Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2012
Authors: Yang Gao, Bao Gang Liu, Jun Mu, Da Xiong Wu, Quan Tong Jiang
Preparation and Electrocatalytic Performance of Ag/Graphene Nanocomposite
Baogang Liu1, a, Jun Mu1,b, Yang Gao1,c, Quantong Jiang1,d and Daxiong wu1,e
1College of Materials Science & Engineering, Qingdao University of Science & Technology, No.53, Zhengzhou Road, Qingdao, China, 266042
abgliu0722@126.com, bachengmujun188@126.com, cyangyangsky525@163.com, djqthappyfly@163.com, edxwu100@163.com
Keywords: graphene, nanocomposite, preparation, electrocatalysis
Abstract.
Vol. 86(2000), p. 482 [3] Yang G.
A., Yang P.
Vol. 6(2007), p. 692 [8] Xu C., Wang L., Wang R., Wang K., Zhang Y., Tian F., Ding Y.
Vol. 86(2000), p. 482 [3] Yang G.
A., Yang P.
Vol. 6(2007), p. 692 [8] Xu C., Wang L., Wang R., Wang K., Zhang Y., Tian F., Ding Y.
Online since: December 2011
Authors: Kai Xiao, Xiao Hong Wang, Yang Cao, Jin Li, Wei Huang, Jin Chun Tu
Humidity Sensing Property of Mesoporous Indium Oxide
Wei Huang, Jinchun Tu *, Yang Cao, Xiaohong Wang, Jin Li and Kai Xiao
College of Materials and Chemical Engineering, Ministry of Education Key Laboratory of Application Technology of Hainan Superior Resources Chemical Materials, Hainan University, Haikou, 570228, P.
Yang, J.
Tian, X.Y.
Yang, S.
Yang, J.
Tian, X.Y.
Yang, S.
Online since: February 2011
Authors: Chun Tao Man, Tian Feng Wang, Xiao Bo Sun, Xin Xin Yang, Jia Cui
A Compensatory Fuzzy Neural Network Modeling Method Based On Particle Swarm Clustering
Man Chun-tao1,a, Wang Tian-feng1,b, Sun Xiao-bo 1,a , Yang Xin-xin2,a , Cui jia1,c
1School of Automation, Harbin University of Science and Technology, Harbin 150080
2School of Pharmacy, Liao Ning University of Traditional Chinese Medicine, Dalian 116600
aMct68@hrbust.edu.cn, bwangtianfeng1120@yahoo.com.cn, ccjlovely1314shmily@163.com
Keywords: compensatory fuzzy neural network; particle swarm clustering; adaptive rate algorithm; CHP Decomposition reaction.
[5] LI Junxin, XIANG Yang, LU Yingming, WU Shuotong.
[5] LI Junxin, XIANG Yang, LU Yingming, WU Shuotong.
Online since: December 2012
Authors: Shou Wen Ji, Zhao Zhao Yu, Ying Tian, Yang Hua Gao, Zhi Hua Zhang
Tobacco Industry Collaborating Supply Chain Research and Strategy
ZHANG Zhi-hua1, a, JI Shou-wen2,b ,YU Zhao-zhao3,c , TIAN Ying4,d and GAO Yang-hua 5,e
1NO.288, Jianguo south Road, Hangzhou, Zhejiang Province, China
2,3,4 School of Traffic and Transportation, Beijing Jiaotong University, China
azzh@zjtobacco.com, bjishouwen@126.com, c12120982@bjtu.edu.cn, d12120910@bjtu.edu.cn, eyhgao@zju.edu.cn
Keywords: tobacco; supply chain; synergy; informatization; strategy
Abstract.
International Journal of Information Management, 2011(3), 149-159 [4] Bao Liwei, Huang Yuchi, Song Jijiong and Yang Yingguang [C]. in: 1st International Symposium on Information Engineering and Electronic Commerce
International Journal of Information Management, 2011(3), 149-159 [4] Bao Liwei, Huang Yuchi, Song Jijiong and Yang Yingguang [C]. in: 1st International Symposium on Information Engineering and Electronic Commerce
Online since: September 2013
Authors: Zhong Min Wan, Jun Hua Wan, Ka Lin Su, Jing Liu, Chong Qing Huang, Zu Yi Zheng, Yi De Wang
Yang[5] investigated the vibration resource of pipe system and the solution, the virtual prototype was built by ANSYS, dynamic analysis was conducted.
Process was designed for test on vibration of pipe system using VC++ by Fan[6].Simulation was conducted and optimal design on pipes by Yang[7], displacement test results showed that the displacement decreased after optimization.
[2]Jianwei Lu, Jiuming Yang,Tianning Chen.etc: Development & Innovation of Machinery & Electrical Products, Vol. 25(2004), p.75
[5]Qian Yang: Petrochemical Industry Application, Vol. 12(2009), p. 28.5
[7]Qian Yang, Fuhai Zhao, Hejing Liu: Process Equipment & Piping, Vol. 15(2009), p.45.
