Using Economic Optimization to Derive Site-Specific Treatment Objectives

IF 1 4区经济学 Q3 ECONOMICS

Water Economics and Policy Pub Date : 2021-04-28 DOI:10.1142/S2382624X21400014

David J. Tamblyn

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Abstract

A procedure to estimate the economically efficient site- or system-specific treatment objective for enteric viruses in drinking water is presented. The health benefits of treatment are estimated using an existing quantitative microbiological risk assessment model for Rotavirus, which yields a reduction in burden of disease, measured in DALYs. The community’s willingness to pay for this reduced disease burden is then inferred using an estimate of the value of an avoided DALY from the literature. Economically efficient treatment occurs where the marginal cost of additional treatment equals the marginal benefit in terms of willingness to pay for avoided illness. In a case study on a small water system, capital and operating costs are estimated for four alternative treatment levels using commercially available UV disinfection systems. The case study results compare the economically efficient virus disinfection level, risk of infection, and burden of disease to international guidelines. A sensitivity analysis suggests that source water quality, population served, and the dose–response model are key inputs. Site-specific treatment objectives offer a viable alternative to prescribed national standards while respecting water safety and local autonomy.

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利用经济优化方法推导特定场地的处理目标

提出了一种评估饮用水中肠道病毒经济有效的地点或系统特异性处理目标的程序。使用现有的轮状病毒定量微生物风险评估模型来估计治疗的健康益处，从而减少了以伤残调整生命年衡量的疾病负担。然后，通过对文献中避免的DALY价值的估计来推断社区愿意为这种减少的疾病负担支付费用。当额外治疗的边际成本等于为避免的疾病支付费用的边际收益时，就会出现经济上有效的治疗。在一个小型水系统的案例研究中，估计了使用市售紫外线消毒系统的四种替代处理水平的资本和运营成本。案例研究结果将经济有效的病毒消毒水平、感染风险和疾病负担与国际准则进行了比较。敏感性分析表明，水源水质、服务人群和剂量-反应模型是关键输入。特定地点的处理目标在尊重水安全和地方自治的同时，为规定的国家标准提供了可行的替代方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Water Economics and Policy Multiple-

CiteScore

1.90

自引率

9.10%

发文量