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Leveraging Technology for Climate Change Mitigation
Technology contributes to rising carbon emissions but can also be a powerful weapon against climate change.
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Applied Technology Review | Saturday, June 10, 2023
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Continued research, collaboration, and responsible implementation of mitigation technologies will be key to creating a sustainable and low-carbon future.
FREMONT, CA: Technology contributes to rising carbon emissions but can also be a powerful weapon against climate change. Various technologies, including renewable energy, efficient transportation, and smart building systems, can play a crucial role in reducing emissions and overall energy consumption. Moreover, technology can aid in monitoring and managing existing emissions while fostering the development of new solutions. This raises the question of whether innovative technical fixes can help us overcome the challenges of climate change. This article explores key mitigation technologies and their potential impact.
Research indicates excess carbon dioxide removal needs to achieve net-zero emissions within the required timeframe. Carbon capture projects have gained momentum globally, with several commercial-scale projects already operational and more in development. CCS technology offers the potential to capture and store carbon emissions from various industries, thereby reducing their environmental impact. Simultaneously, the transition to renewable energy sources drives innovation in advanced photovoltaics, AI and big data, distributed energy storage systems, hydropower, wind energy, bioenergy, grid integration, green hydrogen, advanced robotics, and blockchain. These technologies can significantly enhance the efficiency and scalability of renewable energy generation.
Rechargeable batteries, particularly lithium-ion batteries, are crucial for storing renewable electricity and powering electric vehicles. Ongoing research aims to improve battery performance, such as lower costs, extended lifespan, enhanced energy density, increased safety, and faster charging. Moreover, advancements in next-generation batteries, such as sodium-ion, multivalent-ion, redox flow, solid-state, metal-sulfur, and metal-air batteries, promise even greater cost reductions and higher energy densities. These advancements in energy storage technologies are vital for maintaining a reliable and sustainable energy supply from renewable sources.
Among the digital technologies influencing climate change mitigation are sensors, the Internet of Things (IoT), robotics, and artificial intelligence (AI). Low-emission technologies can increase energy efficiency and optimize energy management across sectors. Decentralized renewable energy systems can be effectively managed through digital technologies, creating economic opportunities. However, the report highlights potential challenges such as increased digital device usage, e-waste, job displacement, and a digital divide. Appropriate governance ensures digital technology supports decarbonization and delivers positive outcomes.
Reliable and timely information on greenhouse gas (GHG) emissions is vital for policy formulation and decision-making. A comprehensive global inventory of greenhouse gas emissions can be created by analyzing data from satellites, sensors, and public/commercial sources using artificial intelligence and machine learning. These data-driven models provide real-time information on emissions sources and sinks, enabling the identification of priority regions for mitigation actions. Governments can utilize these models to monitor the effectiveness of GHG reduction policies and optimize their strategies accordingly.
Technology has the potential to both contribute to and combat climate change. We can significantly reduce carbon emissions and mitigate climate change by embracing innovative solutions, such as carbon capture and storage, renewable energy sources, advanced batteries, and digital technologies. However, challenges such as governance, environmental impact, and social implications must be addressed to ensure the positive impact of technology on decarbonization efforts.