Carbon dioxide has become far too prevalent in our atmosphere and is a large component of greenhouse gases that many believe are responsible for climate change. But what if this excess carbon dioxide could be harvested from the atmosphere, repurposed, and used to make a clean, renewable energy source that already exists more efficient?
It sounds like a plan Doc Brown would have concocted and then hurriedly told Marty McFly about as a group of angry terrorists bared down on them, but this isn’t the stuff of science fiction like a flux capacitor, this is very much based in reality.
GE believes it has found a way to harvest CO2 and use it to create solar batteries, Digitaltrends.com reports. Solar energy is a great source of renewable energy, but there is a problem: the sun needs to be shining in order to harness its power. Currently, there isn’t a very efficient means of storing energy produced from solar power to keep it available to the grid whenever it is needed, even if the sun isn’t currently shining, but that could all change.
Here is how the two-stage process works: solar energy would be captured and stored in a liquid of molten salt. Harvested and stored CO2 would then be cooled into dry ice and, when power is needed, the salt would turn the dry ice CO2 into a “supercritical” fluid (which is defined as matter that does not have specific liquid or gas phases). This supercritical fluid would then flow into a CO2 turbine called a sunrotor and the energy would be disseminated as needed.
If it seems complicated, well, that’s probably because it is. But don’t worry, just because something being complicated often times means it is inefficient and/or expensive, that isn’t the case here.
Not only would the process be cheap since energy isn’t being made, just transferred, the sunrotors would also be able to operate with 68% efficiency. Gas power plants are typically only able to achieve 61% efficiency.
However, this process and the sunrotors are still a good five to 10 years away from actually being put into use, but the fact that the technology exists to not only suck some CO2 out of the atmosphere but to also use it to make renewable, clean energy sources more efficient and practical makes this a classic two birds with one stone scenario.
The overall effect of these sunrotors and this CO2 harvesting/storing process is reduced usage of fossil fuels for power generation, which would only work to eliminate even more CO2 from the atmosphere.
Related Stories
Green | Jul 26, 2022
Climate tech startup BlocPower looks to electrify, decarbonize the nation's buildings
The New York-based climate technology company electrifies and decarbonizes buildings—more than 1,200 of them so far.
Sustainable Development | Jul 14, 2022
Designing for climate change and inclusion, with CBT Architects' Kishore Varanasi and Devanshi Purohit
Climate change is having a dramatic impact on urban design, in terms of planning, materials, occupant use, location, and the long-term effect of buildings on the environment. Joining BD+C's John Caulfield to discuss this topic are two experts from the Boston-based CBT Architects: Kishore Varanasi, a Principal and director of urban design; and Devanshi Purohit, an Associate Principal.
Building Team | Jul 1, 2022
How to apply WELL for better design outcomes
The International WELL Building Institute (IWBI) cites attracting top talent, increasing productivity, and improving environmental, social or governance (ESG) performance as key outcomes of leveraging tools like their WELL Building Standard to develop healthier environments.
Green | Jun 22, 2022
The business case for passive house multifamily
A trio of Passive House experts talk about the true costs and benefits of passive house design and construction for multifamily projects.
Green | Jun 22, 2022
World’s largest commercial Living Building opens in Portland, Ore.
The world’s largest commercial Living Building recently opened in Portland, Ore.
Coronavirus | May 20, 2022
Center for Green Schools says U.S. schools need more support to fight COVID-19
The Center for Green Schools at the U.S. Green Building Council released a new report detailing how school districts around the country have managed air quality within their buildings during the second year of the COVID-19 pandemic.
Green Specifications | May 12, 2022
MG2’s Sustainable Materials Evaluation System
Learn how MG2’s Sustainable Materials Evaluation System helps clients, prospects, and staff choose the most environmentally feasible materials for their building projects. Candon Murphy, LEED GA, Assoc. IIDA, Design Lab Manager and Materials & Sustainability Specialist with MG2, speaks with BD+C Executive Editor Rob Cassidy.
Sponsored | Healthcare Facilities | May 3, 2022
Planning for hospital campus access that works for people
This course defines the elements of hospital campus access that are essential to promoting the efficient, stress-free movement of patients, staff, family, and visitors. Campus access elements include signage and wayfinding, parking facilities, transportation demand management, shuttle buses, curb access, valet parking management, roadways, and pedestrian walkways.
Sponsored | BD+C University Course | May 3, 2022
For glass openings, how big is too big?
Advances in glazing materials and glass building systems offer a seemingly unlimited horizon for not only glass performance, but also for the size and extent of these light, transparent forms. Both for enclosures and for indoor environments, novel products and assemblies allow for more glass and less opaque structure—often in places that previously limited their use.
Codes and Standards | May 2, 2022
Developer Hines, engineer MKA develop free embodied carbon reduction guide
Real estate management and investment firm Hines has released the Hines Embodied Carbon Reduction Guide. The free guide, produced with Magnusson Klemencic Associates (MKA), is the result of a two-year effort, relying on MKA’s industry-leading knowledge of carbon accounting and involvement in programs such as the Embodied Carbon in Construction Calculator (EC3) Tool.
