Evaluation of flue-gas treatment technologies for municipal waste incineration: A case study in Changzhou, China

Abstract With increasing trends in using municipal waste incineration(MWI) technologies, more consideration has been given to the problem of harmful byproducts in its flue. In 2014, a new national standard for pollution control of municipal solid waste incinerationwas released by the Chinese government, which also gives guidance to local governments to establish their own standards. In order to evaluate whether the treatment technologies for MWI flue gas can both meet the new standard and have overall positive environmental impacts across whole life cycle, a waste life cycle assessment (LCA) was conducted for flue gas to compare treatment technologies employed in MWI plants. Based on a case study of a plant in Changzhou China, a model was established using three combinations of technologies: (a) Spray semi dry reactor + activated carbon+ filterbag (Scenario 1); (b) Spray semi dry reactor + dry deacidification reactor + activated carbon+ filterbag (Scenario 2); (c) selective non-catalytic reduction(SNCR) + spray semi dry reactor + dry deacidification reactor + activated carbon+ filterbag (Scenario 3). The study has wide policy implications on how the industry is, or should be, regulated. Normalized results revealed that technologies used in Scenarios 1 and 2 had less overall impacts on the environment and less direct impact from emissions than those of Scenario 3. Energy-conservation and emission reduction index showed that Scenario 2 best fits current conditions and policy goals about energy consumption and air pollutant emission, despite recent regulations for the requirement of including SNCR in incinerationplants. The most significant limiting factor is NO x , which is in alignment with the results of policy analysis. Integrated analysis showed that although Scenario 2 is the best choice under current circumstances, further improvement in technology are likely to meet with new standards. Policy-makers should comprehensively consider the environmental impacts of the entire life cycle instead of the one-size-fits all standard.