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Strengthening Sustainability in the Plastics Industry (2020)

World Bank Group

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource

Series Statement: Other papers

Keywords: Environment ; Environmental Economics and Policies ; Food and Beverage Industry ; General Manufacturing ; Industrial Economics ; Industry ; Water Supply and Sanitation

Abstract: Plastic is indispensable to modern life, so ubiquitous that it is virtually invisible. In many ways, it is an ideal material. Invented in the mid-19th century, plastic is remarkably versatile and relatively cheap to make, and it can be used as an inexpensive substitute for wood, glass, metal, and many other building and manufacturing materials. They play a vital role in driving industrial development, creating jobs, expanding opportunities, and generating wealth to improve people's lives. But as the use of plastic has increased, so too have the environmental and social costs. The production process uses petrochemicals as a raw material and generates greenhouse gas emissions. Perhaps the biggest cost is the waste generated by discarded plastic goods. Most of the common plastics of today are not fully biodegradable, and that has created a cascade of environmental, financial, and health problems around the world. Every year, eight million tons of discarded plastics make their way into the oceans. With enhanced recycling systems and better cooperation among industry, governments, and consumers, these plastics can be readily collected, reused, and turned into something of value. In the past dozen years, the plastics industry has been urged to rethink the material's entire lifecycle by developing manufacturing processes that use fewer natural resources, emit With support from the International Finance Corporation (IFC) and the private sector, the industry is embracing initiatives and investing in novel technologies that can reduce plastic's environmental footprint and provide broad economic benefits while meeting the growing demand for products made of plastic

DOI: 10.1596/37144

URL: Deutschlandweit zugänglich

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Strengthening Sustainability in the Steel Industry (2020)

World Bank Group

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource

Series Statement: Other papers

Keywords: Construction Industry ; Energy ; Energy and Environment ; Energy Consumption ; General Manufacturing ; Industry ; Natural Resources ; Renewable Energy

Abstract: People have used steel since ancient times, after blacksmiths discovered that iron became harder and stronger after being placed in charcoal furnaces. Today, steel is present in virtually every aspect of people's lives, from homes and hospitals to roads and other infrastructure that provide the foundation for social and economic development. Steel is among the world's most recycled materials, with circular economy practices incorporated into various stages of the production cycle. Yet the high-temperature heat vital to its production process still requires large amount of energy. Hence, the iron and steel sector remains among the largest consumers of energy and emitters of carbon dioxide, accounting for 6 to 7 percent of global greenhouse gas emissions.' With growing global concerns over climate change, regulators, investors, and industrial customers are increasingly pushing steelmakers to increase their sustainability by pursuing decarbonization pathways. To speed up the process will require incremental and breakthrough technologies, and the International Finance Corporation has been exploring opportunities to finance such projects and support steelmakers to become more sustainable

DOI: 10.1596/37145

URL: Deutschlandweit zugänglich

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Strengthening Sustainability in the Cement Industry (2020)

World Bank Group

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource

Series Statement: Other papers

Keywords: Construction Industry ; Energy ; Energy and Environment ; Energy and Natural Resources ; Environment ; Environment and Energy Efficiency ; Industry ; Infrastructure

Abstract: Concrete literally holds the modern world together. The material and its binding agent cement comprise a key ingredient in the buildings and roads essential for development and in infrastructure critical to sustainable growth. The cement industry also generates about seven percent of the world's greenhouse gas emissions. While manufacturers have reduced emissions in recent decades, the industry must accelerate these efforts considerably if it is to meet its goal of achieving carbon-neutral concrete by 2050. Decarbonization by the cement industry will require collaboration with policy makers, financial institutions such as the International Finance Corporation (IFC), and end users in the built environment. The complex path to achieving net-zero manufacturing underscores the challenges facing high-emissions industries as they seek to reduce their carbon footprint and build a circular economy. IFC will complement the work of investors, regulators, and end-users to help forward-thinking and innovative players along the pathways leading towards a zero carbon future

DOI: 10.1596/37140

URL: Deutschlandweit zugänglich

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Strengthening Sustainability in the Glass Industry (2020)

World Bank Group

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource

Series Statement: Other papers

Keywords: Adaptation to Climate Change ; Climate Change ; Climate Change Impacts ; Construction Industry ; Energy ; Energy and Economic Development ; Environment ; Industrial and Market Data and Reporting ; Industrial Economics ; Industry

Abstract: Glass is present in a myriad of products used in both daily life and manufacturing, from beverage containers to windows to fiber optic cables. The demand for glass is projected to continue on an upward trajectory, along with growing pressure on the industry to further reduce energy use and greenhouse gas emissions. Over the last few decades, glass manufacturers have increased their sustainability through innovation, and they are expected to continue to do so through the rollout of new technologies and processes such as carbon capture. The sector also has a key role to play in boosting sustainability in other sectors, whether through lighter glass packaging or glass fiber used for wind turbine blades. All these efforts will demand further investment in research and infrastructure, from waste-management facilities to collect and recycle end-of-life glass, to a guaranteed, steady supply of carbon-free electricity, to carbon capture transport networks and storage facilities. IFC's role will be to partner with forward-thinking and innovative players to improve their energy efficiency, lower their carbon footprint, and adopt circular economy strategies

DOI: 10.1596/37147

URL: Deutschlandweit zugänglich

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