Process was designed for test on vibration of pipe system using VC++ by Fan[6].Simulation was conducted and optimal design on pipes by Yang[7], displacement test results showed that the displacement decreased after optimization.
[2]Jianwei Lu, Jiuming Yang,Tianning Chen.etc: Development & Innovation of Machinery & Electrical Products, Vol. 25(2004), p.75
[5]Qian Yang: Petrochemical Industry Application, Vol. 12(2009), p. 28.5
[7]Qian Yang, Fuhai Zhao, Hejing Liu: Process Equipment & Piping, Vol. 15(2009), p.45.
Online since: August 2013
Authors: Zhan Xin Ma, Ping Ping Li, Ru Yi
R&D Efficiency of listed high-tech enterprises on the dea Assessment in wastern region
Name
2006-2007 Year
2007-2008 Year
Synthesizing
efficiency
Technical
efficiency
Scale
efficiency
Scale
Order
Synthesizing
efficiency
Technical
efficiency
Scale
efficiency
Scale
Order
Bei fang chuang ye
0.893
1.000
0.893
Increasing
6
0.996
1.000
0.996
Increasing
6
Bang gang xi tu
1.000
1.000
1.000
Constant
1
1.000
1.000
1.000
Constant
1
Chang an qi che
0.434
0.752
0.578
Increasing
24
0.565
0.688
0.820
Increasing
19
Hua bang zhi yao
0.520
1.000
0.520
Decreasing
23
0.434
1.000
0.434
Decreasing
21
Hua tian ke ji
0.671
0.917
0.732
Decreasing
14
0.258
0.318
0.810
Increasing
26
Qing hai hua ding
0.629
0.838
0.751
Increasing
19
0.844
0.929
0.909
Increasing
12
Hang tian dian qi
0.654
0.825
0.793
Decreasing
17
1.000
1.000
1.000
Constant
1
Tian kang sheng wu
0.608
0.913
0.666
Decreasing
20
0.814
1.000
0.814
Decreasing
13
Jin feng ke ji
0.739
1.000
0.739
Decreasing
9
0.856
1.000
0.856
Decreasing
10
Zhun
you gu fen 0.178 0.278 0.640 Increasing 26 0.270 0.310 0.870 Increasing 25 Bao de gu fen 0.932 1.000 0.932 Decreasing 5 1.000 1.000 1.000 Constant 1 Xi bu cai liao 0.655 0.668 0.981 Decreasing 16 0.600 0.604 0.992 Increasing 18 Jin mu gu fen 1.000 1.000 1.000 Constant 1 1.000 1.000 1.000 Constant 1 Wei shi tong 0.155 0.164 0.948 Decreasing 27 0.244 1.000 0.244 Decreasing 27 Li er hua xue 0.670 0.704 0.952 Decreasing 15 0.744 1.000 0.744 Decreasing 16 Chuan da zhi sheng 0.240 0.272 0.881 Increasing 25 0.285 0.323 0.883 Increasing 24 Dong fang dian qi 0.642 0.898 0.716 Increasing 18 0.810 0.892 0.908 Increasing 14 Hua neng ji duan 0.726 0.927 0.783 Increasing 11 0.955 1.000 0.955 Decreasing 7 Da xi yang 0.692 0.921 0.751 Increasing 12 0.951 0.967 0.984 Increasing 8 Tian ke gu fen 0.598 0.761 0.785 Increasing 21 0.771 0.808 0.954 Increasing 15 Si chuan chang hong 0.678 0.793 0.855 Increasing 13 0.852 0.859 0.992 Increasing 11 Cheng fei ji cheng 1.000 1.000 1.000 Constant 1 1.000 1.000 1.000
you gu fen 0.178 0.278 0.640 Increasing 26 0.270 0.310 0.870 Increasing 25 Bao de gu fen 0.932 1.000 0.932 Decreasing 5 1.000 1.000 1.000 Constant 1 Xi bu cai liao 0.655 0.668 0.981 Decreasing 16 0.600 0.604 0.992 Increasing 18 Jin mu gu fen 1.000 1.000 1.000 Constant 1 1.000 1.000 1.000 Constant 1 Wei shi tong 0.155 0.164 0.948 Decreasing 27 0.244 1.000 0.244 Decreasing 27 Li er hua xue 0.670 0.704 0.952 Decreasing 15 0.744 1.000 0.744 Decreasing 16 Chuan da zhi sheng 0.240 0.272 0.881 Increasing 25 0.285 0.323 0.883 Increasing 24 Dong fang dian qi 0.642 0.898 0.716 Increasing 18 0.810 0.892 0.908 Increasing 14 Hua neng ji duan 0.726 0.927 0.783 Increasing 11 0.955 1.000 0.955 Decreasing 7 Da xi yang 0.692 0.921 0.751 Increasing 12 0.951 0.967 0.984 Increasing 8 Tian ke gu fen 0.598 0.761 0.785 Increasing 21 0.771 0.808 0.954 Increasing 15 Si chuan chang hong 0.678 0.793 0.855 Increasing 13 0.852 0.859 0.992 Increasing 11 Cheng fei ji cheng 1.000 1.000 1.000 Constant 1 1.000 1.000 1.000
Online since: January 2012
Authors: Ze Lei Zhu, Zhong Xu Han, Li Jie Chen
In: Proceedings of the CSEE, vol. 23, pp. 220--224(2003)
[4] TIAN Liang, ZENG De-liang, LIU Ji-zhen and ZHAO Zheng: A simplified non-linear dynamic model of 330MW unit.
