Green technologies (e.g., green preservation, processing, extraction, and analysis) and Industry 4.0 (e.g., artificial intelligence, big data, smart sensors, robotics, blockchain, and the Internet of Things) technologies rapidly becoming a valuable part of meeting the Sustainable Development Goals (SDGs)over the past decade. These technologies demonstrate high potential to foster ecological and digital transitions of food systems, delivering societal, economic, and environmental outcomes. While a range of green technologies has already provided innovative solutions for major food system transformations, the application of digital and other Industry 4.0 technological innovations is yet to be adopted to harness their full potential to achieve a healthier, smart, more sustainable, and more resilient food future.
Using Health personal protective equipment (PPE) such as face masks, safety foot shoes and protective suits has expanded dramatically due to COVID-19 pandemic leading to a widespread distribution of t
This Article supports SDG 8,9 and 10, by examining the direct relation between economic inequity and burden of disease due to air pollution in India considering time trends from 2011-2019.
This chapter aligns with SDG Goal 5: Gender equality and Goal 9: Industry, innovation and infrastructure by exploring the role women have played in disaster recovery and how this engagement fosters and enhances women's leadership roles.
To achieve SDG 13 (Climate action), urban areas must reduce energy use and transition to greener energy sources. This One Earth Research Article shows how innovative photovoltaic windows could contribute, especially in buildings with lots of windows. The work also supports supports sustainable industrialization and innovation (SDG 9) and affordable clean energy (SDG 7).
This article supports SDG 6, 3, 9 by exploring the diversity and ecology of freshwater diatom as bioindicators of 6 major freshwater ponds of Kanyakumari district, Tamilnadu
Biofilms are a major challenge for the food industry, due to their ability to contaminate surfaces. Foam flow cleaning successfully removed a significant part of one-day biofilms grown on stainless steel surfaces. Life cycle analyses showed that the foam flow process reduces all environmental impacts, mainly due to the reduction in water and energy consumption, which is a crucial contemporary issue.
Elsevier,
Visualization Techniques for Climate Change with Machine Learning and Artificial Intelligence, 2023, pp 377-399
This chapter advances the UN SDG goals 9 and 13 by discussing the potential of AI tools to develop mitigation strategies to battle climate change in energy, land use, disaster response, and other sectors.
This Editorial highlights 17 contributions from outstanding women researchers in chemical engineering supporting SDG 5 (Gender equality) as well as SDG 9 (Industry, innovation and infrastructure).
This chapter aligns with Goal 9: Industry, Innovation and Infrastructure and Goal 13: Climate Action by exploring the potential of AI in facilitating agricultural water management in the context of climate change and water scarcity.
