论文信息 - Evaluating impact level of different factors in environmental impact assessment for incinerator plants using GM (1, N) model.

Evaluating impact level of different factors in environmental impact assessment for incinerator plants using GM (1, N) model.

In this study, the impact levels in environmental impact assessment (EIA) reports of 10 incinerator plants were quantified and discussed. The relationship between the quantified impact levels and the plant scale factors of BeiTou, LiZe, BaLi, LuTsao, RenWu, PingTung, SiJhou and HsinChu were constructed, and the impact levels of the GangShan (GS) and YongKong (YK) plants were predicted using grey model GM (1, N). Finally, the effects of plant scale factors on impact levels were evaluated using grey model GM (1, N) too. According to the predicted results of GM, the relative errors of topography/geology/soil, air quality, hydrology/water quality, solid waste, noise, terrestrial fauna/flora, aquatic fauna/flora and traffic in the GS plant were 17%, 14%, 15%, 17%, 75%, 16%, 13%, and 37%, respectively. The relative errors of the same environmental items in the YK plant were 1%, 18%, 10%, 40%, 37%, 3%, 25% and 33%, respectively. According to GM (1, N), design capacity (DC) and heat value (HV) were the plant scale factors that affected the impact levels significantly in each environmental item, and thus were the most significant plant scale factors. GM (1, N) was effective in predicting the environmental impact and analyzing the reasonableness of the impact. If there is an EIA for a new incinerator plant to be reviewed in the future, the official committee of the Taiwan EPA could review the reasonableness of impact levels in EIA reports quickly.

T Y Pai | R J Chiou | H H Wen

[1] Tzu-Yi Pai,et al. Evaluating Taiwan's air quality variation trends using grey system theory , 2007 .

[2] C. Y. Lin,et al. Grey and neural network prediction of suspended solids and chemical oxygen demand in hospital wastewater treatment plant effluent , 2007, Comput. Chem. Eng..

[3] J. Deng,et al. Introduction to Grey system theory , 1989 .

[4] R Diaz,et al. Life-cycle assessment of municipal solid wastes: development of the WASTED model. , 2006, Waste management.

[5] Fabrizio Passarini,et al. Assessment and comparison of the environmental performances of a regional incinerator network. , 2007, Waste management.

[6] Keisuke Hanaki,et al. Using grey system theory to evaluate transportation effects on air quality trends in Japan , 2007 .

[7] Keith Weitz,et al. Application of the US decision support tool for materials and waste management. , 2007, Waste management.

[8] V. S. Patel,et al. Life cycle assessment for waste management , 1996 .

[9] Wei-Zhen Lu,et al. Potential assessment of a neural network model with PCA/RBF approach for forecasting pollutant trends in Mong Kok urban air, Hong Kong. , 2004, Environmental research.

[10] Bernd Bilitewski,et al. Comparative evaluation of life cycle assessment models for solid waste management. , 2007 .