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61,005 resultsShowing papers similar to Defossilizing Chemical Industry as an Integrated Solution for Indonesia's Climate and Pandemic Crisis
ClearPersistent Organic Pollutants (POPs) in Indonesia
This book chapter reviews the presence and management of persistent organic pollutants (POPs) in Indonesia as part of a broader post-pandemic environmental recovery framework that also encompasses microplastic pollution, membrane technology, and biochar industries. Researchers examined how Indonesia's existing regulatory and remediation infrastructure for POPs intersects with emerging plastic pollution challenges.
Environment and Technology as the Foundation of Indonesia’s Sustainable Development
This book chapter examines environment and technology as foundational pillars of Indonesia's sustainable development following the COVID-19 pandemic, covering topics from microplastics and persistent organic pollutants to smart food systems and digital governance. The chapter provides an overarching framework for the 19-chapter volume addressing Indonesia's post-pandemic recovery trajectory.
The Integrated Biochar Industry for Indonesian Rural Area Households: Study case on Forest Biomas and Carbon Sequestration
This book chapter examines an integrated biochar industry model for Indonesian rural households, focusing on forest biomass utilization and carbon sequestration as part of a broader post-pandemic environmental recovery strategy. The study situates biochar production within a multi-sector framework also addressing microplastics, persistent organic pollutants, and circular economy principles.
Defossilising fuels and chemicals – a systemic analysis from feedstock and technology, to hurdles and enablers
A systemic analysis examined the pathways and challenges of replacing fossil-derived fuels and chemicals with bio-based alternatives, highlighting trade-offs in sustainability and scalability. The work is relevant to reducing the fossil-plastic pipeline that drives ongoing microplastic pollution.
Carbon for Chemicals:How can biomass contribute to the defossilisation of the chemicals sector?
This study examines how biomass feedstocks can contribute to defossilising the chemicals sector, analyzing pathways for replacing fossil-derived carbon with bio-based carbon in chemical manufacturing processes.
Global Plastic Industry Transition Addressing Key Drivers of the Triple Planetary Crisis
Researchers modelled global and regional transition scenarios for the plastic industry, integrating strategies to reduce fossil fuel dependence and shift to circular production models. They found that addressing plastic pollution, climate change, and biodiversity loss simultaneously requires a coordinated policy package across the full plastic value chain.
Conclusions and General Recommendations Regarding Environment and Technology as the Foundation for National Development
This concluding book chapter synthesizes recommendations on environment and technology as foundations for Indonesia's sustainable national development following the COVID-19 pandemic, covering topics from microplastics and persistent organic pollutants to smart food supply chains and digital governance. Researchers compiled insights across 19 chapters addressing waste management, membrane technology, biochar, food security, and public services.
The Road towards a Resilient Base Petrochemical Industry in Indonesia: A Transformative Scenario Planning Approach
Researchers applied transformative scenario planning to analyze pathways toward a resilient base petrochemical industry in Indonesia, examining how this strategically important sector can adapt amid global shifts in energy, materials, and sustainability demands. The study develops scenarios that account for the petrochemical industry's deep integration into modern society while mapping options for long-term competitiveness and reduced environmental impact.
Indonesia Post-Pandemic Outlook: Environment and Technology Role for Indonesia Development
This edited volume compiles research from Indonesian scholars examining the role of environment and technology in Indonesia's post-pandemic development, organized into four sections covering disaster and greening management, smart agriculture, environmental monitoring, and sustainable technology. The book addresses how COVID-19 disrupted Indonesian society and explores recovery strategies across multiple sectors including food supply chains, transportation, soil erosion, heavy metal remediation, and microplastic pollution.
Establishing Knowledge Management System to Support the Education System
This book chapter examines Indonesia's post-pandemic recovery, covering topics including environment and technology issues such as waste management, membrane technology, persistent organic pollutants, and microplastics alongside food security and public service development. The volume compiles 19 chapters spanning disaster management, greening strategies, biochar industry, and smart packaging as part of a broader framework for national development after COVID-19.
The Use and Potential of Membrane Technology for Wastewater Treatment in Post-COVID-19 Pandemic
This review examines the use and potential of membrane technology for wastewater treatment in the context of Indonesia's post-COVID-19 recovery, positioning it alongside other pollution management approaches including microplastic control and textile dye remediation. Researchers found membrane technology to be a promising component of an integrated post-pandemic waste and pollution management strategy for Indonesia.
Impacts of Textile Dyes on Health and the Environment and Its Remediation
This book chapter examines the health and environmental impacts of textile dyes and reviews remediation strategies as part of Indonesia's post-pandemic waste and pollution management development. The chapter situates textile dye remediation alongside membrane technology, biochar industry, and microplastic management within a broader national development outlook.
