澳门挂牌393444cm

师资队伍(旧)

澳门挂牌393444cm:李 骅

来源: 日期:2021-01-12 点击数:


姓 名

李骅

性别

职 称

教授

系别

农业机械化系

学 位

博士/博导

电话

13951740692

E-mail

lihua@njau.edu.cn

单位地址

南京市浦口区点将台路40号

邮编

210031

研究领域

1、精准种植与收获技术及智能装备

2、生物质转化技术与装备

研究生招生

农业机械化工程(博士、学术硕士)、机械工程(专业硕士)、电子信息(专业硕士);长年招聘农业工程学科博士后研究人员

社会兼职

中国农业工程学会理事、农业农村部工程建设中心咨询专家、中国柿子产业协同创新共同体常务理事、江苏省能源研究会副理事长、江苏省农业工程学会理事、中国农业机械学会山地丘陵机械分会常务委员、中国农业机械学会耕作分会委员、中国计算机学会高级会员、中国农业工程学会高级会员、美国ASABE会员、ACM会员。

承担项目

[29]2021.11-2022.10农业农村部产业集群建设项目,大蒜机械化智能化作业攻关与绿色生产技术示范推广子项目,主持

[28] 2021.1-2022.12江苏省现代农机装备与技术示范推广项目(NJ2020-57),基于微循环的农业废弃物高值化利用技术与装备示范推广,子课题主持

[27] 2020.8-2022.11江苏省现代农机装备与技术示范推广项目(NJ2020-26),大蒜正芽机播、联合机收关键环节农机农艺融合技术,子课题主持

[26] 2021.5-2023.12企业横向课题,餐厨垃圾微波裂解技术装备,主持

[25] 2020.1-2021.12江苏省现代农机装备与技术示范推广项目(NJ2019-55),蛋鸡场养殖废弃物好氧堆肥技术与装备应用示范,子课题主持

[24]2020.1-2022.12国家重点研发计划(2019YFC1906103),社区垃圾湿组分清洁收集减量与环境污染控制技术,主持

[23]2019.12-2020.12农业农村部委托项目(201900183),农机安全生产事故防控华东/华南地区摸底调查,主持

[22]2019.12-2021.10江苏省现代农机装备与技术示范推广项目(NJ2019-17),履带自走式大蒜联合收获机研发及配套农艺研究,主持

[21]2019.7-2022.6江苏现代农业产业关键技术创新项目(CX(19)2007) ,大蒜精细高效生产机械化技术与装备研发,主持

[20]2019.10-2022.9企业委托项目,农业废弃物大通量槽式堆肥技术与装备,主持

[19]2018.09-2020.09南京农业大学—新疆农业大学联合基金项目(KYYJ201804),棉秆微波裂解气炭联产工艺技术研究,主持

[18]2018.05-2019.06江苏省农机三新项目,农村废弃物处理机械化技术集成与应用,参与

[17]2017.01-2020.12国家重点研发项目,蔬菜智能化精细生产技术与装备研发(2017YFD0701300),子课题主持

[16]2017.2-2019.1江苏省苏北科技专项,生物有机肥发酵提效关键技术研究及产业化(SZ-YC2017002),参与

[15]2016.7-2018.6 江苏省前瞻性研究项目,水稻秸秆热膨预处理及裹包青贮的关键技术研究(BY2016077-01),主持

[14]2016.6-2018.6农业部现代农业装备重点实验室开放课题,基于离散元法的联合收获脱出物仿真建模技术研究(201602004),主持

[13]2016.4-2018.12江苏省农业三新项目,稻秆热物理预处理、裹包微贮制备饲料技术集成与示范(SXGC[2016]313),主持

[12]2016.1-2017.12江苏省生物质转化与过程集成工程实验室开放课题,水稻秸秆微波裂解气炭联产工艺研究(JPELBCPI2015002),5万,主持

[11]2015.12-2017.12企业委托课题:水稻秸秆饲料化高效利用研究,30万,主持

[10]2014.1-2016.12国家自然基金青年项目:水稻联合收获脱分选系统工作原理及设计方法研究子课题(51305182),主持

[9]2015.1-2016.12江苏省农机基金:一款轻简型联合收割机的设计与研制(gxy14001),主持

[8]2014.1-2015.6 农业部现代农业装备重点实验室开放课题:水稻高湿作物联合收获清选分离机理研究(201303003),主持

[7] 2011.1-2013.6中央高校基本科研业务费自主创新重点项目:蒸汽爆破处理秸秆饲料的技术与参数优化研究(kyz201126),主持

[6]2014.1-2015.12江苏省农业三新项目:水稻收获机械化研究(NJ2013-36),子项目主持

[5]2013.3-2013.12国家自然基金青年项目:港口物流网络时空演变模拟及规划支持系统研究子课题,主持

[4]2009.3-2010.3 农业部委托项目:现代农业工程建设标准体系研究,主持

[3]2010.7-2013.6 江苏省科技支撑项目:农作物秸秆饲料化高效利用研究(BE2010356),参与

[2]2010.9-2012.9 江苏省农业三项工程项目:蒸汽爆破处理秸秆饲料的技术与参数优化研究(NJ2010-42),参与

[1]2006.4-2009.4江苏省科技支撑计划项目:油菜移栽关键技术设备研制与开发(BE2006302),参与

学术成果

主要论文:

[75]Nyambura S M, Jufei W, Hua L, et al. Microwave Co-Pyrolysis of Kitchen Food Waste and Rice Straw for Waste Reduction and Sustainable Biohydrogen Production: Thermo-Kinetic Analysis and Evolved Gas Analysis[J]. Sustainable Energy Technologies and Assessments, 2022, 52: 102072.

[74]李骅,赵汝东,李超,等.水稻秸秆微贮制备饲料的试验[J].沈阳农业大学学报, 2021, 52(03): 329-335.

[73]Ahmad R, Abbas A, Jufei W, et al. Experimental and Comparative Study of Chinese Commercial Improved Coal-Fired Cooking and Space-Heating Stoves[J]. Environmental Science and Pollution Research, 2021, 28(41): 58135-58141

[72]李旭辉,王居飞,耿春雷,等.稻秆与污泥的共热解研究[J].南京农业大学学报, 2021, 44(04): 789-796.

