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Online since: August 2013
Authors: Xiao Ting Zhang, Xu Zhang, Kunru Ma
Application and Economic Analyses of Ice Storage
Air Conditioner in a Holiday Plaza of Shenzhen
Xu Zhanga, Kunru Mab and Xiaoting Zhangc
1 School of Civil Engineering, Hebei University of Science and Technology, Shijiazhang 050018, China
2 School of Civil Engineering, Hebei University of Science and Technology, Shijiazhang 050018, China
3 School of Civil Engineering, Hebei University of Science and Technology, Shijiazhang 050018, China
ahongzi1208@126.com, bmakunru@163.com, cboyzxt@139.com
Keywords: ice storage air conditioning load shifting the pattern of making ice
Abstract.
Introduction Ice storage named making refrigeration by using electric refrigerator, storing as ice (or other phase change materials) in the lower ebb using electric at night, then achieving ice out to release ice quantity to satisfy part or all meet the cooling demand when high air condition load exits or high use of electric exits in the day[1,2].
References [1] Fakeha Sehar, Saifur Rahman and Manisa Pipattanasomporn: Energy and Buildings Vol. 51 (2012), p. 255-262 [2] Koji Matsumoto, Yutaka Suzuki, Masashi Okada, Yoshikazu Teraoka and Tetsuo Kawagoe: International Journal of Refrigeration Vol. 29 (2006), p. 1208-1217 [3] Jian Zou: Building Energy Efficiency No. 2 (2012), p. 3-5 (in Chinese) [4] Qingzhao Niu, Jiling Li and Guangqin Wang: Building Energy & Environment No. 4 (2012), p. 83-85 (in Chinese) [5] Bingjun Feng: Shanxi science and technology No. 5 (2006), p. 122-123 (in Chinese) [6] Zhenzhen Huang: Electricity DSM No. 1 (2004), p. 52-54 (in Chinese) [7] Bin Su, Qi Qian: China Construction Heating & Refrigeration No. 6 (2004), p. 42-45 (in Chinese)
Introduction Ice storage named making refrigeration by using electric refrigerator, storing as ice (or other phase change materials) in the lower ebb using electric at night, then achieving ice out to release ice quantity to satisfy part or all meet the cooling demand when high air condition load exits or high use of electric exits in the day[1,2].
References [1] Fakeha Sehar, Saifur Rahman and Manisa Pipattanasomporn: Energy and Buildings Vol. 51 (2012), p. 255-262 [2] Koji Matsumoto, Yutaka Suzuki, Masashi Okada, Yoshikazu Teraoka and Tetsuo Kawagoe: International Journal of Refrigeration Vol. 29 (2006), p. 1208-1217 [3] Jian Zou: Building Energy Efficiency No. 2 (2012), p. 3-5 (in Chinese) [4] Qingzhao Niu, Jiling Li and Guangqin Wang: Building Energy & Environment No. 4 (2012), p. 83-85 (in Chinese) [5] Bingjun Feng: Shanxi science and technology No. 5 (2006), p. 122-123 (in Chinese) [6] Zhenzhen Huang: Electricity DSM No. 1 (2004), p. 52-54 (in Chinese) [7] Bin Su, Qi Qian: China Construction Heating & Refrigeration No. 6 (2004), p. 42-45 (in Chinese)
Online since: July 2013
Authors: Shu Tao Wang, Peng Wei Zhang, Quan Min Zhu
Acknowledgements
This work was financially supported by the Hebei Natural Science Foundation (F2010001313), the National Natural Science Foundation of China (60974115) ,the Key Project of Chinese Ministry of Education (210025), and National Natural Science Foundation of China (61201110).
Solar Energy Materials & Solar Cells, 2008, 92: 864-872 [2] G.
Journal of Lightwave Technology, 2008, 26(4): 432-440 [7] D.
Environmental Science & Technology, 2011, 45: 1926-1931
Solar Energy Materials & Solar Cells, 2008, 92: 864-872 [2] G.
Journal of Lightwave Technology, 2008, 26(4): 432-440 [7] D.
Environmental Science & Technology, 2011, 45: 1926-1931
Online since: August 2013
Authors: Wei Zhi Lv, Dun Xi Yu, Lan Lan He, Jian Qun Wu, Ming Hou Xu
Experimental
Materials.
Bryers: Progress in Energy and Combustion Science, Vol. 22(1996), p. 29-120
Boni: Progress in Energy and Combustion Science, Vol. 16(1990), p. 281-292
Wall: Progress in Energy and Combustion Science, Vol. 31(2005), p. 283-307
Liu: Journal of Engineering Thermo physics, 2013, in press (In Chinese).
