作为脱碳和土地利用可持续战略的粮食、能源和材料综合生产系统:巴西甘蔗案例

IF 5.8 2区 生物学 Q1 AGRICULTURAL ENGINEERING
Fabio Teixeira Ferreira da Silva , Mateus Schreiner Garcez Lopes , Laura Makiko Asano , Gerd Angelkorte , Ana Karina Brambilla Costa , Alexandre Szklo , Roberto Schaeffer , Paulo Coutinho
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引用次数: 0

摘要

为实现《巴黎协定》的目标,可再生能源的使用预计将不断增加,这引起了人们对土地使用压力的关注,尤其是来自生物质系统的压力。本研究提出了 "综合食物、能源和材料系统"(IFEMS)的概念,作为优化土地使用效率以实现脱碳的一种策略。为了评估 IFEMS 和其他以可再生资源为基础的系统的土地利用效率,本研究提出了一个称为脱碳密度(DD)的新参数。对巴西典型的甘蔗综合利用系统进行了案例研究分析,结果表明,同时生产粮食、能源和材料可协同促进去碳化工作。基线情景下的估计去碳量为 20 吨 CO2e/公顷,而在创新情景下(SC-innov),去碳量上升到 145 吨 CO2e/公顷。这一增长主要源于将发酵肉的生产作为牛肉的替代品,这占 SC-innov 中 DD 值的四分之三,表明该技术在促进脱碳方面具有很大潜力。这些研究结果表明,IFEMS 可能是一种土地利用战略,其效率至少不亚于其他可再生能源系统,而且随着生物质转化技术向更复杂的系统发展,其潜力也会越来越大。然而,这些进步也提出了为不同市场整合不同产品流的挑战,这可能需要在工业生态系统中协调多个利益相关者,而不是单一行为者模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated systems for the production of food, energy and materials as a sustainable strategy for decarbonization and land use: The case of sugarcane in Brazil

The projected escalating use of renewables to meet the Paris Agreement goals has raised concerns about land-use pressures, particularly from biomass-based systems. This study introduces the concept of Integrated Food, Energy, and Materials Systems (IFEMS) as a strategy to optimize land-use efficiency for decarbonization. To evaluate the land-use efficiency of IFEMS and other renewable resource-based systems, a novel parameter termed decarbonization density (DD) is proposed, which aggregates all services that reduce GHG emissions and remove carbon from atmosphere per unit of land. A case study on an archetypical integral sugarcane utilization system in Brazil is analyzed, indicating that the simultaneous production of food, energy, and materials can synergistically aid decarbonization efforts. The estimated DD for the baseline scenario is 20 tCO2e/ha, while in the innovative scenario (SC-innov), it rises to 145 tCO2e/ha. Most of this increase stems from including the production of fermented meat as a substitute of beef, which accounts for three quarters of DD's value in SC-innov, indicating a high potential of this technology for contributing to decarbonization. These findings suggest that IFEMS may represent a land-use strategy at least as efficient as other renewable energy systems, with the potential to grow as biomass conversion technology advances into more complex systems. However, these advances also pose the challenge of integrating diverse product streams for different markets, which will likely require the coordination of multiple stakeholders within an industrial ecosystem rather than a single-actor model.

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来源期刊
Biomass & Bioenergy
Biomass & Bioenergy 工程技术-能源与燃料
CiteScore
11.50
自引率
3.30%
发文量
258
审稿时长
60 days
期刊介绍: Biomass & Bioenergy is an international journal publishing original research papers and short communications, review articles and case studies on biological resources, chemical and biological processes, and biomass products for new renewable sources of energy and materials. The scope of the journal extends to the environmental, management and economic aspects of biomass and bioenergy. Key areas covered by the journal: • Biomass: sources, energy crop production processes, genetic improvements, composition. Please note that research on these biomass subjects must be linked directly to bioenergy generation. • Biological Residues: residues/rests from agricultural production, forestry and plantations (palm, sugar etc), processing industries, and municipal sources (MSW). Papers on the use of biomass residues through innovative processes/technological novelty and/or consideration of feedstock/system sustainability (or unsustainability) are welcomed. However waste treatment processes and pollution control or mitigation which are only tangentially related to bioenergy are not in the scope of the journal, as they are more suited to publications in the environmental arena. Papers that describe conventional waste streams (ie well described in existing literature) that do not empirically address ''new'' added value from the process are not suitable for submission to the journal. • Bioenergy Processes: fermentations, thermochemical conversions, liquid and gaseous fuels, and petrochemical substitutes • Bioenergy Utilization: direct combustion, gasification, electricity production, chemical processes, and by-product remediation • Biomass and the Environment: carbon cycle, the net energy efficiency of bioenergy systems, assessment of sustainability, and biodiversity issues.
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