[71] Li B, Ahmad R, Qi X, et al. Design Evaluation and Performance Analysis of a Double-Row Pneumatic Precision Metering Device for Brassica chinensis[J]. Sustainability. 2021, 13(3): 1374.

[70]刘阿朋,李骅,张佳喜,等.微波裂解设备的设计仿真与工艺试验[J].农机化研究. 2021, 43(10): 121-125.

[69]Raiz A, Zhou Y, Li H, et al. STUDY ON BIOMASS-BASED GASIFIER COOKSTOVE FOR DOMESTIC APPLICATION[J]. FRESENIUS ENVIRONMENTAL BULLETIN. 2021, 30(04A): 4365-4374.

[68]Yuan J, Li H, Qi X, et al. Optimization of airflow cylinder sieve for threshed rice separation using CFD-DEM[J]. Engineering applications of computational fluid mechanics. 2020, 14(1): 871-881.

[67]Geng C, Li X, Li H, et al. Process technology of producing high calorific value combustible gas by microwave pyrolysis of cotton stalk[J]. International Agricultural Engineering Journal. 2020, 29(1): 25-33.

[66]李胜兵,李骅,齐新丹,等.大蒜收获机研究现状及展望[J].江西农业学报. 2020, 32(10): 99-104.

[65]潘兴家,董子钰,李骅,等.水稻螺旋槽式排种器的设计及优化[J].江苏农业科学. 2020, 48(17): 233-239.

[64]徐苏阳,李骅,齐新丹,等.气力圆盘式胡萝卜精量排种器的设计[J].农机化研究. 2020, 42(12): 46-51.

[63]赵汝东,董桓诚,黄华,等.我国畜禽粪污肥料化利用研究现状[J].中国农机化学报. 2020, 41(05): 151-156.

[62]张佳喜,刘阿朋,李骅,等.棉花秸秆炭微波裂解生产设备研制[J].农业工程学报. 2020, 36(08): 219-225.

[61]邱威,缪佳佳,李小龙,等.果园多通道定向风送雾化装置设计与试验[J].南京农业大学学报. 2020, 43(03): 547-555.

[60]Li X, Li K, Geng C, et al. Biochar from Microwave Pyrolysis of Artemisia Slengensis: Characterization and Methylene Blue Adsorption Capacity[J]. Applied Sciences. 2019, 9(9): 1813.

[59]Xubing F, Qianhui J, Zhu M, et al. Damaging Effects of Pulsed Electric Field Process Parameters on Rhizoctonia solani Cells Using Response Surface Methodology[J]. Applied sciences. 2019, 9(9): 4706.

[58]Xiadan Q, Tong H, Hua L, et al. Physical characteristics analysis and discrete element modeling of carrot seeds[J]. International Agricultural Engineering Journal. 2019, 28(1): 237-243.

[57]尹文庆,赵璐,李骅,等.气力槽轮组合式蔬菜精密排种器吸嘴型孔设计与试验[J].农业机械学报. 2019, 50(04): 68-76.

[56]白明超,李骅,齐新丹,等.两种胡萝卜种子物理特性的测定与分析[J].江西农业学报. 2019, 31(12): 18-22.

[55]原建博,吴崇友,李骅,等.我国南方两种水稻脱出物物理特性测定与分析[J].农机化研究. 2018(02): 154-159.

[54]Li X, Li K, Li H, et al. White Poplar Microwave Pyrolysis: Heating Rate and Optimization of Biochar Yield[J]. Bioresource. 2018, 13(1): 1107-1121.

[53]Wang J, Li H, Yuan J, et al. DESIGN AND TEST OF AN ALL FEED AXIAL FLOW SAME DIAMETER DIFFERENTIAL SPEED THRESHER[J]. INMATEH - Agricultural Engineering. 2018, 54(1): 73-80.

[52]Yuan J, Wu C, Li H, et al. Movement rules and screening characteristics of rice-threshed mixture separation through a cylinder sieve[J]. Computers and Electronics in Agriculture. 2018, 154: 320-329.

[51]施新新,吴崇友,李骅,等.两种油菜收获脱出物的物理机械特性及空气动力学特性测定与分析[J].江西农业学报. 2018(06): 104-108.

[50]胡童,齐新丹,李骅,等.国内外蔬菜播种机的应用现状与研究进展[J].江西农业学报. 2018(02): 87-92.

[49]李骅,张运良,刘晓光,等.美国大学农业工程学科论文产出比较分析——以美国五所大学为例[J].中国农机化学报. 2018(09): 95-99.

[48]肖星星,李骅,吴崇友,等.基于DEM-CFD两种早稻品种圆筒筛清选过程的运动分析[J].机械设计. 2018(10): 32-37.

[47]梅占舰,李骅,齐新丹,等.砂壤土力学特性的测试与分析[J].沈阳农业大学学报. 2018(05): 605-612.

[46]原建博,李骅,吴崇友,等.基于离散单元法的水稻籽粒快速颗粒建模研究[J].南京农业大学学报. 2018, 41(6): 1151-1158.

[45]Wang J, Wu C, Li H, et al. Simulation of threshed rice mixture separation on a vibration sieve[J]. International Agricultural Engineering Journal. 2018, 27(3): 61-68.

[44]Wang Y, Xian J, Tao L, et al. Straw compression model for a straw baler machine[J]. International Agricultural Engineering Journal. 2018, 27(4).

[43]Shi X, Wu C, Li H, et al. Screening Characteristics and Paramenter Optimization of Threshed Rape Mixture Separation through a Cylindrical Sieve[J]. International Agricultural Engineering Journal. 2018, 27(4).

[42]Xiaohua W, Kunquan L, Hua L, et al. Research on China’s rural household energy consumption–Household investigation of typical counties in 8 economic zones[J]. Renewable and Sustainable Energy Reviews. 2017, 68, Part 1: 28-32.

