Greenhouse gas emission implications of small-scale sugarcane farmers’ trash management practices: A case for bioenergy production in South Africa

IF 8 Q1 ENERGY & FUELS Energy nexus Pub Date : 2024-06-03 DOI:10.1016/j.nexus.2024.100308
Unity Chipfupa, Aluwani Tagwi
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引用次数: 0

Abstract

Sugarcane trash is a source of biomass available for energy generation. However, this potential has not been explored in the South African small-scale sugarcane sector. The current trash management practices of farmers, especially, pre-harvest burning, have huge negative environmental implications. Sustainable management of sugarcane trash could help address several challenges in the sugarcane industry including the high cost of irrigation. Therefore, this study is meant to assess small-scale growers’ trash management practices and their implications on greenhouse gas emissions. It also ascertains the potential for using sugarcane trash in the co-generation of electricity. The study was conducted in two communities in KwaZulu-Natal and Mpumalanga provinces with 330 small-scale farmers. A probit regression was used to determine factors that influence farmers’ trash management practices. Other analyses such as estimations of the amount of available trash, burning emissions and potential energy from sugarcane were informed by previous studies. The findings showed that pre-burning of sugarcane is a common practice among smallholder producers in South Africa. However, some farmers have attempted to move away from this practice opting to leave their sugarcane in the field or use it for compost. The farmers’ burning of sugarcane releases an estimated 0.08 tCO2-e per ha into the atmosphere. In total, the estimated greenhouse gas emissions from sugarcane burning of all small-scale growers in the two provinces are 725 tCO2-e per annum. The findings also revealed that having more land, poor endowment with psychological capital, lack of access to extension, limited resources, and working in silos compound the practice of burning sugarcane. The estimated energy potential from small-scale sugarcane producers in the country, using a 50 % recovery efficiency and 36 % energy conversion efficiency is 150,323.3 MWh. The study proposes several recommendations for improving trash management practices and initiating the co-generation of electricity from trash in the small-scale sugarcane industry.

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小规模蔗农的垃圾管理方法对温室气体排放的影响:南非生物能源生产案例
甘蔗垃圾是一种可用于发电的生物质能源。然而,南非的小型甘蔗行业尚未开发出这一潜力。农民目前的垃圾管理方法,尤其是收割前的焚烧,对环境产生了巨大的负面影响。甘蔗垃圾的可持续管理有助于解决甘蔗产业面临的若干挑战,包括高昂的灌溉成本。因此,本研究旨在评估小规模种植者的垃圾管理方法及其对温室气体排放的影响。研究还确定了利用甘蔗垃圾进行联合发电的潜力。研究在夸祖鲁-纳塔尔省和姆普马兰加省的两个社区进行,共有 330 名小型农户参加。采用 probit 回归法确定影响农民垃圾管理方法的因素。其他分析,如对可用垃圾量、焚烧排放物和甘蔗潜在能量的估计,均参考了以往的研究。研究结果表明,预先焚烧甘蔗是南非小农生产者的普遍做法。然而,一些农民试图放弃这种做法,选择将甘蔗留在田里或用作堆肥。农民焚烧甘蔗估计每公顷向大气排放 0.08 吨 CO2-e。总之,两省所有小规模种植者焚烧甘蔗产生的温室气体排放量估计为每年 725 吨 CO2-e。研究结果还显示,拥有较多土地、心理资本贫乏、缺乏推广机会、资源有限以及在筒仓中工作等因素加剧了焚烧甘蔗的做法。根据 50% 的回收效率和 36% 的能源转换效率估算,该国小型甘蔗生产商的能源潜力为 150,323.3 兆瓦时。该研究提出了几项建议,以改进小型甘蔗产业的垃圾管理方法,并启动垃圾发电。
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来源期刊
Energy nexus
Energy nexus Energy (General), Ecological Modelling, Renewable Energy, Sustainability and the Environment, Water Science and Technology, Agricultural and Biological Sciences (General)
CiteScore
7.70
自引率
0.00%
发文量
0
审稿时长
109 days
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