 Hey, Express Community. My name is Cosmo, and this is Elijah. We're pride of the Landwärmen-Riverion team. We're negative emission pioneers based in Munich, Germany, but with a global perspective. Follow us on a journey to a decarbonized world. Also for this guy. Our biggest motivation is a brighter future for all of us, by sequestering CO2 in the most efficient, economical, and ecologically advantageous way possible. That's why we're proud to be taking part in Express Carbon Removal, a $100 million competition that is helping to accelerate scientifically viable, sustainable, and scalable carbon removal solutions, just like ours. We are bio-leavers. In a circular approach we use regionally generated biomass to flexibly produce renewable energy. Biomethane, green hydrogen, or sustainable power depending on what the energy grid needs at any given time. This biogas plant is owned by five local farmers. The excess heat from power generation keeps a local hospital warm. But achieving climate neutrality alone is not enough. It's our responsibility to actively remove carbon dioxide from the atmosphere as well. And we need these negative emissions as soon as possible. Tomorrow might be too late. The time to act is now. So we set out to develop a solution that will enable us to go carbon negative. Not only do we need to remove carbon in the process, we need to do it in a highly efficient way, while producing very clean CO2 at the same time. Sound impossible? Well, this is what we came up with. The decentralized energy production plant of the future. Our demonstration site in Reimlingen Bavaria is deeply rooted in the region. With our system we capture the CO2 that rises when the biomass ferments. Then comes our first innovation. Instead of releasing the CO2 into the atmosphere during biogas upgrading or on-site power generation, we separate very pure CO2 that's ready for long-term storage. The biomethane that remains can now be fed into the gas grid or into our on-site power plant. This is where the magic happens. The biomethane is converted into electricity with an efficiency of 80%. This is unheard of. So how do we do it? At the heart of the plant is a fuel cell we have tweaked to perfection. This is a salt oxide fuel cell stack. Current systems don't make full use of these fuel cells. They limit the efficiency by burning off large fractions of the gas that is supplied to them, but we do things differently. Our system enables the full potential of salt oxide cell stacks because our system avoids any combustion and uses all the gas to produce power. Our full-size commercial unit will provide 100 kilowatt of clean power which is enough to supply 500 households. Not only is our system 20% more effective than conventional fuel cells, it also separates all CO2 and can operate carbon negative. But that's not all. We made the whole fuel cell operation reversible. Why is this important? Because on very sunny and windy days, the power grids cannot absorb the surplus energy from solar farms and wind generators, and it goes to waste. But our power plant can take the excess electricity and convert it into gas, rehydrogen or emethane, and store it for future use. Compared to conventional biogas operation, our power plant enables our customers to maximize their income, meaning their biomass will generate up to five times more revenue while being carbon negative. Our carbon capture approach is decentralized. Scaling sustainably will mean more socially acceptable plants, not bigger sites with higher environmental impact. By integrating the reverient solution, we're making existing biogas upgrading plants more efficient with little to no increased environmental impact. Our sustainable, scalable, low impact technology is why we're contenders for the carbon removal X-Price. And it's our firm belief that bioenergy with carbon capture and storage will be a key pillar in reaching emission targets in 2050 and beyond.