[41]张兆同,崔天宇,李骅,等.论我国农机化发展应处理好的十个方面关系[J].农业经济. 2017(07): 3-5.

[40]贺亮,李骅.综合开发校友资源促进高校各项事业快速发展——以南京农业大学浦口校区校友会为例[J].高等农业教育. 2017(04): 60-63.

[39]Li H, Qian Y, Cao P, et al. Calculation method of surface shape feature of rice seed based on point cloud[J]. Computers and Electronics in Agriculture. 2017, 142: 416-423.

[38]Li X, Li K, Geng C, et al. An economic analysis of rice straw microwave pyrolysis for hydrogen-rich fuel gas[J]. RSC Advances. 2017(7): 53396-53400.

[37]Li H, Wang J, Yuan J, et al. Analysis of threshed rice mixture separation through vibration screen using discrete element method[J]. Internatinal Journal of Agricultural and Biological Engineering. 2017, 10(6): 231-239.

[36]Li H, Li X, Liu L, et al. Experimental study of microwave-assisted pyrolysis of rice straw for hydrogen production[J]. International Journal of Hydrogen Energy. 2016, 41(4): 2263-2267.

[35]肖星星,李骅,齐新丹,等.基于ANSYS Workbench脱粒滚筒的模态和瞬态分析[J].农机化研究. 2016(08): 46-50.

[34]王志明,吕彭民,陈霓,等.横置差速轴流脱分选系统设计与试验[J].农业机械学报. 2016(12): 53-61.

[33]王欢,李骅,尹文庆,等.基于无线传输的鸡舍环境远程监测系统[J].南京农业大学学报. 2016(01): 175-182.

[32]Li K, Cao J, Li H, et al. Nitrogen functionalized hierarchical microporous/ mesoporous carbon with a high surface area and controllable nitrogen content for enhanced lead(II) adsorption[J]. RSC Advances. 2016(6): 92186-92196.

[31]Li H, Wang J, Qian Y, et al. Parameters optimization and separation performance of cylinder screen of combine harvester[J]. International Agricultural Engineering Journal. 2016, 25(4): 131-138.

[30]Sun G, Zhang H, Ding Y, et al. Method of Measuring the Spectral Reflectance of Crop Canopy Based on Three-Dimensional Structural Analysis[J]. IFAC-PapersOnLine. 2016, 49(16): 194-198.

[29]胡燕,尹文庆,李骅,等.热辐射式秸秆炭化炉及其控制系统设计[J].浙江农业学报. 2015(01): 110-116.

[28]康建斌,李骅,缪培仁,等.水稻秸秆饲料汽爆加工工艺改进与优化[J].南京农业大学学报. 2015, 38(2): 345-349.

[27]Li H, Wang H, Yin W, et al. Development of a Remote Monitoring System for Henhouse Environment Based on IoT Technology[J]. Future Internet. 2015(7): 329-341.

[26]Li H, Li X, Liu L, et al. Pyrolysis Characteristics ans Kinetics of Phoenix Tree residues as a Potenitial Energy[J]. Journal of Chemists &Chemical Engineers of Croatia. 2015, 64(9-10): 473-480.

[25]董梅,李骅,陈秀园.浅谈高校科研经费管理存在的问题与对策[J].中小企业管理与科技(下旬刊). 2015(05): 56-57.

[24]李骅,钱燕,尹文庆,等.小型平面振动筛分装置的设计与参数优化[J].应用力学学报. 2014(02): 294-298.

[23]刘乐,凌小燕,李骅,等.生物质能源的发展研究[J].中国农机化学报. 2014(05): 195-199.

[22]李彬,高翔,孙倩,等.水稻秸秆饲料的汽爆加工工艺研究[J].南京农业大学学报. 2013(04): 127-132.

[21]蔡婷婷,王生财,李骅,等.脱:笥筒宋锢聿问牟舛ǚ治鯷J].江西农业学报. 2013(07): 105-107.

[20]李骅,张美娜,尹文庆,等.基于CFD的风筛式清选装置气流场优化[J].农业机械学报. 2013(S2): 12-16.

[19]李骅,尹文庆,何文龙.平面振动筛分装置气流场的数值模拟与试验[J].南京农业大学学报. 2013(06): 141-146.

[18]姜文荣,李骅,何文龙,等.生物质成型燃料燃烧特性的研究进展[J].中国农机化. 2012(06): 187-190.

[17]李骅,尹文庆,刘恒. 4LZ-1.0联合收割机排出物组成的测定[J].江西农业学报. 2011(09): 171-172.

[16]李骅,尹文庆,高翔,等.基于逆向工程的谷粒三维模型的构建[J].西北农林科技大学学报(自然科学版). 2011(12): 201-206.

[15]李阳,李骅.南京市新农村建设系统的实证分析研究[J].安徽农业科学. 2010(05): 2595-2598.

[14]齐新丹,李骅,李雪峰.机车空调压缩机排量检测系统的设计[J].内燃机车. 2009(03): 17-19.

[13]张倩,李骅,尹文庆,等.基于ADAMS的脱出物在气流场中的运动仿真[J].中国制造业信息化. 2008(13): 69-72.

[12]高翔,李骅.我国工厂化农业的现状与发展对策分析[J].中国农机化. 2007(02): 5-7.

[11]李骅,尹文庆.柿子热泵干制实验及其干制模型的研究[J].食品工业科技. 2007(07): 57-59.

[10]李骅,齐新丹,尹文庆.基于Web的农机统计管理系统的实现[J].计算机工程与设计. 2007(20): 5009-5011.

[9]李骅,尹文庆.基于WEB数据库的学生综合管理系统的设计[J].科教文汇(中旬刊). 2007(11): 59.

[8]李骅,尹文庆.热泵技术在农业中的应用前景分析[J].江西农业学报. 2006(04): 151-152.

[7]齐新丹,李骅,李雪峰.空调压缩机测试系统的应用[J].南京工业大学学报(自然科学版). 2006(05): 96-99.

[6]李骅,尹文庆.农业机械化综合评价指标体系的研究[J].安徽农业科学. 2006(22): 5937-5938.

