 kW'h was provided by the reactor's outlet stream, with the rest furnished by hot streams of the products gasoline, diesel and residue. In addition, the process flow sheet could achieve products separation well, and specifically the purity of product gasoline and diesel reached 97.2% and 100%, respectively.展开更多
Sediment is a sink for organic materials, nutrients and heavy metals and sediment condition affects the overlying water Though Serin River is a source of drinking water, agricultural and waste disposal activities in t...Sediment is a sink for organic materials, nutrients and heavy metals and sediment condition affects the overlying water Though Serin River is a source of drinking water, agricultural and waste disposal activities in the watershed may impact the sediment of the river. Therefore, the objective of this study was to investigate the organic matter, nutrients and heavy metals in the sediment of the Serin River. Five stations were selected for sediment sample collection. Results of the study show that organic matter (OM) ranged from 0.7% to 5.9%, TP was 100 -366 (mg/kg), TAN was 16-141 (mg/kg), TON was 550-3019(mg/kg), and TKN was 566-3160 (mg/kg). Sediment oxygen demand (SOD20) ranged from 5.6 to 14.2 (g O2/m^2/d). Among the five stations OM, TKN, and SOD of the sediment were second highest at the two stations downstream of animal (fish, chicken and pig) farming. TP and TAN were the second highest at the station downstream of fish farming and third highest at the station downstream of pig farming. Zn, Cu and Cd ranged from 132-357 (mg/kg), 26.7-96.7 (mg/kg) and 4.0-19.3(mg/kg). According to USEPA guideline, sediments at four stations were heavily polluted with Zn, Cu and Cd whereas the station that was farthest upstream, near a village, was slightly polluted with Zn and Cu. This study indicates that animal farming has an impact on the organic matter content, nutrients (N and P), oxygen demand and heavy metals of the sediment. Motor vehicles and discarded e-waste also contributed to the heavy metals in the sediment. Farm effluents and storm water should be treated and e-waste recycled to protect the water quality of the river for its designated use.展开更多
The supersonic ejector-diffuser system with a second throat was simulated using CFD. An explicit finite volumescheme was aPPlied to solve tWo-dimensional Navier-Stokes equations with standard k - E tulbulence model. T...The supersonic ejector-diffuser system with a second throat was simulated using CFD. An explicit finite volumescheme was aPPlied to solve tWo-dimensional Navier-Stokes equations with standard k - E tulbulence model. Thevacuum Performance of the supersonic ejector-diffuser system was investigated by changing the ejector throat arearatio and the operating Pressure ratio. Two convergent-divergent nozzles with design Mach nUmber of 2. 11 and 3.41were selected to give the supersonic operahon of the ejector-diffoser system. The presence of a second throat stronglyaffected the shock wave sir’UctUI’e inside the "dxing tube as well as the spreading of the under-expanded jetdischarging from the Primary nozzle. There were optimum values of the operating pressure ratio and ejector throatarea ratio for the vacuum performance of the system to maximize.展开更多
文摘搭建了常压水超汽化实验回路(HVL-Ⅰ),采用平面激光诱导荧光(PLIF)、高速摄影、微距摄影、粒子成像测速(PIV)等先进测量技术,开展聚变堆面对等离子体部件(第一壁、偏滤器)在高热流过冷沸腾工况下强化换热特性实验研究.选择三角形和矩形翅片的铬锆铜超汽化样件,实验工况为常压室温(296K),若丹明 B 水溶液流速0.3~0.5m.s-1连续可调,热流密度~5MW.m-2.实验结果表明同等工况下,矩形翅片比三角形翅片换热效果显著增强,性能提升约30%~50%.微距摄影显示翅根涡流形态保持时间越短,越有利于小汽泡充分扩散,从而使换热得到强化.
基金the financial support from the National Natural Science Foundation of China(No.2117619)the Shaanxi Province Major Project of Innovation of Science and Technology(No.2008zkc03205,No.2011KTZB03-03-01)
文摘The aim of this paper was preliminary design of the process for low-temperature coal tar hydrocrackmg m supercritical gasoline based on Aspen Plus with the concept of energy self-sustainability. In order to ensure the correct- ness and accuracy of the simulation, we did the following tasks: selecting reasonable model compounds for low-tem- perature coal tar; describing the nature of products gasoline and diesel accurately; and confirming the proper property study method for each block by means of experience and trial. The purpose of energy self-sustainability could be pos- sibly achieved, on one hand, by using hot stream to preheat cold stream and achieving temperature control of streams, and on the other hand, by utilizing gas (byproduct of the coal tar hydrocracking) combustion reaction to provide energy. Results showed that the whole process could provide a positive net power of about 609 kW-h for processing the low- temperature coal tar with a flowrate of 2 268 kg/h. The total heat recovery amounted to 2 229 kW-h, among which 845 kW'h was obtained from the gas combustion reaction, and 1 116 kW'h was provided by the reactor's outlet stream, with the rest furnished by hot streams of the products gasoline, diesel and residue. In addition, the process flow sheet could achieve products separation well, and specifically the purity of product gasoline and diesel reached 97.2% and 100%, respectively.
文摘Sediment is a sink for organic materials, nutrients and heavy metals and sediment condition affects the overlying water Though Serin River is a source of drinking water, agricultural and waste disposal activities in the watershed may impact the sediment of the river. Therefore, the objective of this study was to investigate the organic matter, nutrients and heavy metals in the sediment of the Serin River. Five stations were selected for sediment sample collection. Results of the study show that organic matter (OM) ranged from 0.7% to 5.9%, TP was 100 -366 (mg/kg), TAN was 16-141 (mg/kg), TON was 550-3019(mg/kg), and TKN was 566-3160 (mg/kg). Sediment oxygen demand (SOD20) ranged from 5.6 to 14.2 (g O2/m^2/d). Among the five stations OM, TKN, and SOD of the sediment were second highest at the two stations downstream of animal (fish, chicken and pig) farming. TP and TAN were the second highest at the station downstream of fish farming and third highest at the station downstream of pig farming. Zn, Cu and Cd ranged from 132-357 (mg/kg), 26.7-96.7 (mg/kg) and 4.0-19.3(mg/kg). According to USEPA guideline, sediments at four stations were heavily polluted with Zn, Cu and Cd whereas the station that was farthest upstream, near a village, was slightly polluted with Zn and Cu. This study indicates that animal farming has an impact on the organic matter content, nutrients (N and P), oxygen demand and heavy metals of the sediment. Motor vehicles and discarded e-waste also contributed to the heavy metals in the sediment. Farm effluents and storm water should be treated and e-waste recycled to protect the water quality of the river for its designated use.
文摘The supersonic ejector-diffuser system with a second throat was simulated using CFD. An explicit finite volumescheme was aPPlied to solve tWo-dimensional Navier-Stokes equations with standard k - E tulbulence model. Thevacuum Performance of the supersonic ejector-diffuser system was investigated by changing the ejector throat arearatio and the operating Pressure ratio. Two convergent-divergent nozzles with design Mach nUmber of 2. 11 and 3.41were selected to give the supersonic operahon of the ejector-diffoser system. The presence of a second throat stronglyaffected the shock wave sir’UctUI’e inside the "dxing tube as well as the spreading of the under-expanded jetdischarging from the Primary nozzle. There were optimum values of the operating pressure ratio and ejector throatarea ratio for the vacuum performance of the system to maximize.
