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geoengineering.global
article
https://geoengineering.global/
In our civilization’s effort to slow down and stop Climate Change and reverse Global Warming, geoengineering should not be considered the only solution, but rather an important part of a comprehensive, integrated, international program that mitigates the effects of Global Warming, restores our biosphere and addresses the root causes of Climate Change (i.e., the use of fossil fuels and carbon dioxide emissions, human population growth, consumptive lifestyles, unsustainable practices, degradation of natural ecosystems, etc.). An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty [Masson-Delmotte, V., P. An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty [Masson-Delmotte, V., P.
S
scu.edu
research
https://www.scu.edu/environmental-ethics/resources/a-brief-introduction-to-cl…
Climate engineering, according to Harvard’s Solar Geoengineering Program, is a broad category of technologies meant to alter the climate in order to reduce climate change. There are two main types of climate engineering: carbon dioxide removal and solar radiation management [1]. Technologies in this category attempt to change the atmosphere by removing carbon dioxide, which would “address the root cause of climate change — the accumulation of carbon dioxide in the atmosphere” [2]. The other major form of climate engineering is solar radiation management (SRM), which consists of reflecting solar radiation (sunlight) away from the Earth’s surface in order to reduce the amount of energy in the atmosphere. “Ocean-Based Carbon Dioxide Removal (CDR) and Its Implications for the Sustainable Development Goals.” University of Cambridge - Centre for Science and Policy, November 18, 2022. [9] Daisy Dunne, “Explainer: Six ideas to limit global warming with solar geoengineering,” *Carbon Brief: Clean on Climate*, 9 May 2018.
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climatemodeling.earth.indiana.edu
research
https://climatemodeling.earth.indiana.edu/research/climate-engineering.html
Climate engineering is the deliberate modification of the climate to temporarily offset global warming, preventing some of the worst effects of climate change.
G
gsas.harvard.edu
research
https://gsas.harvard.edu/news/engineering-solution-climate-change
Paulson School of Engineering and Applied Sciences, and Harvard Business School, Sabin is developing direct air capture technology that is both cost-effective and scalable. “It all flows in a circle,” Sabin says. Those electrons are removed from the molecules when the solution passes through the second cell, carbon dioxide is released as gas and stored, and the process begins again.”. Sabin says this system is vastly more efficient than current methods of carbon capture, using energy primarily to run current through the cells and run air over the exposed solution. “The solution right now is sensitive to oxygen and water, which are present in the atmosphere in much greater quantities than CO2,” Sabin says. His mentor Michael Aziz, the Gene and Tracy Sykes Professor of Materials and Energy Technologies and a faculty associate at the Harvard University Center for the Environment, says that Sabin’s model has “a better chance than most” to make direct air capture cost-efficient.
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ewb-usa.org
article
https://ewb-usa.org/Engineering-Climate-Resilience
## As climate change creates complex challenges, we are responding to communities worldwide by finding innovative solutions for today and engineering community resilience for tomorrow. Marginalized and underserved communities, both around the world and in the United States, often feel the harshest effects of industrialization and climate change. The most effective and urgent way to help is by building climate-resilient infrastructure in the communities where we work, which are often the areas most heavily impacted. The negative impacts of climate change and industrialization are most acutely felt in marginalized and underserved communities globally and in the United States. The best and most immediate way to address these disparities is to create climate-resilient infrastructure in the communities that are most impacted by climate change. We take the time to listen to the community to understand how their climate is changing and ensure our projects will have their intended impact.
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sciencedirect.com
article
https://www.sciencedirect.com/science/article/abs/pii/S221146451200036X
Potential geoengineering methods include solar radiation management and carbon dioxide removal techniques that are largely theoretical and remain untested.
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weforum.org
article
https://www.weforum.org/stories/2025/11/5-prominent-geoengineering-ideas-and-…
Geoengineering seeks to slow or mask the impacts of warming at the poles. Geoengineering seeks to counteract the effects of global warming.
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congress.gov
official
https://www.congress.gov/crs-product/R47551
Solar geoengineering (SG) refers to a set of methods aimed at cooling the Earth in order to counteract the warming effects of increases in greenhouse gases (