Beyond waste-to-energy: Bioenergy can drive sustainable Australian agriculture by integrating circular economy with net zero ambitions

IF 1.2 Q4 ENGINEERING, ENVIRONMENTAL
Maja Arsic, C. O’Sullivan, A. Wasson, D. Antille, W. Clarke
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Abstract

The race to meet net zero targets by 2050, while rapidly transitioning to a circular economy (CE) within the next decade, is shaping strategic Australian sustainability policy. While the success of integrating CE concepts relies on coordinating system-wide change, policies and strategies are still evolving under the traditional silos of waste and energy management. This presents multiple barriers to critical sectors, such as agriculture, which aims to become an $AUD100 billion industry by 2030. Agri-food systems face the challenge to meet growing global food demand, expected to increase by 70% by 2050, while decreasing emissions, resource use and waste production. Agriculture plays essential push and pull roles in meeting net zero targets and in developing a truly CE. Bioenergy, a critical part of the renewable circular bioeconomy, sits at the intersection of net zero and CE by producing renewable energy and recovering bioresources from waste biomass. By integrating agricultural end-users as key stakeholders, bioenergy can shift from a waste-to-energy process to a multi-resource generating process. These policy areas could be integrated via a similar approach to the Australian National Agricultural Innovation Policy Statement, with the goal of supporting agricultural production, while reducing emissions and maximising renewable resource use efficiency.
超越废物转化为能源:生物能源可以通过将循环经济与净零目标相结合来推动澳大利亚可持续农业
到2050年实现净零目标的竞赛,同时在未来十年内迅速过渡到循环经济(CE),正在塑造澳大利亚的战略可持续发展政策。虽然整合环保概念的成功依赖于协调全系统的变革,但在废物和能源管理的传统孤岛下,政策和战略仍在不断发展。这给农业等关键部门带来了多重障碍,农业的目标是到2030年成为价值1000亿澳元的产业。农业粮食系统面临着满足日益增长的全球粮食需求的挑战,预计到2050年将增加70%,同时减少排放、资源利用和废物产生。农业在实现净零目标和发展真正的绿色能源方面发挥着重要的推动和拉动作用。生物能源是可再生循环生物经济的重要组成部分,通过生产可再生能源和从废弃生物质中回收生物资源,处于净零排放和碳排放的交叉点。通过将农业终端用户作为关键利益相关者纳入其中,生物能源可以从废物转化为能源的过程转变为多种资源的产生过程。这些政策领域可以通过与澳大利亚国家农业创新政策声明类似的方法进行整合,目标是支持农业生产,同时减少排放并最大限度地提高可再生资源的使用效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Detritus
Detritus ENGINEERING, ENVIRONMENTAL-
CiteScore
3.30
自引率
23.50%
发文量
45
审稿时长
15 weeks
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