[5]李骅,尹文庆,齐新丹.基于Web环境下农机统计图表的实现[J].安徽农业科学. 2005(08): 1395-1396.

[4]李骅,陈红星,陈鹏,等.农机管理信息化的现状与展望[J].农机化研究. 2004(05): 56-58.

[3]李骅,孙司正,李万英.农机统计管理系统开发中的几个技术问题[J].农机化研究. 2000(03): 106-110.

[2]李骅,齐新丹,尹文庆.农垦企业电信综合业务管理系统[J].农机化研究. 2000(04): 48-51.

[1]齐新丹,李骅,何瑞银,等.农机统计管理系统软件的开发[J].南京化工大学学报(自然科学版). 2000(06): 51-54

授权专利(知识产权):

[39]李骅,朱雪茹,王居飞,徐家良,张富嘉,胡飞,冯学斌. 一种可降温的自动开合餐厨垃圾厢(实用新型).2021年9月24日,中国,CN214268829U,IPC分类号:B65F1/00

[38]李骅,朱雪茹,王居飞,徐家良,张富嘉,胡飞,冯学斌. 一种用于餐厨垃圾桶的可降温垃圾厢(实用新型).2021年9月7日,中国,CN214139955U,IPC分类号:B65F1/14

[37]李骅,黄华,李博竑,王居飞,杨松,张富嘉. 一种槽式发酵固液分离系统排料装置(实用新型),2021年6月18日,中国,CN213475812U,IPC分类号:C05F3/06

[36]李骅,董桓诚,潘兴家,田莉,王永健,赵汝东,鲜洁宇. 一种秸秆收集、粉碎、输出一体机(实用新型),2021年3月26日,中国,CN212786693U,IPC分类号:A01D82/00

[35]李骅,钟志堂,郭文琦,王成文,白明超,吴小伟,王成力. 单行链条夹持式大蒜联合收获机(实用新型). 2020年11月03日.江苏。篊N211831902U, IPC分类号:A01D13/00

[34]吴小伟,王成文,崔军,钟志堂,李骅,王成力,庄国安,周美芝. 一种根菜类联合收获机脚手两用式收集仓(实用新型). 2020年11月03日,江苏。篊N211831913U. IPC分类号:A01D33/00

[33]崔军,王成文,吴小伟,钟志堂,李骅,庄国安,周美芝. 简易式单行大蒜联合收获机的动力传送系统(实用新型). 2020年10月30日,江苏。篊N211792935U. IPC分类号:A01D13/00

[32]李骅,田莉,潘兴家,董桓诚,王永健,赵汝东,鲜洁宇. 纸带播种覆土机(实用新型),2020年10月20日,中国, CN211702959U,IPC分类号:A01C7/18;A01C5/00

[31]李骅,王居飞,丁元庚,张富嘉,冯学斌,朱雪茹,徐家良. 一种仿生剥椰子纤维装置(实用新型),2020年3月26日,中国,CN212787341U,IPC分类号:A23N5/08

[30]李骅,钟志堂,王成文,李胜兵,白明超,王永健,丁元庚. 一种四行履带自走式大蒜联合收获机(实用新型),2020年12月1日,中国,CN212034859U,IPC分类号:A01D27/00;A01D33/00;A01D33/06

[29]王成文,李骅,王成力,钟志堂,吴小伟. 小型大蒜收获机三角型链式夹持切秧系统(实用新型). 江苏。篊N211406859U,2020年09月04日. IPC分类号:A01D23/00

[28]丁桂红,钟志堂,李骅,张钟毓,王成文,王成力. 微型大蒜联合收获机砍切式夹持切秧系统(实用新型). 2020年09月04日,江苏。篊N211406858U.IPC分类号:A01D23/00

[27]钟志堂,李骅,王成文,张钟毓,王成力. 一种根菜收获卸料装置(实用新型). 2020年09月04日,江苏。篊N211406862U.IPC分类号:A01D33/10

[26]丁桂红,王成文,钟志堂,李骅,张钟毓,张洁. 一种根菜联合收获机的排秧输送装置(实用新型). 2020年09月04日,江苏。篊N211406885U. IPC分类号:A01D57/20

[25]李骅,胡童,尹文庆,王永健,梅占舰,何于阎,李旭辉. 一种种盘与负压气室同步转动的气型组合式排种器(实用新型),2019年8月13日,中国,CN209234224U,IPC分类号:A01C7/20

[24]李骅,尹文庆,鲜洁宇,等.一种轻简型的收割机(发明). ZL 2015 1 0495320.3 2018年8月10日.IPC分类号 :A01D41/02;A01F12/44;A01F12/56;

[23]李骅,李超,陈雷,等.不同浓度菌液实时配比装置(实用新型). ZL 2017 2 1578857.7. 2018年8月7日IPC分类号:F17D1/08;F17D1/18;F17D3/01;F17D3/18;

[22]尹文庆,何于阎,李骅,李玉民,刘海马,李旭辉。一种机械气力组合式蔬菜精量排种器(实用新型),2018年6月15日,中国,ZL201721652590.1 IPC分类号:A01C7/18;A01C7/20;

[21]李骅,李坤权,刘乐,李旭辉,李红祥,刘玉涛,王效华.一种稻秆微波裂解气炭联产的方法(发明),2018年1月19日,中国,ZL 2015 1 0666605.9IPC分类号 :C10B53/02;B01J19/12;

[20]李骅,钱燕,鲜洁宇,钱有张,尹文庆,况少华,姜伟强,熊敏,黄红亮.一种田地即时的秸秆收集、粉碎、成型一体机(发明),2017年9月26日,中国,Zl 2014 1 0325261.0IPC分类号 :F16H37/12;A01D82/00;A01D45/02;

[19]李骅,钱燕,尹文庆,熊敏,钱有张,刘雨,胡飞.一种多因素可调的圆筒筛以及圆筒筛分清选装置(发明),2017年6月6日,中国,ZL201410162911.4IPC分类号 :B07B9/02;

