新出现污染物处理中高级氧化技术选择的多准则分析

Respuestas Pub Date : 2020-05-01 DOI:10.22463/0122820X.2347
F. Machuca‐Martínez, Mónica Almansa-Ortegón, Pablo César Manyoma-Velázquez
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引用次数: 3

摘要

虽然在实验室一级有关于先进氧化技术(TAOs)效率的技术资料,在某些情况下是在试点一级,很少有大规模的资料,但为一种污水选择最适当的技术并不容易,因为技术的选择取决于受污染的水的特性。本文通过应用多准则分析技术,提出了一种用于补充处理突发性污染物(CE)的TAOs规模。选择了过氧化氢(H2O2)、臭氧(O3)和Fenton (Fe/H2O2)工艺,评价标准为电能消耗(EEO)、技术成熟度、设计/运行复杂性和运行成本。AHP最推荐的技术是臭氧和过氧化氢/紫外线,在评价标准的频率上相差8.6%。对于AHP-TOPSIS方法,过氧化氢/紫外线是臭氧的关键技术,其选择频率相差31.4%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-criteria analysis for the selection of advanced oxidation technologies in the treatment of emerging pollutants
Although there is technical information on the efficiency of advanced oxidation technologies (TAOs) at the laboratory level, in some cases at the pilot level and few on a large scale, it is not easy to select the most appropriate technology for an effluent, since the selection of technology depends on the characteristics of the contaminated water. Through the application of the multicriteria analysis technique, this article proposes a scale of TAOs for the complementary treatment of water contaminated with contaminants emergent (CE). The chosen alternatives were the technologies with peroxide (H2O2), Ozone (O3) and Fenton (Fe/H2O2) processes, the evaluation criteria were electric energy consumption (EEO), technological maturity level, complexity of design / operation and cost of operation. The technology most recommended by AHP is ozone and peroxide / UV with a difference of 8.6% in the frequency in the evaluation of the criteria. For the AHP-TOPSIS methodology, peroxide / UV is the key technology over ozone with a difference of 31.4% in the frequency of selection.
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