Bryers: Progress in Energy and Combustion Science, Vol. 22(1996), p. 29-120
Boni: Progress in Energy and Combustion Science, Vol. 16(1990), p. 281-292
Wall: Progress in Energy and Combustion Science, Vol. 31(2005), p. 283-307
Liu: Journal of Engineering Thermo physics, 2013, in press (In Chinese).
Online since: November 2011
Authors: Gen Yin Cheng, Ming Feng Qi, Fang Wang, Jing Gang Zhang, Wen Yong Wang
Measurement and Analysis of Air Resistance on Baishan Coalmine
Genyin Cheng 1,a,Prof, Mingfeng Qi 2,b,Senior Engineer Jinggang Zhang 3,c, Lecturer Wenyong Wang 3,d and fang Wang 4,e
1Administrative office of North China Institute of Science and Technology University, Beijing 101601
2Wanbei Coal and ElectrIc Power Group Baishan Coalmine 235154
3School of Safety and Engineering, North China Institute of Science and Technology, Beijing 101601
4Beijing Municipal Institute of Labour Protection 100054
agycheng@ncist.edu.cn, cxagn@163.com, dLiuxiang-2009@163.com
Key words: Ventilation system; Point-to-point test method; Ventilation resistance;
Abstract: The test on mine ventilation system resistance is an important task of coalmine safety production and ventilation safety management, and the size of the air resistance will affect ventilation directly.
Underground transportation system used belt mainly, and also included the main shaft for hoisting coal, auxiliary shaft for lifting up and down the materials and personnel ,and east and west the two air shafts used to return air.
Coal Science and Technology, 2006 (1):54-55[In Chinese] [4] Genyin Cheng, Kai Zhu, Jianjun Shi, etc.
China Safety Science Journal, 2005,15 (9):67-72[In Chinese] [5] Zhou Chen, Enping Zhao, Zhongan Jiang etc.
Underground transportation system used belt mainly, and also included the main shaft for hoisting coal, auxiliary shaft for lifting up and down the materials and personnel ,and east and west the two air shafts used to return air.
Coal Science and Technology, 2006 (1):54-55[In Chinese] [4] Genyin Cheng, Kai Zhu, Jianjun Shi, etc.
China Safety Science Journal, 2005,15 (9):67-72[In Chinese] [5] Zhou Chen, Enping Zhao, Zhongan Jiang etc.
Online since: December 2012
Authors: Shou Feng Lu, Yan Hui Mai, Xi Min Liu
The Analysis of Characterization of Urban Traffic Congestion based on Mixed Speed Distribution of Taxi GPS data
Lu Shoufeng1,a, Mai Yanhui1,b, Liu Ximin1,2,c
1Traffic and Transportation Engineering College, Changsha University of Science and Technology
2 Key Lab of Road Structure and Material of Communication Ministry, Changsha
aitslusf@gmail.com, b351516852@qq.com, croadtrafficliu@126.com
Keywords: urban traffic, characterization of congestion, mixed speed distribution, taxi.
Acknowledgements This work was financially supported by Project supported by the National Natural Science Foundation of China (71071024, 70701006), Key Project of Changsha Bureau of Science and Technology (K1106004-11), Hunan Provincial Natural Science Foundation of China(12JJ2025), Scientific Research Fund of Hunan Provincial Education Department(09A003, 11C0038), and Scientific Research Fund of Education Ministry (145),Open Fund of Key Laboratory of Road Structure and Material of Ministry of Transport (Changsha) (kfj100206).
References [1] P.Dey, S.Chandra, S.Gangopadhaya: Journal of Transportation Engineering, Vol.132 (2006), p.475-481 [2] J.Ko, R.
Acknowledgements This work was financially supported by Project supported by the National Natural Science Foundation of China (71071024, 70701006), Key Project of Changsha Bureau of Science and Technology (K1106004-11), Hunan Provincial Natural Science Foundation of China(12JJ2025), Scientific Research Fund of Hunan Provincial Education Department(09A003, 11C0038), and Scientific Research Fund of Education Ministry (145),Open Fund of Key Laboratory of Road Structure and Material of Ministry of Transport (Changsha) (kfj100206).
References [1] P.Dey, S.Chandra, S.Gangopadhaya: Journal of Transportation Engineering, Vol.132 (2006), p.475-481 [2] J.Ko, R.
