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Online since: November 2012
Authors: Ji Jiang Ding, Tao Wu
Yin: Wetland science and management.
Zhang: Chinese Journal of Applied Ecology, 2003,14 (11): 2026-2030.
Hu, Y.Qia: Journal of ecology and Rural environment, 2008,24 (1): 24-28.
Wang: Chinese Journal of eco-Agricuulture, 2007,15 (6): 152-155.
Lu: Journal of Guangxi Normal University: Philosophy Sashimi culture, 2009,45 (4): 34-36.
Zhang: Chinese Journal of Applied Ecology, 2003,14 (11): 2026-2030.
Hu, Y.Qia: Journal of ecology and Rural environment, 2008,24 (1): 24-28.
Wang: Chinese Journal of eco-Agricuulture, 2007,15 (6): 152-155.
Lu: Journal of Guangxi Normal University: Philosophy Sashimi culture, 2009,45 (4): 34-36.
Online since: December 2013
Authors: Shaharin Anwar Sulaiman, Ibrahim Idris, Hussain Sadig
Two syngas fuels produced by different gasification methods, material and different gasification agents were used to test the system.
Gorji-Bandpy, Exergetic analysis of gas turbine plants, International Journal of Exergy. 2 (2005) 31-39
Srinivas, Exergy Analysis of Gas Turbine-Fuel cell based combined Cycle Power Plant, International Journal of Engineering Science. 3 (2011) 5227-236
Vagiona, Use of alternative fuels obtained from renewable sources in brayton cycles, Global Nest Journal. 14 (2012) 157-165
Bi, Experimental study on syngas production by co-gasification of coal and biomass in a fluidized bed, International journal of hydrogen energy. 35 (2010) 2722-2726
Gorji-Bandpy, Exergetic analysis of gas turbine plants, International Journal of Exergy. 2 (2005) 31-39
Srinivas, Exergy Analysis of Gas Turbine-Fuel cell based combined Cycle Power Plant, International Journal of Engineering Science. 3 (2011) 5227-236
Vagiona, Use of alternative fuels obtained from renewable sources in brayton cycles, Global Nest Journal. 14 (2012) 157-165
Bi, Experimental study on syngas production by co-gasification of coal and biomass in a fluidized bed, International journal of hydrogen energy. 35 (2010) 2722-2726
Online since: December 2021
Authors: Mykhaylo V. Yarmolenko
Materials Transactions. 2020;61(1):188-194.
Materials. 2020; 13(7): 1580-1593. https://doi.org/10.3390/ma13071580 [6] Kumar S, Handwerker CA, Dayananda MA.
Journal of King Saud University – Engineering Sciences. 2013; 25: 59–64. https://doi.org/10.1016/j.jksues.2011.12.001 [10] Yarmolenko MV.
Materials Transactions. 2002;43(2): 173-177. https://www.jim.or.jp/journal/e/43/02/173.html [17] Yarmolenko MV.
Bokstein, Materials Letters 257, 1265252019 (2019) (DOI:10.1016/j.matlet.2019.126525).
Materials. 2020; 13(7): 1580-1593. https://doi.org/10.3390/ma13071580 [6] Kumar S, Handwerker CA, Dayananda MA.
Journal of King Saud University – Engineering Sciences. 2013; 25: 59–64. https://doi.org/10.1016/j.jksues.2011.12.001 [10] Yarmolenko MV.
Materials Transactions. 2002;43(2): 173-177. https://www.jim.or.jp/journal/e/43/02/173.html [17] Yarmolenko MV.
Bokstein, Materials Letters 257, 1265252019 (2019) (DOI:10.1016/j.matlet.2019.126525).
Online since: October 2011
Authors: Yan Wei Li, Zhi Wei Sun, Wei Wei Song
In order to determine the bearing capacity of the existing bridge condition, fuzzy evaluation method is used to evaluate material damage degree of bridge structures, in which of experience of experts can be used sufficiently.
So, suggest that the structure material damage forms similar, dynamic consistent part is divided into substructure, from the performance of each structure changes to reflect the whole system state.
Journal of Tianjin University.
Communications Science and Technology Heilongjiang.
So, suggest that the structure material damage forms similar, dynamic consistent part is divided into substructure, from the performance of each structure changes to reflect the whole system state.
Journal of Tianjin University.
Communications Science and Technology Heilongjiang.
Research for Operation Stability of TUSB Reactor and the Feasibility in Organic Wastewater Treatment
Online since: January 2011
Authors: Dong Wei Li, Jin Liu, Xian Ping Gao
Research for Operation Stability of TUSB Reactor
and the Feasibility in Organic Wastewater Treatment
JinLiu1,2,a, Dongwei Li 1,2,3,b, Xianping Gao 4,c
1College of Resource and Environmental Science, Chongqing University,
Chongqing 400044, P.R.China
2The Key Laboratory of the Exploitation of Southwest Resources & the Environmental Hazards Control Engineering,Ministry of Education, Chongqing 400044, P.R.China
3State and local joint engineering laboratory of methane drainage in complex coal gas seam , Chongqing 400044,P.R.China
4Chongqing Solid Service&Management Centre, Chongqing 400044, P.R.China
a 417999975@163.com, b litonwei@cqu.edu.cn c gaoxianping841005@163.com
Keywords: TUSB reactor, organic wastewater, impact load, operational characteristics, removal rate
Abstract.
