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[1]张博文.轴流导叶式脱气器流场分析及性能研究[J],热能动力工程,2022,35(11):100-105
[2]代玉强.利用波转子实现气体膨胀制冷技术(英文)[J],大连理工大学学报,2010,50(06):888-895
[3]代玉强.能力目标导向的过程成套装备课程教学改革与实践[J],化工高等教育,2018,35(6):36-40
[4]韩礼泽.五孔探针在气流速度测量中的应用[J],实验技术与管理,2021,38(1):48-52
[5]张博文.轴流导叶式脱气器流场分析及性能研究[J],热能动力工程,2021,35(11):100-105
[6]代玉强.Influence of skewing of contact face on performance of wave rotor refrigerators and superchargers[A],2021,6 B
[7]代玉强.INFLUENCE OF SKEWING OF CONTACT FACE ON PERFORMANCE OF WAVE ROTOR REFRIGERATORS AND SUPERCHARGE...[A],2021
[8]姚轶智.动量增强型喷射器性能实验与分析[J],化工进展,2021,38(10):4489-4496
[9]代玉强,周一卉,刘学武,武锦涛,刘凤霞,魏炜.能力目标导向的过程成套装备课程教学改革与实践[J],化工高等教育,2018,35(6):36-40
[10]Dai, Yuqiang,Zhang, Siliang,Tao, Shengyang,Hu, Dapeng.Superposition of two incident shocks in R718 vapor flows[J],INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW,2017,65:159-165
[11]代玉强.后置静态旋流蒸汽喷射器引射特性研究[A],2017
[12]邹久朋,刘学武,程蛟,代玉强,李俊龙.不同外激励参数下射流的附壁振荡特性[J],振动、测试与诊断,2017,37(6):1201-1207
[13]代玉强.相变波转子自复叠制冷系统[A],2016,1(1):1-4
[14]Xu, Weihua,Zou, Jiupeng,Cheng, Jiao,Dai, Yuqiang.Study on a High-Efficiency Jet Mode of Static Gas Wave Refrigeration[A],2016,53:625-629
[15]程永航,赵顶,代玉强,张斯亮,陶盛洋.不同过热度下闪蒸波的初步研究[A],2015,335-337
[16]Dai Yuqiang,Cheng Yonghang,Zou Jiupeng,Hu Dapeng.Superheating and supercharging characteristics of moving shock in wet steam flows[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2015,86:351-357
[17]代玉强,胡大鹏.旋流蒸汽喷射器的引射特性[A],2015
[18]代玉强,邹久朋,胡大鹏.Superheating and supercharging characteristics of moving shock in wet steam[J],International Journal of Heat and Mass Transfer,2015,86(1)
[19]代玉强.不同过热度下闪蒸波的初步研究[A],2015
[20]代玉强,朱彻,邹久朋,胡大鹏.Numerical Analysis of a Novel Coil Wound LNG Vaporizer[A],2014
[21]代玉强,邹久朋,朱彻,胡大鹏.R718蒸汽间断波的相互作用规律研究[A],2014
[22]刘学武,代玉强,邹久朋,银建中.过程装备与控制工程专业“理论力学”教学改革[J],中国电力教育,2013,07:133-134+159
[23]Liu Fengxia,Dai Yuqiang,Wei Wei,Zou Jiupeng,Zhu Che,Dong Chao,Hu Dapeng.Feasibility of Intermediate Fluid Vaporizer with Spiral Wound Tubes[J],CHINA PETROLEUM PROCESSING & PETROCHEMICAL TECHNOLOGY,2013,15(1):73-77
[24]Dai, Y.,Liu, F.,Zou, J.,Wu, J.,Zhu, C.,Liu, X.,Zhang, L.,Hu, D..Study on hydrated operation performance of wave rotor refrigerators[J],Advanced Materials Research,2012,550-553:3145-3149
[25]Zhao, Wenjing,Hu, Dapeng,Liu, Peiqi,Dai, Yuqiang,Zou, Jiupeng,Zhu, Che,Zhao, Jiaquan.The Port Width and Position Determination for Pressure-Exchange Ejector[J],JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER-TRANSACTIONS OF THE ASME,2012,134(6)
[26]赵家权,刘培启,赵文静,代玉强,刘凤霞,胡大鹏.激波管中非定常凝结现象的数值分析[J],化工学报,2012,63(4):1050-1055
[27]赵文静,胡大鹏,刘培启,赵家权,代玉强,荣春.端口夹角对气波引射器性能的影响和预测[J],化工学报,2012,63(2):572-577
[28]邹久朋,代玉强,刘学武,张礼鸣,刘凤霞.The Programming Algorithm Based on Embedded System for the Output Conversion of the Humidity & Te...[J],Advanced Materials Research-Advanced Engineering Forum,2012,6(7):294-298
[29]刘培启,代玉强,胡大鹏.Research on performances of the pressure-exchange ejector[A],2012,562(6):1159-1162
[30]代玉强,邹久朋,朱彻,武锦涛,胡大鹏.Real gas effect on unsteady flow of natural gases in shock tubes[J],Advanced Materials Research,2012,361(363):603-606
[31]Zhao, Wenjing,Hu, Dapeng,Liu, Peiqi,Dai, Yuqiang,Zhao, Jiaquan.Performance of pressure-exchange ejector at different port pressure[A],2011,422:697-700
[32]Dai Yuqiang,Zhu Che,Wu JinTao,Hu Dapeng,Zou Jiupeng.Real Gas Effect on Unsteady Flow of Natural Gases in Shock Tubes[A],2011,361-363:603-606
[33]赵文静,胡大鹏,刘培启,代玉强,荣春,魏丽.气波增压器中入口渐开损失的研究[A],2011,319-321
[34]代玉强,邹久朋,武锦涛,刘学武,胡大鹏,朱彻.过程设备非标设计教学平台开发与实践[A],2011,74-76
[35]刘培启,胡大鹏,代玉强,朱彻.管内振荡流体流动及泵热分析[A],2011,357-360
[36]周传锋,胡大鹏,代玉强,刘培启.外循环耗散型气波制冷机制冷过程热力分析[A],2011,420-422
[37]Dai Yuqiang,Zou Jiupeng,Wu JinTao,Zhu Che,Liu Peiqi,Zhang Liming,Hu Dapeng.Unsteady Behavior of Real Gas in Wave Rotor refrigerators[A],2011,236-238:1516-1522
[38]Zhao, Wenjing,Hu, Dapeng,Liu, Peiqi,Dai, Yuqiang,Rong, Chun.Flow-field analysis and performance prediction of pressure-exchange ejector[A],2011,236-238:1587-1592
[39]Wu, Jintao,Dai, Yuqiang,Wang, Zewu,Liu, Fengxia.Study on the Heat Transfer in Granular Materials by DEM[A],2011,233-235:2949-2954
[40]Liu X.-W.,Dai Y.-Q.,Chen S.,Shi Z.-C..Experimental research of TiO2 micro-particles production by supercritical hydrolysis[J],Gongneng Cailiao/Journal of Functional Materials,2011,42(SUPPL. 2):237-240