Online since: May 2012
Authors: Hui Sheng Zhuang, Xian Yin Ping
School of Environmental Science and Engineering, Shanghai Jiao Tong University, Shanghai,
200240, China
b.
East China Sea Fisheries Institute, Chinese Academy of Fisheries Science, Shanghai, 200090, China apxying@sina.com, bhuishengzhuang@126.com 1* Corresponding author: Hui-Sheng Zhuang, Professor, Doctor: School of Environmental Science and Engineering, Shanghai Jiao Tong University, Shanghai, 200240, China.
Experimental Materials.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Project No. 21177082) and Project (No. 2007.T11) supported by special research fund for the national non-profit institutes (East China Sea Fisheries Research Institute).
[5] EU Cement Directive: Directive 2003/53/EC of the European Parliament and of the Council, Official Journal of the European Union, Luxembourg, 2003
East China Sea Fisheries Institute, Chinese Academy of Fisheries Science, Shanghai, 200090, China apxying@sina.com, bhuishengzhuang@126.com 1* Corresponding author: Hui-Sheng Zhuang, Professor, Doctor: School of Environmental Science and Engineering, Shanghai Jiao Tong University, Shanghai, 200240, China.
Experimental Materials.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Project No. 21177082) and Project (No. 2007.T11) supported by special research fund for the national non-profit institutes (East China Sea Fisheries Research Institute).
[5] EU Cement Directive: Directive 2003/53/EC of the European Parliament and of the Council, Official Journal of the European Union, Luxembourg, 2003
Online since: June 2011
Authors: Hao Yuan Cai, Hui Li, Jian Hai Sun, Da Fu Cui, Lu Lu Zhang, Xing Chen
., Institute of Electronics, Chinese Academy of Sciences, Beijing, China
aemail: goldfinch1031@163.com
Key words: Surface plasmon resonance (SPR); Electrochemical (EC); flow cell; Cyclic voltammetry(CV)
Abstract: The construction and performance of a novel electrochemical (EC) surface plasmon resonance (SPR) instrument based on a mini three electrode flow cell that was designed and manufactured by MEMS technology is described.
Experimental Materials Potassium ferricyanides, KCl, CuSO4, and H2SO4 were of analytical grade quality from Beijing chemical reagents company.
Acknowledgments The authors greatly acknowledge the financial support from the National Science Foundation of China under Grant number 60701019 and 60971071.
Surface Science, 1980. 101(1-3): p. 499-506
Journal of Colloid and Interface Science, 2009. 333(2): p. 485-490
Experimental Materials Potassium ferricyanides, KCl, CuSO4, and H2SO4 were of analytical grade quality from Beijing chemical reagents company.
Acknowledgments The authors greatly acknowledge the financial support from the National Science Foundation of China under Grant number 60701019 and 60971071.
Surface Science, 1980. 101(1-3): p. 499-506
Journal of Colloid and Interface Science, 2009. 333(2): p. 485-490
Online since: February 2011
Authors: Tie Yi Zhong, Chang Yong Zhang, Ke Jian Chen, Yun Kang Gong
In the earthquake happened in Sichuan province, several important railway bridges were destroyed which made it quite difficult to transport the disaster relief goods and materials to disaster regions.
Acknowledgment This study is sponsored by the Science & Technology Research Development Project of China Railway Ministry (Grant No. 2008G010-A) and the Science & Technology Research Development Project of China Railway Ministry (Grant No. 2008G028-C).
Wu, Bidirectional Seismic Response Analysis of Railway Simple Supported Beam Bridge, China Railway Science, 28(3): 38-43, 2007
XIA, Study on Optimization of the Design Parameter of Seismic Absorption and Isolation bearing for Railway Simple Supported Beam Bridges, Journal of the China Railway Society, 28(3): 128-132, 2006
XIA, The Design Method of the Seismically Isolated Bridge by Lead Rubber Bearing Based on Energy Method, China Railway Science, 30(2): 43-48, 2009
Acknowledgment This study is sponsored by the Science & Technology Research Development Project of China Railway Ministry (Grant No. 2008G010-A) and the Science & Technology Research Development Project of China Railway Ministry (Grant No. 2008G028-C).
Wu, Bidirectional Seismic Response Analysis of Railway Simple Supported Beam Bridge, China Railway Science, 28(3): 38-43, 2007
XIA, Study on Optimization of the Design Parameter of Seismic Absorption and Isolation bearing for Railway Simple Supported Beam Bridges, Journal of the China Railway Society, 28(3): 128-132, 2006
XIA, The Design Method of the Seismically Isolated Bridge by Lead Rubber Bearing Based on Energy Method, China Railway Science, 30(2): 43-48, 2009
Online since: August 2013
Authors: Zhi Qiang Kang, Shi Yi He
Materials and methods
2.1 Geological condition and sampling sites distribution
Maolan karst primary forest is located in Guizhou Province, China.
