![]() Title: Ince Bioenergy Carbon Capture & Storage ( INBECCS) - Phase 2.This pilot will establish the feasibility of the “Biowaste to Biochar”(B to B) approach and optimise process design and operation for largescale biochar production. However, there are some significant challenges to overcome, particularly the availability of feedstocks where supply of virgin wood could be limited.īiowaste, particularly anaerobic digestate, has significant potential to extend the range of feedstocks for biochar production. Title: Bio-waste to biochar (B to B) via Hydrothermal Carbonisation and Post-Carbonisationīiochar can potentially make a major contribution to the UK target for Greenhouse Gas Removal ( GGR) of 35M tonnes of carbon (MtC) p.a.Location of lead company: Yorkshire and the Humber.Innovative SMART-DAC features are: 1) A natural wind driven (zero energy costs) fully continuous 24/7 absorption process 2) The use of chemically stable, non-volatile and not noxious absorbent 3) No use of heat, only electricity and 4) scale-up by numbers, not by size. CO2CirculAir’s a smart-buffer system assures a continuous 24h/d CO2 absorption and enables the use of low-cost electricity for regeneration at moments of surplus or by direct use of electricity from solar cells or wind turbines. The novel SMART-DAC technology is a natural wind driven process that captures CO2 directly from air using membrane gas absorption with a liquid absorbent and regeneration of the absorbent by electrodialysis. Location: Netherlands/ Northern Ireland.The project will successfully construct, operate, test, refine and evaluate the CO2LOC processes and technologies and provide data to support a computer model of a full-scale plant designed to deliver 50kt CO2 capture per annum. The Direct Air CO2 Capture and Mineralisation ( DACMIN) project aims to deliver a pilot plant capturing 100 tonnes per year of CO2 directly from the air using Cambridge Carbon Capture Ltd. Title: Direct Air CO2 Capture and Mineralisation ( DACMIN).This will transform the GGR market at pace, delivering over 50,000 t of carbon removal by 2030. Starting with biochar, we see a future where suppliers and users of Greenhouse Gas Removal ( GGR) technologies are connected through our easy-to-use online platform that allows them to buy, sell and verify the impacts of their GGR solution. ![]() This project seeks to pilot a revolutionary business-to-business ( B2B) platform that creates the first fully integrated biochar system in the world, enabling the sustainable scale up of biochar as a GGR technology. The project will construct, commission and operate a demonstration plant that will take a synthesis gas produced from household waste and convert it into low carbon hydrogen for use in road transport while capturing carbon dioxide from the process for use in industry. Title: Biohydrogen Greenhouse Gas Removal Demonstration. ![]()
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