In: Proceedings of the CSEE, vol. 24, pp. 180--184(2004) [5] TIAN Liang, ZENG De-liang, LIUXin-ping and LIU Ji-zhen: A Simplified Non-Linear Dynamic Model of 500MW Unit.
In: China Electric Power, vol. 37, pp. 60--65(2004) [11] HAN Zhong-xu, Wang Yu-xue, Qu Yun, ZHANG Sheng-gang,LI Sheng-hu and CHEN Tian-ji: Application of state feedback based on IFO-K
In: Proceedings of the CSEE, vol. 24, pp. 233--237(2004) [12] HAN Zhong-xu, Qi Xiao-hong, Pan Gang, ZHOU Guang,XIANG Tian-cheng LIU Dan and YU Guang-hui: A new design method of coordinate control system for once-through boiler and its engineering application.
[19] Li Yunze, Yang Xianyong: Long-term Dynamic Model and Simulation of Steam Turbines.
In: Proceedings of the CSEE, vol. 24, pp. 180--184(2004) [5] TIAN Liang, ZENG De-liang, LIUXin-ping and LIU Ji-zhen: A Simplified Non-Linear Dynamic Model of 500MW Unit.
In: China Electric Power, vol. 37, pp. 60--65(2004) [11] HAN Zhong-xu, Wang Yu-xue, Qu Yun, ZHANG Sheng-gang,LI Sheng-hu and CHEN Tian-ji: Application of state feedback based on IFO-K
In: Proceedings of the CSEE, vol. 24, pp. 233--237(2004) [12] HAN Zhong-xu, Qi Xiao-hong, Pan Gang, ZHOU Guang,XIANG Tian-cheng LIU Dan and YU Guang-hui: A new design method of coordinate control system for once-through boiler and its engineering application.
[19] Li Yunze, Yang Xianyong: Long-term Dynamic Model and Simulation of Steam Turbines.
Online since: February 2015
Authors: Hua Song Zhao, You Wen Tian
Based on LabVIEW Three-stage Current Computer Protection Experimental System
Youwen Tian, Huasong Zhao
College of Information and Electric Engineering,Shenyang Agricultural University,Shenyang 110866,China
youwen_tian10@163.com
Keywords: virtual instrument; microcomputer protection; faults Simulation; experimental System.
References [1] Qixun Yang,Shaofeng Huang, Microcomputer-based Relay (third edition), (2007), (In Chinese)
[7] Xin Ai, Yihan Yang, Xiaoxin Zhou, Automation of Electric Power Systems, Vol.25, (2001), p.54-57, (In Chinese).
References [1] Qixun Yang,Shaofeng Huang, Microcomputer-based Relay (third edition), (2007), (In Chinese)
[7] Xin Ai, Yihan Yang, Xiaoxin Zhou, Automation of Electric Power Systems, Vol.25, (2001), p.54-57, (In Chinese).
Online since: May 2014
Authors: Xia Wang, Deng Guang Yu, Xiao Yan Li, Fa Ping Jiang, Kong Jing Deng, Zhi Du
Yang, X.
Tian, Nanotechnology 23 (2012) 105606
Yang, X.
Yang, and X.
Tian, M.
Tian, Nanotechnology 23 (2012) 105606
Yang, X.
Yang, and X.
Tian, M.
Online since: September 2012
Authors: Hui Ying Gao, Xin Bao Liu
According to three functional orientations in general enterprise information management system and daily operation security, Yang Shubin [4] developed an indicator system for information management system performance evaluation.
Tian Shang [5] constituted an indicator system for performance evaluation of enterprise information development, including information management, infrastructure, human resources, operation environment and enterprise revenue, according to the thought of system comprehensive evaluation.
[2] Yang CHENG, Jie ZHANG, Zhaorong QU.
[4] Shubin YANG.
[5] Shang TIAN, Chun LI.
Tian Shang [5] constituted an indicator system for performance evaluation of enterprise information development, including information management, infrastructure, human resources, operation environment and enterprise revenue, according to the thought of system comprehensive evaluation.
[2] Yang CHENG, Jie ZHANG, Zhaorong QU.
[4] Shubin YANG.
[5] Shang TIAN, Chun LI.