[18]李骅、王永。煜敏、尹文庆,李坤权,刘玉涛,李旭辉。一个喂入量可调的秸秆上料机,2017年5月24日,中国,ZL 2016 2 0760553.1IPC分类号 :B65G15/28;

[17]李骅,李洪祥,朱晓敏,鲜洁宇,尹文庆,钱有张,胡飞,肖星星。后置圆筒清选小型收割机,2017年3月22日,中国,ZL 2016 2 0022030.7 IPC分类号 :A01D41/02;A01D41/12;A01F12/44;

[16]冯学斌,尹文庆,戴芳,李骅等.一种间隙精确可调的三电极气体火花开关, CN106410609A, 2017-02-15 IPC分类号 :H01T2/02;H01T1/00;

[15] 钱燕,李骅,冯学斌,尹文庆,黄天宇,黄叶琨。基于VC++的植物工厂远程监测系统V1.0(软件著作权),2016年8月16日,中国,2016SR221648

[14]李骅,朱晓敏,鲜洁宇等,纵轴流圆筒筛小型收割机(实用新型),2016年7月27日,中国,ZL 2016 2 0022053.8IPC分类号 :A01D41/02;A01D41/12;A01F12/44;

[13] 李骅,李旭辉,李坤权等,一种生物质微波裂解系统(实用新型),2016年1月13日,中国,ZL 2015 2 327752.9IPC分类号 :C10B53/02;B01J19/12;

[12]李骅,鲜洁宇,尹文庆等,一种小型谷物悬浮速度测试装置(实用新型),2015年5月18日,中国,ZL201520327751.4IPC分类号 :G01P5/00;

[11] 钱有张,李骅,鲜洁宇等,一种圆筒直径无级可调的装置(实用新型),2015年3月31日,中国,ZL201520196030.4IPC分类号 :F16C13/00;

[10]李骅,李旭辉,李坤权等,生物质燃烧特性数据管理系统V1.0(软件著作权),2014年12月,中国,2014SR186726

[9]李骅,钱燕,尹文庆等,基于VC+的汽车性能参数录入系统V1.0(软件著作权),2014年1月,中国,2014SR009901

[8]钱燕,李骅,冯学斌等,稻种三维点云成像系统V1.0(软件著作权),2014年1月,中国,2014SR005162

[7]李骅、钱燕、尹文庆等,基于VC+的稻种图像特征提取系统V1.0(软件著作权),2013年9月,中国,2013SR132644

[6]尹文庆、胡敏娟、胡飞、李骅,一种旱地穴盘苗自动取苗机构(发明),2010年5月,中国,CN101536632IPC分类号 :A01C11/02;

[5]尹文庆、张敏、胡飞、胡敏娟、李骅,旱地穴苗移栽机未端执行器(发明),2010年5月,中国,CN101569257 IPC分类号 :A01C11/02;

[4]李骅、陈建华、胡飞等,组合式开沟器(实用新型),2008年12月,中国,ZL 200820032900.4

[3]齐新丹,李骅,李雪峰,空调制冷量测试系统V1.0(软件著作权),2008年1月,中国,2008SR00067

[2]齐新丹,李骅,李雪峰.空调压缩机测试系统V1.0(软件著作权),2008年1月,中国,2008SR00068

[1]李骅,尹文庆,高翔,农业机械网上统计管理系统V1.0(软件著作权),2005年8月,中国,2005SR09543

奖励荣誉

南京农业大学优秀教育管理工作者(2013-2015)

南京农业大学“京博”奖教金



Name

Li Hua

Gender

Male

Title

Professor

Department

College of Engineering

Degree

Dr.

Telephone

+86-13951740692

E-mail

lihua@njau.edu.cn

Unit address

40#Dianjiangtai RD,Nanjing,Jiangsu Province,China

Post code

210031

Researchfield

Techniquesand EquipmentforAccurate Plantingand Harvesting;

Technology and Equipment of Biomass conversion.

Graduate Admissions

Agricultural Engineering (doctorate, academic master), Mechanical Engineering (professional master), Electronic Information (professional master); Recruitment of post-doctoral researchers in agricultural engineering

Socialappointments

Consultant of the Ministry of Agriculture Engineering Construction Center;Executive Director China Persimmon Industry Collaborative Innovation Community; Vice Chairmanof Energy Research Associationof Jiangsu Province; Executive Directorof Jiangsu Province Agricultural Engineering Society;Member of the Standing Committeeof Mountainand Hill Machinery Branchof China Agricultural Machinery Society;CommitteeMember of theTillageBranchof China Agricultural Machinery Society;Managing Directorof Associationof Farm Machinery Safetyin Jiangsu Province;Senior Memberof China Computer Federation; Senior Memberof China Agricultural Engineering Society;ASABE member;ACM member.

Research projects

[1]National KeyR&D Program Of China(2019YFC1906103):Research On Cleanly Collect And Compress Of Wet Components In Community Waste And Environmental Pollutant Control Technology (2020.1-2023.12)

[2]Projects Commissioned by the Ministry of Agriculture and Rural Affairs of China(201900183): Investigation on Prevention and Control of Agricultural Machinery Safety Accidents in East And South China(2019.12-2020.12)

[3]Demonstration And Extension Project Of Modern Agricultural Machinery Equipment And Technology In Jiangsu Province(NJ2019-17):Research OfCaterpillarSelf-PropelledGarlicCombineHarvesterAndGarlicAgronomic Studies(2019.12-2021.10)

[4]Key Projects Of Technological Innovation Of Modern Agricultural Industry In Jiangsu Province(CX(19)2007):Research On Mechanized Technology And Equipment For Accurate And Efficient Production Of Garlic(2019.7-2022.6)

[5]Projects Commissioned By Enterprises:Techniques And Equipment For Composting Large Flux Of Agricultural Waste InGroove(2019.10-2022.9)

[6]Nanjing Agricultural University-Xinjiang Agricultural University Joint Funding Project(KYYJ201804):Study On Technology Of Cotton Stalk Microwave Cracking Coke Production(2018.09-2020.09)

