Industry holds an indispensable relationship with the Sustainable Development Goals (SDGs) formulated by the United Nations, illuminating the fact that sustainable industrial development plays a vital role in achieving these global objectives. Industry, particularly manufacturing, serves as a critical driver for economic growth, employment, and technological advancement. SDG 9, specifically, underlines the importance of industry, innovation, and infrastructure, underscoring the need for resilient infrastructure, inclusive and sustainable industrialization, and fostering innovation. However, the intricate interlinkages between industry and other SDGs must not be overlooked.
For instance, clean and sustainable industrial processes contribute significantly to SDG 13, aiming at climate action, by reducing greenhouse gas emissions, improving energy efficiency, and adopting clean and environmentally sound technologies. Similarly, SDG 12, responsible consumption and production, demands the industries to promote resource and energy efficiency, sustainable infrastructure, and provide access to basic services, green and decent jobs, and a better quality of life for all. It motivates industries to adopt sustainable practices and to integrate sustainability information into their reporting cycle.
The role of industries extends to SDG 8 (Decent work and Economic Growth) as industries stimulate economic activities that lead to job creation and thus, improve living standards. Also, in respect to SDG 5 (Gender Equality), industrial sectors have the potential to provide opportunities for women in the workforce and help bridge the gender wage gap.
Nevertheless, the transformation to a more sustainable industry is not without challenges. The demands of rapid technological changes, the need for significant capital investments in green technologies, and the transition to a circular economy are some of the hurdles industry faces. Further, this transformation requires a multilevel and multi-stakeholder approach, calling for cooperation among governments, private sectors, academia, and civil society to pave the path to achieving SDGs.
The development of new high-efficiency magnets and/or electric traction motors using a limited amount of critical rare earths or none at all is crucial for the large-scale deployment of electric vehicles (EVs) and related applications, such as hybrid electric vehicles (HEVs) and e-bikes. For these applications, we estimated the short-term demand for high-performing NdFeB magnets and their constituent rare earths: neodymium, praseodymium and dysprosium. In 2020, EV, HEV and e-bike applications combined could require double the amount used in 2015.
Background While our previous work has shown that replacing existing vaccines with thermostable vaccines can relieve bottlenecks in vaccine supply chains and thus increase vaccine availability, the question remains whether this benefit would outweigh the additional cost of thermostable formulations. Methods Using HERMES simulation models of the vaccine supply chains for the Republic of Benin, the state of Bihar (India), and Niger, we simulated replacing different existing vaccines with thermostable formulations and determined the resulting clinical and economic impact.
LexisNexis France, Lexis360, Collectivités Territoriales, 16 February 2017
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