Experimental materials 1) Wastewater quality Using synthetic glucose wastewater, meantime urea(CO(NH2)2)and potassium dehydrogenate phosphate(KH2 PO4)were used for adjusting COD: N: P = 300:5:1, and added a small amount of trace elements to adjust influent alkalinity by sodium bicarbonate(NaHCO3)[3]. 2) Inoculation sludge The seed sludge was obtained from digesting treatment tank in Chongqing Brewery.
Beijing: China Environmental Science Press(1999) [3] Pereboom J H F.
Water Science and Techno logy, Vol. 30 (1994), p. 9221
Journal of South China University of Tech nology (Natural Scie nce Edition) Vol.30, (2002), p.67-68.
Experimental materials 1) Wastewater quality Using synthetic glucose wastewater, meantime urea(CO(NH2)2)and potassium dehydrogenate phosphate(KH2 PO4)were used for adjusting COD: N: P = 300:5:1, and added a small amount of trace elements to adjust influent alkalinity by sodium bicarbonate(NaHCO3)[3]. 2) Inoculation sludge The seed sludge was obtained from digesting treatment tank in Chongqing Brewery.
Beijing: China Environmental Science Press(1999) [3] Pereboom J H F.
Water Science and Techno logy, Vol. 30 (1994), p. 9221
Journal of South China University of Tech nology (Natural Scie nce Edition) Vol.30, (2002), p.67-68.
Online since: November 2011
Authors: Yan Zhang, Dong Guang Xiao, Cui Ying Zhang, Xi Sun, Ming Yue Wu
Effect of MIG1 gene deletion on glucose repression in Baker’s yeast
Yan Zhang1, a, Dongguang Xiao1, b, Cuiying Zhang1, c, Xi Sun1
and Mingyue Wu1
1 Key Laboratory of Industrial Fermentation Microbiology, Ministry of Education,
Tianjin Industrial Microbiology Key Laboratory, College of Biotechnology,
Tianjin University of Science and Technology, Tianjin 300457, P.R.
Materials and methods Plasmids and strains The recombinant plasmid pUC-MABK used for MIG1 deletion was constructed by the following procedure (Fig. 1).
Construction of plasmid pUC-MABK Yeast strains(BY-14a/α) and Escherichia coli strain DH5α used in this study were obtained from the Yeast Collection Center of Tianjin Industrial Microbiology Key Laboratory of Tianjin University of Science and Technology, P.R.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (31000043), Major Project of Research Program on Applied Fundamentals and Advanced Technologies of Tianjin (10JCZDJC16700).
Spencer-Martins: Journal of Applied Microbiology.
Materials and methods Plasmids and strains The recombinant plasmid pUC-MABK used for MIG1 deletion was constructed by the following procedure (Fig. 1).
Construction of plasmid pUC-MABK Yeast strains(BY-14a/α) and Escherichia coli strain DH5α used in this study were obtained from the Yeast Collection Center of Tianjin Industrial Microbiology Key Laboratory of Tianjin University of Science and Technology, P.R.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (31000043), Major Project of Research Program on Applied Fundamentals and Advanced Technologies of Tianjin (10JCZDJC16700).
Spencer-Martins: Journal of Applied Microbiology.
Online since: February 2013
Authors: Bing Yong Tang, Jian Ping Xu
The frame structure is shown in figure 2 where solid line represents material flow and dashed line represents information flow.
It can be improved by establishing the internet trading platform based on material trading.
Ecological Economy, 2009(10):91-94 [2] Tang Bingyong, Large system’s multi-channel control of supply chain harmonious operation, Journal of Natural Science of HeiLongJiang University, 2005(10):610-618 [3] Xu Jianping,, Tang Bingyong, Coordinate Developmental Model of Information Service Industry Large-scale Systems. 2007 Conference on Systems Science, Management Science and System Dynamics, vol. 8:2515-2518 [4] Tang Bingyong, multi-level Recursive program Method, System Engineering-theory Methodology and Application,1994, Vol 3, No 4:16-20 [5] Forbes McDougall, Peter White, Marina Franke, Peter Hindle.
It can be improved by establishing the internet trading platform based on material trading.
Ecological Economy, 2009(10):91-94 [2] Tang Bingyong, Large system’s multi-channel control of supply chain harmonious operation, Journal of Natural Science of HeiLongJiang University, 2005(10):610-618 [3] Xu Jianping,, Tang Bingyong, Coordinate Developmental Model of Information Service Industry Large-scale Systems. 2007 Conference on Systems Science, Management Science and System Dynamics, vol. 8:2515-2518 [4] Tang Bingyong, multi-level Recursive program Method, System Engineering-theory Methodology and Application,1994, Vol 3, No 4:16-20 [5] Forbes McDougall, Peter White, Marina Franke, Peter Hindle.
