I. Septiariva, S. Suhardono, Lina Indawati, I. W. K. Suryawan, Agus Hari Wahyudi, Solichin Solichin
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引用次数: 0
摘要
本研究对印度尼西亚泗水 Sebelas Maret 大学的废水处理业务进行了生命周期评估(LCA),目的是系统地评估与处理过程相关的环境影响。生命周期评估是评估产品生命周期各阶段环境影响的综合方法,包括目标和范围定义、生命周期清单(LCI)、生命周期影响评估(LCIA)和解释。利用这种方法,我们的分析将环境影响分为三个重要领域:人类健康、生态系统质量和资源损耗。研究结果表明,人类健康是受影响最严重的类别,其影响达到 0.275 个残疾调整寿命年(DALY)当量单位。紧随其后的是资源损耗,为 0.193 个残疾调整生命年当量单位,而不可再生能源消耗的量化影响为 0.0214 个残疾调整生命年当量单位。针对这些影响,研究提出了若干改进策略,如采用更可持续的清洁水处理技术、通过厌氧消化收集和利用甲烷气体,以及建立二氧化碳封存绿地。这些策略旨在减少废水处理过程的环境足迹,向更可持续的管理方法迈进。
Life Cycle Environmental Implications of Wastewater Treatment at an Academic Institution
This study performs a life cycle assessment (LCA) on the wastewater treatment operations at Sebelas Maret University in Surakarta, Indonesia, with the goal of systematically evaluating the environmental impacts associated with its processes. LCA serves as a comprehensive method for assessing environmental impacts across all stages of a product’s life cycle, which includes goal and scope definition, life cycle inventory (LCI), life cycle impact as - sessment (LCIA), and interpretation. Utilizing this methodology, our analysis categorizes environmental impacts into three significant domains: human health, ecosystem quality, and resource depletion. The findings indicate that human health is the most impacted category, showing an effect of 0.275 disability-adjusted life years (DALY) -equivalent units. Resource depletion follows, measured at 0.193 DALY-equivalent units, and non-renewable en - ergy consumption is quantified at 0.0214 DALY-equivalent units. To address these impacts, the study proposes several improvement strategies, such as adopting more sustainable clean water treatment technologies, capturing and utilizing methane gas through anaerobic digestion, and establishing green spaces for CO 2 sequestration. These strategies aim to reduce the environmental footprint of the wastewater treatment process, moving towards more sustainable management practices.
期刊介绍:
- Industrial and municipal waste management - Pro-ecological technologies and products - Energy-saving technologies - Environmental landscaping - Environmental monitoring - Climate change in the environment - Sustainable development - Processing and usage of mineral resources - Recovery of valuable materials and fuels - Surface water and groundwater management - Water and wastewater treatment - Smog and air pollution prevention - Protection and reclamation of soils - Reclamation and revitalization of degraded areas - Heavy metals in the environment - Renewable energy technologies - Environmental protection of rural areas - Restoration and protection of urban environment - Prevention of noise in the environment - Environmental life-cycle assessment (LCA) - Simulations and computer modeling for the environment
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