Regional impacts on air quality and health of changing a manufacturing facility's grid-boiler to a combined heat and power system.

IF 2.1 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Elaheh Safaei Kouchaksaraei, Ali Khosravani Semnani, Kody M Powell, Kerry E Kelly
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引用次数: 0

Abstract

Poor air quality is linked to numerous adverse health effects including strokes, heart attacks, and premature death. Improving energy efficiency in the industrial sector reduces air emissions and yields health benefits. One of these strategies, replacing an existing grid boiler (GB) with a combined heat and power (CHP) system, can improve a facility's energy efficiency but can also increase local air emissions, which in turn can affect health outcomes. Previous studies have considered air-emissions and health outcomes of CHP system installation at a single location, but few studies have investigated the regional air quality and health impacts of replacing an existing GB with new CHP system. This study estimates the emission changes and associated health impacts of this shift in 14 regions in the US, representing different electricity generation profiles. It assumes that one manufacturing facility in each region switches from an existing GB to a CHP system. The monetized annual US health benefits of shifting a single GB to a CHP in each of the 14 regions range from $-5.3 to 0.55 million (2022 USD), while including CHP emission control increases the benefits by 100-170% ($9,000 to 1.15 million (2022 USD)). This study also includes a sensitivity analysis, which suggests that the facility location (region, state, and county), boiler efficiency, and emission control of the CHP are key factors that would determine whether shifting from a GB to CHP system would result in health benefits or burdens.Implications: Combined heat and power (CHP) systems offer industrial facilities the opportunity to improve their energy efficiency and reduce greenhouse gas emissions. However, CHP systems also combust more fuel on site and can also increase local air emissions. This study evaluates how converting an existing grid boiler (GB) system to a CHP system (with or without emission control) affects local (from combustion) and regional emissions (from electricity consumption) and the associated health burdens in different US regions. A facility can use this study's analysis as an example for estimating the tradeoffs between local emission changes, regional emission changes, and health effects. It also provides a comparison between the incremental cost of adding SCR (compared to uncontrolled CHPs) and the NPV of the monetized health benefits associated with adding the SCR.

将生产设施的电网锅炉改为热电联产系统对空气质量和健康的区域影响。
空气质量差与许多不良健康影响有关,包括中风、心脏病发作和过早死亡。提高工业部门的能源效率可以减少空气排放并有益于健康。其中一种策略,用热电联产系统取代现有的电网锅炉,可以提高设施的能源效率,但也可以增加当地的空气排放,这反过来会影响健康结果。先前的研究考虑了在单个地点安装热电联产系统的空气排放和健康结果,但很少有研究调查用新的热电联产系统取代现有GB对区域空气质量和健康的影响。这项研究估计了美国14个地区的排放变化和相关的健康影响,代表了不同的发电情况。它假设每个地区的一个生产设施从现有的GB系统切换到CHP系统。在14个地区中的每一个地区,将单一GB转移到CHP的货币化年度美国健康效益从-530万美元到55万美元(2022美元)不等,而包括CHP排放控制将使效益增加100-70%(9000万美元到115万美元(2021美元))。这项研究还包括一项敏感性分析,该分析表明,设施位置(地区、州和县)、锅炉效率和热电联产的排放控制是决定从GB系统转向热电联产系统是否会带来健康益处或负担的关键因素。影响:热电联产系统为工业设施提供了提高能源效率和减少温室气体排放的机会。然而,热电联产系统也会在现场燃烧更多的燃料,也会增加当地的空气排放。本研究评估了将现有的电网锅炉(GB)系统转换为热电联产系统(有或没有排放控制)如何影响当地(燃烧产生的)和地区(电力消耗产生的)排放,以及美国不同地区的相关健康负担。设施可以以本研究的分析为例,估计当地排放变化、区域排放变化和健康影响之间的权衡。它还提供了添加SCR的增量成本(与不受控制的CHP相比)和与添加SCR相关的货币化健康效益的NPV之间的比较。
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来源期刊
Journal of the Air & Waste Management Association
Journal of the Air & Waste Management Association ENGINEERING, ENVIRONMENTAL-ENVIRONMENTAL SCIENCES
CiteScore
5.00
自引率
3.70%
发文量
95
审稿时长
3 months
期刊介绍: The Journal of the Air & Waste Management Association (J&AWMA) is one of the oldest continuously published, peer-reviewed, technical environmental journals in the world. First published in 1951 under the name Air Repair, J&AWMA is intended to serve those occupationally involved in air pollution control and waste management through the publication of timely and reliable information.
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