廖内省油棕种植园生命周期评估:环境影响评价

Y S Yudha, M Biney and S D Tarigan
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引用次数: 0

摘要

棕榈油是印度尼西亚的战略商品之一,在其经济增长中发挥着至关重要的作用。多年来,随着土地面积和毛棕榈油(CPO)产量的增加,印尼的土地面积不断扩大,棕榈油鲜果(FFB)产量持续增长。印尼作为世界上最大的棕榈油生产国,其举足轻重的作用必须通过可持续发展研究,尤其是环境方面的研究来凸显。生命周期评估是一种用于评估产品、工艺和服务对环境影响的技术,涵盖从原材料提取到废物管理的整个生命周期。生命周期评估(LCA)包含各种环境影响类别,可全面了解产品或服务对生态环境的贡献。本研究评估了印度尼西亚廖内省油棕种植活动对环境的影响。研究的边界设定为油棕种植子系统内的 "从摇篮到终点 "分析。生命周期评估利用 SimaPro 9.5.0.0 软件,采用 ReCiPe 2016 方法进行。5 吨新鲜果穗(FFB)生产过程中产生的总排放量为 1634.22 千克二氧化碳当量/5 吨新鲜果穗。造成排放的主要因素是无机肥料的生产和使用。具体而言,造成温室气体排放量高的肥料类型是氯化钾,其次是磷肥和氮肥。除了全球变暖的潜在影响外,人类致癌毒性也是另一个潜在影响,主要来自施肥。这项研究的结果可以作为科学证据,用于制定可持续油棕种植园的解决方案,特别是减少温室气体排放。具有环保意识的减排方法需要细致入微的检查和精准农业的实施。这主要包括密切关注种植园的肥料使用量,推广使用碳足迹较低的肥料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Life cycle assessment of oil palm plantation in Riau province: evaluating environmental impacts
Indonesia possesses palm oil as one of its strategic commodities, and it plays a crucial role in its economic growth. Over the years, the expansion of land and the production of Fresh Fruit Bunches (FFB) of palm oil has consistently increased, accompanied by a rise in land area and crude palm oil (CPO) production. The pivotal role of Indonesia as the world’s largest palm oil producer must be highlighted through sustainability studies, especially in environmental aspects. Life cycle assessment is a technique utilized to evaluate the environmental implications of products, processes, and services, spanning their complete life cycle from the extraction of raw materials to waste management. Life Cycle Assessment (LCA) encompasses various environmental impact categories, providing a comprehensive understanding of the ecological contribution of a product or service. This research assesses the environmental impact of oil palm plantation activities in Riau province, Indonesia. The research’s boundary is set to a cradle-to-gate analysis within the oil palm plantation subsystem. The Life Cycle Assessment was conducted utilizing the SimaPro 9.5.0.0 software employing the ReCiPe 2016 method. The total emissions generated during the production process of 5 tons of Fresh Fruit Bunches (FFB) amount to 1634.22 kg CO2 eq/5 tons of FFB. The major contributors to emissions are the production and use of inorganic fertilizers. Specifically, the types of fertilizers responsible for the high greenhouse gas emissions are KCl, followed by phosphorus and nitrogen fertilizers. Besides the potential for global warming, human carcinogenic toxicity is another potential impact, primarily from fertilization. The findings in this study can serve as scientific evidence in formulating solutions for sustainable oil palm plantations, particularly in reducing greenhouse gas emissions. An environmentally conscious approach to lowering emissions requires meticulous scrutiny and implementation of precision farming. It chiefly involves keeping a close watch on the quantity of fertilizer used in plantation settings and promoting using fertilizers with lower carbon footprints.
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