GEP  Vol.2 No.2 , April 2014
Retrospective Environment Carrying Capacity Assessment and Comparison for Marine Reclamation
Abstract
For improving the managed level and guiding the environmental management of reclamation engineering, a synthetic assessment method based on cloud theory is applied to evaluate the environment carrying capacity of part of Tianjin Port in this paper. This retrospective assessment of carrying capacity aims to obtain the historical development situation of reclamation domain. The research is meaningful and efficient for judging the feasibility of marine reclamation.

Cite this paper
Li, M. and Zhang, J. (2014) Retrospective Environment Carrying Capacity Assessment and Comparison for Marine Reclamation. Journal of Geoscience and Environment Protection, 2, 36-41. doi: 10.4236/gep.2014.22006.
References

[1]   Chen, S. Y., & Li, Y. W. (2005). Water Quality Evaluation Based on Fuzzy Artificial Neural Network. Advances in Water Science, 16, 88-91.

[2]   Feng, L. H., Wang, J. Y., & Zhang, M. Z. (2000). Grey Clustering Evaluation of Environmental Quality. Environmental Protection Science, 26, 37-39.

[3]   Fu, B., Li, D. G., & Wang, M. K. (2011). Review and Prospect on Research of Cloud Model. Application Research of Computers, 28, 420-426.

[4]   Li, D. Y., & Du, Y. (2005). Artificial Intelligence with Uncertainty. Beijing: National Defence Industry Press.

[5]   Li, J. Z., & Liu, X. Z. (2009). The Application Research of the Theory of Uncertainty Set Pair Analysis in Seawater Eutrophication Assessment. Mathematics in Practice and Theory, 39, 84-88.

[6]   Li, M. C., Zhang, G. Y., & You, X. Y. (2010). Set Pair Analysis Method with Nonlinear Membership Function for Sea Water Quality Assessment. Journal of Hebei University of Technology, 39, 81-86.

[7]   Li, M. C., Zhang, G. Y., Si, Q., Liang, S. X., & Sun, Z. C. (2012). Synthetic Assessment Method with Cloud Theory for Marine Water Quality. 2012 International Conference on Sustainable Energy and Environmental Engineering, 298, 821-826.

[8]   Pan, F., Fu, Q., & Liang, C. (2002). Applying Fuzzy Synthesize Judgment in the Study of Water Environment Quality Evaluation. Environment Engineering, 20, 58-61.

[9]   Qian, Y. Q. (2006). Macro-Economic Social Evaluation of Water Resources Planning in Dongguang Using Fuzzy Comprehensive Evaluation Method. Zhujiang Modern Construction, 6, 1-4.

[10]   Wang, X. (2011). Comprehensive Evaluation of Water Quality Based on Application of Projection Pursuit Model. Ground Water, 33, 5-6..

 
 
Top