基于生命周期评估的国防水瓶设计分析

Pub Date : 2023-03-13 DOI:10.14429/dsj.73.18341
Vidya Shanker Pandey, A. Agrawal, A. Dubey
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引用次数: 1

摘要

本文介绍了国防产品可持续发展的生命周期评估方法的成功实施。从环境负担的角度对该产品的备选设计进行了评估。考虑的产品是军队在锡亚琴冰川等地方使用的水瓶,那里的环境因素非常令人担忧。从环境退化的角度出发,利用SimaPro软件上的生命周期影响评估(LCA)和生命周期影响评估(LCIA)方法,对现有三种瓶子类型的每个组件和瓶子整体的适用性进行了分析。利用该软件进行了不确定性分析,并对合理的置信度进行了蒙特卡罗模拟。与第一次设计相比,新设计的环境负担减少了82.62%,是环境负担最小的设计。为了进一步提高环境性能,通过进行组件水平分析,再次审查最佳设计,以确定功能相同但环境影响较小的可行替代材料。它建议在拟议的设计中改用低冲击材料制作瓶盖和瓶盖。采用改变后的材料,环境性能比最佳设计提高了10.61%,比最早设计提高了84.46%。
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Life Cycle Assessment Based Analysis of Water Bottle Designs for Defence Application
This paper presents the successful implementation of the Life Cycle Assessment (LCA) approach for the sustainable development of a defence product.  Alternative designs of this product are evaluated from the environmental burden perspective.  The products considered are water bottles used by the armed forces in places like the Siachen glacier, where the environmental factors are of great concern.  From the environmental degradation perspective, the suitability of three existing bottle types has been analysed using LCA and Life Cycle Impact Assessment (LCIA) approaches on SimaPro software for each of its components and the bottle as a whole.  Using this software, uncertainty analysis has also been carried out by conducting a Monte Carlo simulation for a reasonable confidence level.  The latest design was found to have the least environmental burden, being 82.62% less compared to the first design.  To augment the environmental performance further, the best design was again reviewed by carrying out component level analysis to identify feasible alternative materials that would be functionally equivalent but with lower environmental impact.  It suggested switching to lower impact material for the cap and cap cover for the proposed design.  With the adoption of the changed material, the environmental performance improved by 10.61 % as compared to the best design and 84.46 % compared to the earliest design. 
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