To the Editor: We can stop climate change. Recent breakthroughs and ongoing innovation have given us the tools we need to fix the problem. We don't have to wait for new discoveries before we start. We can start now, which is good because, at this point
To the Editor:
We can stop climate change. Recent breakthroughs and ongoing innovation have given us the tools we need to fix the problem. We don’t have to wait for new discoveries before we start. We can start now, which is good because, at this point in time, we don’t have a second to waste. Too much carbon dioxide (CO2) in the atmosphere is the primary cause of climate change. To stop climate change, we need to stop adding CO2 to the atmosphere and to start taking CO2 out. With renewable energy and direct air CO2 capture, we can do both, and we can do them in ways that save money. Unlike burning fossil fuels to produce energy, generating energy from renewable sources such as sun, wind, water, and the heat in the Earth does not create CO2. Replacing fossil fuel energy with renewable energy reduces CO2 emissions, and the opportunities for reductions are significant. A 2012 study funded by the U.S. Department of Energy found that the U.S. could generate 80 percent of its electricity with existing renewable energy technologies and distribute it around the clock with a modernized electrical grid. Currently, 15 percent of U.S. electricity is renewable, and a jump to 80 percent would seriously cut our CO2 output. Renewable energy is already cheap. Energy from wind, solar, hydropower, and geothermal power is competitive with energy from fossil fuels, and the price of electricity from onshore wind and solar is predicted to drop below the cost of electricity from fossil fuels in only two years, according to a 2018 analysis by IRENA. However, renewable energy can’t replace all of our energy. Heavy industry, air travel, and maritime transport will still require fossil fuels, and direct air CO2 capture will be needed to take back the CO2 we add to the atmosphere from those activities. Direct air CO2 capture is a new technology with several companies developing extraction methods, although one company has perfected their technology to a point where it can be used today. Global Thermostat reports that its Direct Air Capture plants can extract CO2 from the air for $50 to $60 per ton and sell it for up to $200 per ton. They cost between $1.5 million and $2 million for each plant and pay for themselves in about two years. They’re energy efficient, using waste heat from factories and power plants to run, and they don’t require energy to process and transport CO2 because they produce CO2 on site where it’s needed. They can also operate using renewable energy. Direct air CO2 capture has received a boost from the 2018 FUTURE Act which was co-sponsored by U.S. Senator Sheldon Whitehouse of Rhode Island. The FUTURE Act offers a $22 - $50 tax credit for each ton of CO2 that’s taken out of the air and stored away or used in an existing commercial market. The credit would pay from nearly half to almost all of the cost of operating a Global Thermostat plant and make collecting CO2 even cheaper. CO2 is used to carbonate beverages, make dry ice, speed up plant growth in greenhouses, and in industry. Cheaper CO2 could help Rhode Island businesses that use CO2, including the Agcore Technologies algae farm, Pepsi, and Yacht Club Bottling Works, and companies in Rhode Island that sell CO2 as an industrial gas or dry ice, such as Praxair, Tech Air, and the East Bay Ice Company. Yet, the most important use of CO2 involves new technologies that sequester the carbon in CO2 and keep it out of the atmosphere. Biofertilizers, carbon concrete, and carbon plastics use and sequester CO2, and U.S. companies make all three. Accelergy Corp. in TX produces biofertilizer. Blue Planet Ltd. in CA and Solidia Technologies make carbon concrete, and Empower Materials, Inc. in DE manufactures CO2 plastic. Other carbon materials that sequester CO2 are on the verge of appearing, including carbon fiber, which can be used to produce consumer goods, boat hulls and automobile bodies, and building materials that are stronger than steel. Having the ability to capture CO2 and store it away completes the process that can reduce the amount of CO2 in the atmosphere and make our climate stable again. The tools for stopping climate change are here. What we need now is a plan to use those tools, and to make that plan, we need an analysis of where we are today and how we can get to where we want to be in the future. Two resolutions that will study how we can switch to renewable energy and capture CO2 have been submitted by Rhode Island State Senator Jeanine Calkin to the Rhode Island Senate for the 2018 session. If they pass, Senate committees will start gathering facts. The outlook for climate change is not good. Were already being affected by climate change, and the latest climate studies are finding that we’ve seriously underestimated how bad climate change will become. We have no time to waste, and studying our options is an easy and useful way to start.
Rhode Island Members of the Tri-State Climate Coalition Kerri Baggesen Nate Carpenter Wil Gregersen Christine Kayal Ellen Petraits Dan Percivalle Sam Bell, Candidate for the Rhode Island State Senate, District 5