Online since: June 2014
Authors: Wei Hua Zhang, Jin Peng Yu, Li Min Zhang, Xue Fei Huang, Guan Hua Huang
In calculation the material density is 2.7e-9t/mm3, the elasticity modulus is 70000MPa, and the poisson ratio is 0.34.
(3)As modal orders increasing, the nonlinearity of material property has a different influence on the different simulation model, and shell element is much closer to the modal testing results than the solid element and mixed element.
Acknowledgements The authors are grateful for the pillar projects in the national science & technology (Grant No. 2013BAG24B02) and the important projects for the China railway corporation (Grant No. 2011J001-B) References [1] Wang Xin, Mai Yunfei.
Journal of Jiamusi University: Natural Science Edition, 2005:81-84
Beijing:Science Press,2001:29-40.
(3)As modal orders increasing, the nonlinearity of material property has a different influence on the different simulation model, and shell element is much closer to the modal testing results than the solid element and mixed element.
Acknowledgements The authors are grateful for the pillar projects in the national science & technology (Grant No. 2013BAG24B02) and the important projects for the China railway corporation (Grant No. 2011J001-B) References [1] Wang Xin, Mai Yunfei.
Journal of Jiamusi University: Natural Science Edition, 2005:81-84
Beijing:Science Press,2001:29-40.
Online since: February 2013
Authors: Fei Long, Yi Ming Yin, Bo Yan, Li Wen Wang, Kang Huai Liu
Comprehensive index analysis on water quality in Lingjian creek
Fei Long 1, a, Kanghuai Liu 1,b, Liwen Wang 1, c, Yiming Yin2, d, Bo Yan1, e
1College of Environmental Science and Engineering, Guilin University of Technology,
Guilin541004, China
2College of Marxism, Guilin University of Technology, Guilin541006, China
along.1987.f@163.com, bliukanghuai@glut.edu.cn, c541837833@qq.com, dmingming19880803@sina.com, e395134039@qq.com
Keywords: Comprehensive Pollution Index;Water Pollution; Li-river Tributary; Water Disposal
Abstract.
Materials and methods Sample collection and analysis In accordance with the( HJ /T 91-2002),In 2011, set five section and sample collection to Lingjian creek and analysis its water environment quality monitoring,including the unknown bridge section on upper reaches of the Lingjian creek is source water reserves; Middle reaches of the She San Qiao bridge section (after the city) and the middle and lower reaches of the source for bridge, GeLao bridge, and QiXia bridge section are belong to the agricultural irrigation water area.
Journal of Applied Eco logy, 2003, 40:44–50
[5] Jirui Zhu,Shuang Zheng:Combination of artificial wetland system processing Lingjian reek water pollution experiment research[J].China Science and technology ,2009,20:19-27
[8] MO Wei-ming,KANG Cai-yan,ZHOU Zhen-ming, LI Fang, LIAO Zu-he:Studies on Purificating Eutrophicated Water Body ofLingjianxi by Various Plants[J].Guangxi Sciences,2009(02): 215~218
Materials and methods Sample collection and analysis In accordance with the
Journal of Applied Eco logy, 2003, 40:44–50
[5] Jirui Zhu,Shuang Zheng:Combination of artificial wetland system processing Lingjian reek water pollution experiment research[J].China Science and technology ,2009,20:19-27
[8] MO Wei-ming,KANG Cai-yan,ZHOU Zhen-ming, LI Fang, LIAO Zu-he:Studies on Purificating Eutrophicated Water Body ofLingjianxi by Various Plants[J].Guangxi Sciences,2009(02): 215~218
Online since: August 2013
Authors: Ting Xiong, Han Hua Zhu, Shi Dong Fan
At present, although there are many articles at home and abroad researching on pipeline settling of transported medium, a majority of them are concerned with chemical materials, and few are with dredging slurry, especially with high-concentration slurry transport.
Acknowledgements This project is supported by the National Natural Science Foundation under Grant (No. 51179144) and Scientific Research Foundation of Wuhan University of Technology under Grant (No. 2012-IV-048) References [1] Cao Huiqun, Zhou Jianjun.
Journal of Sediment Research, 2011,(5):69-72 [2] Dai Dingli, He Shengbing, Chen Xuechu, Yang Fengfeng.
Particulate Science and Technology, 2011, 29 (1):89-106
Chemical Engineering Science, 2007,62: 6659–6676 [6] Xiong Ting.
Acknowledgements This project is supported by the National Natural Science Foundation under Grant (No. 51179144) and Scientific Research Foundation of Wuhan University of Technology under Grant (No. 2012-IV-048) References [1] Cao Huiqun, Zhou Jianjun.
Journal of Sediment Research, 2011,(5):69-72 [2] Dai Dingli, He Shengbing, Chen Xuechu, Yang Fengfeng.
Particulate Science and Technology, 2011, 29 (1):89-106
Chemical Engineering Science, 2007,62: 6659–6676 [6] Xiong Ting.