The Existence of Microplastics as an Emerging Concern in Daily Routines and the Implications of Global Mitigation Efforts
This chapter examines the emergence of microplastics as a growing concern embedded in daily human routines and evaluates global mitigation efforts underway to address this pervasive pollutant. Contributing to an Indonesian post-pandemic outlook volume, the piece situates microplastic pollution within broader environmental governance challenges and assesses the adequacy of current international and national response strategies.
Utilizing The Potential of Coastal Sand Marginal Land Resources in The Framework to Improve Food Security Post-COVID-19 Pandemic in Indonesia
This book chapter investigates the potential of coastal sand marginal land resources for improving food security in Indonesia during the post-COVID-19 recovery period, as part of a broader framework also addressing microplastic pollution and environmental management. Researchers examined how underutilized coastal land could be mobilized to support agricultural resilience alongside environmental sustainability goals.
Electronic Health Record
This book chapter introduces electronic health record systems within a broader Indonesian post-pandemic policy framework that also addresses environmental challenges including microplastics, persistent organic pollutants, and waste management technologies. The chapter is part of a multi-disciplinary volume exploring environment and technology as foundations for Indonesia's sustainable development.
Remediation of Heavy Metals Polluted Soils in Indonesia
This chapter reviews remediation approaches for heavy metal-polluted soils in Indonesia, examining the landscape of contamination sources and the effectiveness of available treatment technologies. The review contributes to a broader edited volume on environmental challenges facing Indonesia's post-pandemic recovery, situating heavy metal soil pollution within the country's wider environmental management priorities.
Chemicals management approach to sustainable development of materials
This review examines how chemicals management approaches must evolve for sustainable materials development, arguing that planetary boundaries and path-dependent industrial trajectories require rethinking how chemicals including plastics are produced and regulated.
An anthropocene-framed transdisciplinary dialog at the chemistry-energy nexus
Researchers analyzed key molecules at the chemistry-energy nexus, including carbon dioxide, hydrogen, methane, ammonia, and synthetic polymers, within the planetary boundary framework. The study suggests that the energy transition will require major shifts in how these molecules are produced and used, with implications for reducing plastic pollution and other environmental impacts tied to the chemical industry.
Chemistry and materials science for a sustainable circular polymeric economy
Researchers reflected on the fundamental chemistry challenges limiting a circular plastic economy — including the sheer variety of polymer types, contamination during use, and imperfect recycling — and argued that solving plastic pollution requires both chemical innovation and systemic non-chemical interventions.
A multidisciplinary perspective on the role of plastic pollution in the triple planetary crisis.
This perspective paper argues that plastics are a central driver of all three dimensions of the planetary crisis — pollution, climate change, and biodiversity loss — and must be addressed with the same urgency as carbon emissions. The authors call for a multidisciplinary approach that recognizes plastics as a systemic environmental threat rather than a siloed waste management issue.
Chemistry must respond to the crisis of transgression of planetary boundaries
This paper argued that chemistry as a discipline must urgently respond to the transgression of planetary boundaries, including those related to chemical pollution. The study outlined three steps: understanding the threats from a chemistry perspective, developing sustainable solutions through innovation, and transforming chemistry education and industry toward sustainability and circularity.
Smart Food Supply Chain: Recommendations after COVID-19 Pandemic in Agricultural Industry
This chapter examines recommendations for smart food supply chain transformation in Indonesia's agricultural industry following the COVID-19 pandemic, drawing on lessons about supply chain resilience exposed by the pandemic's disruptions. The piece is part of a broader edited volume exploring how technology and environmental management can support Indonesia's post-pandemic development across agriculture, transportation, soil management, and related sectors.
Nature-Based Solution and Regenerative Circular System Design towards Agricultural Land Management Bioremediation: A Review
This review examines nature-based solutions and regenerative circular system design as approaches to agricultural land bioremediation in the context of Indonesia's post-pandemic recovery, situating them within a broader framework that also addresses microplastic pollution and other environmental stressors. Researchers found that integrating circular economy principles with ecological restoration strategies offers promise for sustainable agricultural land management.
Strategies and technologies for sustainable plastic waste treatment and recycling
This review covers current and emerging methods for recycling and treating plastic waste to reduce environmental pollution. The authors emphasize that improperly managed plastics break down into microplastics that contaminate ecosystems, and they evaluate strategies including chemical recycling, biodegradation, and energy recovery as more sustainable alternatives to landfilling.