鈥淐ontact has a project to trial NCG [non-condensable gas, e.g., CO2] reinjection at the Te Huka geothermal plant,鈥 Contact Energy CEO Mike Fuge noted, in a submission on 2021 Climate Change Commission draft advice.
Finding new ways to minimise, or even reverse, emissions from geothermal can help New 茄子视频app官网decarbonise its electricity sector by 2030 and reach a net-zero economy by 2050, as set out in the 2019 Zero Carbon Act.
Karan鈥檚 PhD project focuses on an exciting method to not only eliminate CO2听emissions from geothermal, but also take CO2听out of the atmosphere and lock it up underground. This is called carbon sequestration, and it is essential if we are to avoid the catastrophic effects of climate change.
Unfortunately, traditional sequestration used in the oil and gas industry is very challenging. The injection wells are very deep and cost tens of millions of dollars, while the CO2听is buoyant and tries to leak back to the surface.
鈥淕eothermal systems solve both these problems. The wells have already been drilled, and we can dissolve CO2听into water that has to be reinjected anyway.鈥 Karan says. 鈥淭his new approach is already being trialled in Iceland.鈥
In his research, Karan has investigated a new technology called Geothermal-BECCS (Bioenergy and Carbon Capture & Sequestration). This technology sees forestry waste burned to generate electricity, and the CO2听that is given off is captured and injected underground. This CO2听was absorbed from the atmosphere as the tree grew, and would return back to the atmosphere if the waste was simply left on the ground to rot.
This concept pairs extremely well with geothermal plants, which already have systems in place to put fluids underground (called reinjection wells). At the same time, bioenergy and geothermal energy can combine to generate more electricity than geothermal alone.听
Most of New Zealand鈥檚 geothermal fields are close to major forests, so the biomass is available and doesn鈥檛 have to be transported long distances. Between current government incentives and a record high CO2听spot price of $80/tonne, there is an exciting opportunity for cross-industry research in this space.听
鈥淜aran鈥檚 work is targeting some really key issues for Aotearoa鈥檚 future energy system,鈥 says supervisor Dr. Rebecca Peer. 鈥淧roviding a reliable pathway for electricity generation that has net-negative emissions is very powerful, and sets a great example for the rest of the world.鈥
Karan has shown that a typical geothermal plant could end up eliminating from the atmosphere as much CO2听as would be emitted by a large natural gas power plant. And revenues from carbon credits could exceed tens of millions of dollars. Nevertheless, public engagement and transparency when dealing with CO2听sequestration will be critical going forward.
鈥淎lthough this work is at an early stage, we think it鈥檚 a hugely promising step forward, particularly as the world鈥檚 economies continue major plans for decarbonisation,鈥 says co-supervisor Dr. David Dempsey. 鈥淎otearoa is a beautiful country with an abundance of natural resources. We have a real opportunity and responsibility to lead the way in the global decarbonisation effort.鈥澨 听
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