[7]Three New Projects Of Agricultural Machinery In Jiangsu Province:Integration And Application Of Rural Waste Treatment Mechanization Technology(2018.05-2019.06)

[8]National Key R&D Program Of China: Vegetable Intelligent Fine Production Technology And Equipment R & D(2017YFD0701300-02)

[9]Key Technology Research And Industrialization Of Bio-Organic Fertilizer Fermentation Efficiency In Jiangsu Province(SZ-YC2017002)

[10]The Prospective Study Of Industry University Research In Jiangsu Province: Key Technology Of Rice Straw Conversion To Feed By Biology And Physics Method (BY2016077-01)

[11]Key Laboratory Of Modern Agricultural Equipment In The Ministry Of Agriculture:The Research On Simulation Modeling Technology Of Combined Harvesting And Ejection Based On Discrete Element Method(201602004)

[12]The New Agricultural Project In Jiangsu Province: Research Of Rice Straw Biological Feed(SXGC[2016]313)

[13]Biomass Conversion AndProcess Integration Engineering Laboratory Of Jiangsu Province: Microwave Pyrolysis Of Rice Straw: The Optimum Process Of Gas And Carbon Yield(JPELBCP12015002)

[14]Enterprise Commissioned Project: Research On Efficient Utilization Of Rice Straw Feed(2015.12-2017.12)

[15]National Natural Science Foundation Youth Project: The Study On The Working Principle And Design Method Of Rice Harvest Sorting System(51305182)

[16]Jiangsu Agricultural Mechanization Foundation:The Design And Development Of a Light And Simple Type Of Combine-Harvester(GXY14001)

[17]KeyLaboratory Of Modern Agricultural Equipment In The Ministry Of Agriculture: TheResearch OnTheHarvest AndCleaningSeparation OfHighWetRice(201303003)

[18]Key Projects Of Independent Innovation Of Basic Scientific Research Business Fees Of Central Universities: Technology And Parameter Optimization Of Steam Blasting Treatment Of Straw Feed(KYZ201126)

[19]Three Agricultural Projects In Jiangsu Province: Mechanization Of Rice Harvesting(NJ2013-36)

[20]National Natural Science Fund Youth Project: Research On The Space-Time Evolution Simulation And Planning Support System Of Port Logistics Network(2013.3-2013.12)

[21]Project Commissioned By The Ministry Of Agriculture: Research On The Standard System Of Modern Agricultural Engineering Construction(2009.3-2010.3)

[22]Science And Technology Support Project Of Jiangsu Province: Study On Efficient Utilization Of Crop Straw Feedstock(BE2010356)

[23]Three Agricultural Projects In Jiangsu Province: Technology And Parameter Optimization Of Steam Blasting For Straw Feed(NJ2010-42)

[24]Jiangsu Science And Technology Support Program: Development And Development Of Key Technology Equipment For Rape Transplanting(BE2006302)

[25]Natural Science Foundation Of Jiangsu Province: Research On Drying Mechanism And Dry Product Quality Of Fruit Heat Pump(BK2002112)

[26]Research Fund Of Jiangsu Agricultural Machinery Bureau: Three-Dimensional Driving Curved Sieve Screening Device And Screening Performance Research(GXZ05017)

[27]Youth Science And Technology Innovation Fund Of Nanjing Agricultural University: Data Model Research And Database System Design Of Agricultural Machinery Statistical Index System(KJ03012)

Academic achievements


Selected published papers:


[1]Li X, Li K, Geng C,Li H*,et al. Biochar from Microwave Pyrolysis of Artemisia Slengensis: Characterization and Methylene Blue Adsorption Capacity. Applied Sciences, 2019,9(9):1813.SCI

[2]Li X, Li K,Li H*, et al. White Poplar Microwave Pyrolysis: Heating Rate and Optimization of Biochar Yield. Bioresource, 2018,13(1):1107-1121.SCI

[3]Yuan J, Wu C,Li H*, et al. Movement rules and screening characteristics of rice-threshed mixture separation through a cylinder sieve. Computers and Electronics in Agriculture, 2018,154:320-329.SCI

[4]Wang J, Wu C,Li H*, et al. Simulation of threshed rice mixture separation on a vibration sieve. International Agricultural Engineering Journal, 2018,27(3):61-68.EI

[5]Wang Y, Xian J, Tao L,Li H*,et al. Straw compression model for a straw baler machine. International Agricultural Engineering Journal, 2018,27(4).EI

[6]Shi X, Wu C,Li H*, et al. Screening Characteristics and Paramenter Optimization of Threshed Rape Mixture Separation through a Cylindrical Sieve. International Agricultural Engineering Journal, 2018,27(4).EI

[7]Xiaohua W, Kunquan L,Hua L, et al. Research on China’s rural household energy consumption–Household investigation of typical counties in 8 economic zones[J]. Renewable and Sustainable Energy Reviews. 2017, 68, Part 1: 28-32.SCI

[8]Li H, Qian Y, Cao P, et al. Calculation method of surface shape feature of rice seed based on point cloud[J]. Computers and Electronics in Agriculture. 2017, 142: 416-423.SCI

[9]Li X, Li K, Geng C,Li H*,et al. An economic analysis of rice straw microwave pyrolysis for hydrogen-rich fuel gas[J]. RSC Advances. 2017(7): 53396-53400.SCI

[10]Li H, Wang J, Yuan J, et al. Analysis of threshed rice mixture separation through vibration screen using discrete element method[J]. Internatinal Journal of Agricultural and Biological Engineering. 2017, 10(6): 231-239.EI

[11]Li Hua,Wang Jingshuang,Qian Youzhang,Xiong Min,Yin Wenqing,Wang Zhiming.Parameters optimization and separation performance of cylinder screen of combine harvester[J].International Agricultural Engineering Journal.2016,25(4):131-138 .EI

[12]Li H, Li X, Liu L, et al. Experimental study of microwave-assisted pyrolysis of rice straw for hydrogen production[J]. International Journal of Hydrogen Energy. 2016, 41(4): 2263-2267. SCI