King, Science, 303 (2004) 176-177
Wang, Earth-Science Reviews, 99 (2010) 162-172
Wu, Environmental Earth Sciences, 60 (2010) 893-899
Mook, Netherlands Journal of Sea Research, 20 (1986) 211-223
King, Science, 303 (2004) 176-177
Wang, Earth-Science Reviews, 99 (2010) 162-172
Wu, Environmental Earth Sciences, 60 (2010) 893-899
Mook, Netherlands Journal of Sea Research, 20 (1986) 211-223
Online since: July 2014
Authors: Fei Long Liu
Green Management of Tourist Attractions region under the Background of Circular Economy
Feilong Liu
School of Economics and Management Hunan Institute of Science and Technology, 414006,Yueyang, Hunan, China
E-mail:07302982@163.com
Keywords: circular economy; Tourist Attractions region; green management
Abstract.
Following the law of ecological development for all tourism economic activity,to realize feedback cycle process between resources and renewable sources(products)in the tourism resource development and tourism activities, in order to achieve the purpose of reasonable development, efficient utilization and minimum pollution, the clean production, comprehensive utilization of tourism resources, tourism, ecological design of tourism products and tourists the sustainable consumption,and to make the tourism economy system can harmoniously incorporate into the material circulation process of the tourism system in the end.[1] The basic ideas of building circular economy in Tourist Attractions region Under the guidance of the circular economy theory , the minor cycle of tourism enterprise demand we should establish a best link in the most economic objectives and the best environmental objectives, according to the concept of eco-efficiency,and by the common behavior that support the sustainable
.[2] The basic path of carrying out green management in Tourist Attractions region under the background of circular economy Firmly establish new ideas of circular economy in Tourist Attractions region Ideas guide behaviors.Circular economy developed in the tourism scenic areas set up the new system, new resource outlook, new consumption and benefit must be based on the basic theory of circular economy and tourism, and combined with the actual situation of tourism scenic spots.For example,the beneficial outlook of the traveling scenic areas require to balance the relationships between the good social benefits and ecological benefits in the development of tourism resource.In terms of economic benefits, both the development of tourism resources and a tourism investment project, must study its feasibility at the first,carefully analysis investment benefit and constantly promote the development of tourism resource and add the economic benefits of tourism project investment, which is material
[3] Lu Hong.Ethnic Village Green Management in Yunnan - Village of large bath[J].Journal of Kunming University of Science and Technology(Social Sciences). 2007 (6)82-87
Science & Technology Information. 2012 (3)69-71
Following the law of ecological development for all tourism economic activity,to realize feedback cycle process between resources and renewable sources(products)in the tourism resource development and tourism activities, in order to achieve the purpose of reasonable development, efficient utilization and minimum pollution, the clean production, comprehensive utilization of tourism resources, tourism, ecological design of tourism products and tourists the sustainable consumption,and to make the tourism economy system can harmoniously incorporate into the material circulation process of the tourism system in the end.[1] The basic ideas of building circular economy in Tourist Attractions region Under the guidance of the circular economy theory , the minor cycle of tourism enterprise demand we should establish a best link in the most economic objectives and the best environmental objectives, according to the concept of eco-efficiency,and by the common behavior that support the sustainable
.[2] The basic path of carrying out green management in Tourist Attractions region under the background of circular economy Firmly establish new ideas of circular economy in Tourist Attractions region Ideas guide behaviors.Circular economy developed in the tourism scenic areas set up the new system, new resource outlook, new consumption and benefit must be based on the basic theory of circular economy and tourism, and combined with the actual situation of tourism scenic spots.For example,the beneficial outlook of the traveling scenic areas require to balance the relationships between the good social benefits and ecological benefits in the development of tourism resource.In terms of economic benefits, both the development of tourism resources and a tourism investment project, must study its feasibility at the first,carefully analysis investment benefit and constantly promote the development of tourism resource and add the economic benefits of tourism project investment, which is material
[3] Lu Hong.Ethnic Village Green Management in Yunnan - Village of large bath[J].Journal of Kunming University of Science and Technology(Social Sciences). 2007 (6)82-87
Science & Technology Information. 2012 (3)69-71