 My name is Charlotte Magai. I grew up in Ukuru, one of the biggest slums in Nairobi and was orphaned at the age of 10 years. At 16, I became a teenage mum and had to drop out of school to figure out a way to fend for myself and my daughter. My very first job was selling chako. It was also the only fuel I could afford. So my daughter and I kept suffering from respiratory tract infections and when she turned two, she suffered a severe pan injury caused by traditional stove. This sparked my interest in providing better cooking technologies for my community. I founded Mukuruklin Stoves, a social enterprise that recycles waste metal to manufacture improved cook stoves targeting underserved markets to help mothers keep their children safe, save on fuel consumption and reduce household air pollution. In Kenya, over 22,000 deaths are attributed to household air pollution every year and the numbers just keep rising. Mili women and children are the most affected since they spend most of their time cooking using inefficient stoves. The virtues of replacing traditional stoves with open fires are very well documented from reducing exposure to hazard asia pollutants, lowering band risks in children under the age of five, reducing fuel consumption costs and even cooking time. However, while the market in Kenya for improved cook stoves is one of the most mature, affordability and accessibility still remain two of the primary barriers to adoption at scale and millions of households persist with unsustainable methods. Mukuruklin Stoves offers a twofold solution. First, we manufacture improved cook stoves using recycled metal and then we partner with local women business owners to distribute our cook stoves to the very last mile. Our competitors include international cook stove brands, NGOs and open fires. Compared to international brands, we are 75% cheaper. Compared to NGOs, we are simply more accessible. And compared to open fires, we decrease 90% more toxic smoke. Our customers are mostly women aged 17 to 50 years living in rural and urban slums. They earn $40 to $100 monthly income and spend one third of that on fuel consumption costs. On average, they have three children under their care. Since 2017, we've sold over 70,000 clean cook stoves impacting the lives of over 350,000 Kenyans living in poverty and enabling families to make savings of over $7 million in fuel consumption costs. With a management team that is made up of experienced and highly skilled women and a board comprised of industry experts and previous financial investors, Mukuruklin Stoves has the potential to impact the lives of over 2.5 million Kenyans living in poverty if only we are able to triple our production capacity and reach 10 new counties. With every stove earning us $5 in extra revenue in carbon credit sales, we will be able to provide over 100 manufacturing jobs and partner with 1,000 local women business owners, putting us so much closer to achieving our goal, which is to eradicate household pollution and energy poverty by accelerating the adoption of improved cook stoves using recycled metal and then partnering with local women business owners. Thank you. Hi, I'm Eduardo Adela, Executive Director of Revolu Solar, a non-croft basin in Rio with a mission to promote the sustainable development of low-income communities through solar energy. Brazil has a huge potential for renewable energy, but we depend on hydro, which has social and environmental impacts on local communities and biodiversity, and it is strongly dependent on the rain. In a climate emergency situation, rainfall is more unpredictable, making Brazil live one of the most severe water and energy crisis in history as energy prices rose more than 150% in the last decade here. Low-income communities are the most impacted by this situation, and on the other hand, solar distributed generation not only solves the environmental issue, but also empowers the consumer. It's more accessible, as well, as prices decreased 90% in the last decade and it leads in job generation. Our solution, which we call the solar cycle, includes energy, job training, and education. We install single and community solar systems combined with energy efficiency in an energy-as-a-service model with monthly accessible prices. By 2022, we have 100 kilowatt in operation, 55 families, two schools, three small businesses with 96% of payment rate and an average of 40% in energy savings for them. And all the installation and maintenance is made by the community as we have a job training program for locals with 60 residents of four communities already formed and working as solar installers. And we overcome a challenge of lack of awareness with the technology, with educational and cultural activities. And we have a challenge of financing to this new model, as well, that we overcome with successful pilots like we did with the first solar energy cooperative ever in a Brazilian favela in 2021. And to achieve scalability, we are working on standardization, digitalization, and network action adapted to these local conditions. And all the price money will be reinvested in the project and with the visibility, it will be very important for our next step that is to expand the solar revolution on a national level this year, including Amazon region, making a strong contribution to the SDGs until 2030. Thanks. This came for the price. It's been very important for us to make viable our first nationwide replication that we are doing now, we began on July, in the Amazon region, indigenous community there. The pilot project involves installation in the community school, the job training for local residents as solar starlos, and also solar energy introduction workshops for children, youth, and adults in the region. And our vision for the future is to replicate this model to other communities there and also to expand the benefits of solar in the community and incorporate the learnings in public policies and to expand the solar revolution in Rio, Amazon, Brazil, and Latin America. Thank you and I wish you a good farm. BUS's outdated, strained power grid is either a turning point or poise to fail under new stresses from EV charging and the intermittency of renewable energy sources. In 2021, we saw power edges for millions of people as a result of historic extreme weather events. Climate change will only continue to exacerbate these issues as we aim for a more sustainable future that requires increased electrification and EV adoption. At Electric Fish, we have a solution. Our patented product, the 350 square, is a modular battery pack that integrates extreme fast vehicle chargers capable of delivering 100 miles of range in just five minutes of charging. We go live on sites using just a low voltage interconnection which doesn't require any permitting and siding upgrades. And when not charging EVs, we can provide backup power to the site or the grid itself through a bidirectional energy connection. Our battery integrated charging systems are able to store cheap, clean power supply from the grid, shifting this power over all hours of the day to cut carbon emissions and delivering valuable grid and utility services to local communities. With this, we fully utilize our chargers even when there are no electric vehicles queued for charging. So in Chor, we've put these chargers in locations where we can provide the highest impact. We've developed a data intelligence tool called community resilience score or core score. It predicts ideal locations for our units based on traffic flow, EV adoption, community demographics, grid architecture, infrastructure gaps, likelihood of power outages and climbing vulnerability. This tool helps us de-risk our installations and also provide equitable access to reliable backup power. Electric Fish is largely supported by grant funding that allows for components and purchase but not for salaries. With the prize from Stanford Global Energy Heroes, we were able to hire a team of developer interns over the summer to help build out our core score siding algorithm. This software helps with equitable siding of public fast charging infrastructure and backup power. And this team specifically was able to partner with a utility in the Midwest to build custom maps that will aid in this infrastructure siding. We'll be doing an additional pilot for our hardware next month in Detroit. Thank you.