[13]Hua Li,Xu-Hui Li,Le Liu,Kun-Quan Li,Xiao-Hua Wang.Pyrolysis Characteristics and Kenetics of Phoenix Tree Residues[J].Journal of Chemists &Chemical Engineers of Croatia,2015,64(9-10):473-480. EI

[14]Hua Li,Huan Wang,Wenqin Yin*,Yongwei Li,Yan Qian ,Fei Hu.Development of A Remote Monitoring System for Henhouse Environment Based on IoT Technology[J].Future Internet,2015(7):329-341. EI

[15]Li, B., Chen, K., Gao, X., Zhao, C., Shao, Q., Sun, Q.,Li, H., 2014. The use of steam explosion to increase the nutrition available from rice straw[J]. Biotechnol Appl Biochem.,2014.SCI

[16]Li, Hua; Yin, Wenqing ; Qi, Xindan..Design of Compressor Displacement Testing System for Air- conditioner,,IEEE Computer 2009(11).EI

[17]Li, H (Li, Hua); Gong, HJ (Gong, Hongju); Yin, WQ (Yin, Wenqing).Design of Simulation Strategy for Corn Cleaning on Discrete Element Method .Computer and computing technology in agriculturalII.1(293): 603-611 2009.ISTP

[18]Li, Hua; Yin, Wenqing ; Qi, Xindan. The design of farm machinery statistics management system based on network. .2008 International Seminar on Business and Information Management, ISBIM 2008.EI

[19]Xu, Dahua ;Li, Hua. Intelligent greenhouse control-system based on agent. International Conference on Intelligent Computation Technology and Automation, ICICTA 2008.EI

[20]Yuan Jianbo ; Wu Chongyou;Li Hua. Determination and Analysis of Two Kinds of Threshed Rice Physical Properties in South China[J].Agricultural Mechanization Research,2018(02):154-159.(In Chinese)

[21]HuTong ; QI Xindan;LI Hua*. Application Status and Research Progress of Vegetable Seeder in China and Foreign Countries[J].Acta Agriculturae Jiangxi,2018(02):87-92. (In Chinese)

[22]Shi Xinxn; Wu Chongyou;Li Hua. Measurement and Analysis of Physical Mechanical Properties and Aerodynamic Characteristics of Harvesting Extractions from Two Rape Varieties[J]. Acta Agriculturae Jiangxi,2018(06):104-108. (In Chinese)

[23]Li Hua; Zhang Yunliang; Liu Xiaoguang.Analysis of the published papers from the world class agricultural engineering discipline of the American universities: Take five universities in the America as an example[J].Journal of Chinese Agricultural Mechanization,2018(09):95-99. (In Chinese)

[24]XIAO Xingxing;LI Hua; WU Chongyou. Motion analysis on two early-rice varieties screened in a cylindrical sieve by means of the DEM-CFD methods[J].Journal of Mechanical Design,2018(10):32-37. (In Chinese)

[25]MEI Zhanjian;LI Hua; QI Xindan. Analysis of Mechanical Properties of Sandy Soil[J].Journal of Shenyang Agricultural University,2018(05):605-612. (In Chinese)

[26]YUAN Jianbo;LI Hua; WU Chongyou*. Study on apace particle modeling of rice grain basis on the discrete element method[J].Journal of Nanjing Agricultural University,2018,41(6):1151-1158. (In Chinese)

[27]WangHuan;LI Hua; YIN Wenqing*. Remote monitoring system for henhouse environment based on wireless transmission[J]. Journal of Nanjing Agricultural University,2016,39(1):175-182.(In Chinese)

[28]Xiao Xingxing;Li Hua; Qi Xindan. Modal and Transient Analysis of Threshing Cylinder Based on ANSYS Workbench[J].Agricultural Mechanization Research.2016(08): 46-50. (In Chinese)

[29]Wang Zhiming; Lü Pengmin; Chen Ni;Li Hua. Design and Experiment on Axial-flow Differential-speed Threshing-Separating-Cleaning Unit[J].Journal of Agricultural Machinery,2016(12): 53-61. (In Chinese)

[30]KangJianbin;LI Hua; MIAO Peiren1*. Improving and optimizing steam explosion processing technology of rice straw as feed[J].Journal of Nanjing Agricultural University,2015,38(2):345-349.(In Chinese)

[31]HuYan; YIN Wen-qing* ;LI Hua. The design of crop straw carbonization furnace and its control system[J].Acta Agriculturae Zhejiangensis,2015(01): 110-116. (In Chinese)

[32]Li Hua; Qian Yan; Yin Wenqing.Design and optimization of a small plane vibration screening device[J].Chinese journal of applied mechanics,2014(02): 294-298. (In Chinese)

[33]Liu Le; Ling Xiaoyan;Li Hua.Development research of bioenergy[J].Journal of Chinese Agricultural Mechanization,2014(05): 195-199. (In Chinese)

[34]LI Bin; GAO Xiang; SUN Qian;LI Hua. Research on steam explosion processing of rice straw feed[J].Journal of Nanjing Agricultural University,2013(04): 127-132. (In Chinese)

[35]CAI Ting ting; WANG Shengcai;LI Hua*. Determination and Analysis of Physical Parameters of Threshed Rape[J].Acta Agriculturae Jiangxi,2013(07): 105-107. (In Chinese)

[36]Li Hua; Zhang Meina; Yin Wenqing. Optimization of Airflow Field on Air-and-screen Cleaning Device Based on CFD[J]. Journal of Agricultural Machinery,2013(S2): 12-16. (In Chinese)

[37]LI Hua; YIN Wenqing* ; HE Wenlong. Simulation and test of the airflow field on the plane vibrating sieve[J].Journal of Nanjing Agricultural University,2013(06): 141-146. (In Chinese)

[38]Jiang Wenrong;Li Hua; He Wenlong. Research Progress of Biomass Briquette Fuel Combustion Characteristics[J].Chinese Agricultural Mechanization,2012(06): 187-190. (In Chinese)

[39]LI Hua; YIN Wenqing* ; LIU Heng. Test on Effluent Compositions of Combine Harvester Model 4LZ-1.0[J].Acta Agriculturae Jiangxi,2011(09): 171-172. (In Chinese)

[40]Li Hua; Yin Wenqing; Gao Xiang. Construction of three-dimensional model of grain based on reverse engineering[J].Journal of Northwest A&F University,2011(12): 201-206. (In Chinese)

[41]Li Yang;Li Hua*. Empirical Analysis Study on the Nanjing New Rural Construction System[J].Journal of Anhui Agricultural Sciense,2010(05): 2595-2598. (In Chinese)

[42]Li Hua. Design of Grain Cleaning Simulation Scheme Based on DEM[C].Daqing, Heilongjiang, China:2007.(In Chinese)

[43]Li Hua; Yin Wenqing. Study on dried experiment of persimmon heat pump and its dry model[J].Science and Technology of Food I ndustry. 2007(07): 57-59.

[44]Li Hua; Qi Xin-dan; Yin Wenqing. Realization of farm machinery statistics management system based on web database[J].Computer Engineering and Design.2007(20): 5009-5011.(In Chinese)

[45]Li Hua; Yin Wenqing. Design of Student Integrated Management System Based on WEB Database[J].Science and education.2007(11): 59. (In Chinese)

[46]Li Hua; Cao Fang; Yin Wenqing. Evaluation and Analysis of Agricultural Mechanization Development in Jiangsu Province[C].Beijing China:2006(In Chinese)

[47]Li Hua; Yin Wenqing. Applications of Heart Pump Techniques inAgriculture[J].Acta Agriculturae Jiangxi.2006(04): 151-152. (In Chinese)

[48]Li Hua; Yin Wenqing. Research about the Synthesis Appraisal Index System of the Agricultural Mechanizaton.[J]. Journal of Anhui Agri.Sci .2006 , 34(22):5937 -5938(In Chinese)

[49]Li Hua; Yin Wenqing; Qi Xindan. Realization of Farming Machine Statistical Chartin Web Environment[J].Journal of Anhui Agri.Sci.2005, 33( 8) : 1395- 1396(In Chinese)

[50]Li Hua;Chen Hong-xing; Chen Peng. Current Situation and Prospect about the MIS of Agriculture Mechanic[J].Agricultural Mechanization Research.2004(05): 56-58.(In Chinese)

[51]Li Hua; Sun Sizheng; Li Wanying. Several technical problems in the development of agricultural machinery statistical management system[J].Agricultural Mechanization Research.2000(03): 106-110. (In Chinese)

[52]Li Hua; Qi Xindan; Yin Wenqing. Agricultural enterprise telecommunication integrated business management system[J].Agricultural Mechanization Research.2000(04): 48-51. (In Chinese)

Patents:


[1]Li Hua, Li Kunquan, Li Xuhui. A method for co-production of rice straw stalk microwave cracking gas. ZL201510666605.9

[2]Li Hua, Yin Wenqing. Xian Jieyu. A lightweight and simple harvester. ZL201510495320

[3]Li Hua, Li Chao, Chen Lei. A real-time proportioning device for different concentration of bacterial liquid . ZL201721578857.7

[4]Li Hua, Qian Yan, Xian Jieyu. A field instant straw collecting, crushing and forming machine. Zl201410325261.0

[5]Li Hua, Qian Yan, Yin Wenqing. A multi-factor adjustable cylindrical sieve and cylindrical screening cleaning device.

[6]Li Hua, Wang Yongjian, Zhu Xiaomin. A straw feeding machine with adjustable feeding amount. ZL 201620760553.1

[7]Li Hua, Li Hongxiang, Zhu Xiaomin. Rear cylinder cleaning small harvester. ZL 201620022030.7

[8]Qian Yan, Li Hua, Feng Xuebin. Plant Factory Remote Monitoring System V1.0 based on VC++. 2016SR221648

[9]Li Hua, Zhu Xiaomin, Xian Jieyu. A longitudinal axial flow cylinder sieve small harvester. ZL201620022053.8

[10]Li Hua, Li Xuhui, Li Kunquan. A biomass microwave cracking system. ZL20152327752.9

[11]Qian Youzhang,Li Hua, Xian Jieyu. A stepless and adjustable diameter cylinder device. ZL201520196030.4

[12]Li Hua, Xian Jieyu, Yin Wenqing. A small suspension speed test device. ZL201520327751.4

[13]Li Hua, Xian Jieyu, Yin Wenqing. A multi-factor adjustable cylinder and cleaning selected device. ZL201420197486.8

[14]Li Hua, Xian Jieyu, Qian Yan. A real-time collection, grinding and molding straw machine. ZL201420377979.1

[15]Li Hua, Qian Yan, Yin Wenqing. Vehicle performance parameter entry system V1.0 based on VC+. 2014SR009901

[16]Li Hua, Li Xuhui, Li Kunquan. Biomass combustion characteristics data management system V1.0. 2014SR186726

[17]Qian Yan, Li Hua, Feng Xuebin. Rice seed three-dimensional point cloud imaging system V1.0. 2014SR005162\

[18]Li Hua, Qian Yan, Yin Wenqing. Rice seed image feature extraction system based on VC+ V1.0. 2013SR132644

[19]Yin Wenqing, Hu Minjuan, Hu Fei, Li Hua. A automatic seedling picking mechanism for dryland seedlings. CN101536632

[20]Yin Wenqing, Zhang Min,Hu Fei, Hu Minjuan, Li Hua. A dryland seedling transplanting machine endless actuator. CN101569257

[21]Qi Xindan, Li Hua, Li Xuefeng. Air conditioning refrigeration test system V1.0. 2008SR00067

[22]Qi Xindan, Li Hua, Li Xuefeng. Air conditioning compressor test system V1.0. 2008SR00068

[23]Li Hua, Chen Jianfei, Hu Fei. Combined opener. ZL 200820032900.4

[24]Li Hua, Yin Wenqing, Gao Xiang. Agricultural Machinery Online Statistical Management System V1.0. 2005SR09543


Reward&honor

Outstanding Educational Work Manager of Nanjing Agricultural University in 2013-2015

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