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Today, we are pleased to announce that Shizen Energy launched a press release titled “Shizen Energy and Zeroboard partnership provides comprehensive Scope 2 support from GHG emissions calculation to RE certificate procurement”. Press Release https://lnkd.in/gubwvXBQ Shizen Energy and Zeroboard, which supports corporate sustainability management, have entered into a business partnership agreement to provide decarbonization management support services. With this agreement, Shizen Energy and Zeroboard can now provide a one-stop comprehensive solution for companies seeking to decarbonize, including assistance in understanding greenhouse gas (GHG) emissions and procuring non-fossil certificates and various other environmental certificates as options to reduce emissions, as well as corporate PPA services. Shizen Energy supports corporate decarbonization by providing solutions such as renewable energy power plant development, renewable energy certificate procurement and generation, and long-term renewable energy power supply through corporate PPAs, in response to the growing need for decarbonization around the world. Zeroboard provides the “Zeroboard” GHG emissions calculation and visualization solution and, in collaboration with over 180 partner companies, supports the decarbonization of businesses by providing customized emissions reduction solutions. Shizen Energy and Zeroboard will combine their respective decarbonization solutions to provide companies with effective GHG emission reduction schemes, and contribute to the realization of a decarbonized society.

Revolutionizing Renewable Energy with AAGE Solutions At Ashcraft American Green Energies (AAGE), we're actively addressing the challenges and opportunities outlined in the latest renewable energy research through our existing technologies: Next-Generation Solar Technology: • AAGE's proprietary hydrovolatic gel technology complements advanced solar systems, enhancing overall energy yield. • Our microgrid solutions integrate seamlessly with bifacial solar panels, maximizing energy capture. Wind Energy Innovations: • AAGE's AI-driven systems optimize energy output from wind farms, aligning with the industry's push for increased efficiency. Energy Storage Solutions: • Our hydrogen production and storage system offers long-duration energy storage, addressing intermittency issues in renewable energy. • AAGE's reusable hydrogen canisters provide a flexible, off-grid energy storage option. Hydrogen Revolution: • AAGE's green hydrogen production, powered by a mix of solar, wind, and hydrovolatic gel, contributes to the growing hydrogen economy. • Our hydrogen fuel cells offer clean power for various applications, from transportation to industrial processes. Smart Grids and AI Integration: • AAGE's microgrid technology, backed by AI-driven systems, enables efficient distribution and management of renewable energy. • Our automated hydroponic systems showcase the potential of AI in optimizing resource use in sustainable agriculture. Addressing Challenges: • AAGE's focus on affordable solutions for middle-class and low-income communities helps ensure equitable access to clean energy technologies. • Our decentralized infrastructure approach supports the scaling up of renewable energy production to meet growing global demand. AAGE is committed to driving the renewable energy revolution forward through practical, innovative solutions that address the key themes identified in current research. Our existing technologies and projects are well-positioned to contribute significantly to the future of sustainable power. For more information on how AAGE can help you navigate the evolving renewable energy landscape, visit buff.ly/3NLrc43.

Applying AAGE Solutions to Revolutionize Renewable Energy At Ashcraft American Green Energies (AAGE), we're uniquely positioned to address the challenges and opportunities presented in the renewable energy landscape: 1. Next-Generation Solar Integration: • Our proprietary hydrovolatic gel technology complements advanced solar systems, enhancing energy storage capabilities. • AAGE's microgrid solutions can seamlessly integrate new solar technologies, including bifacial panels, optimizing energy yield. 2. Wind Energy Optimization: • AAGE's AI-driven systems can be applied to wind farm management, improving turbine performance and energy output. • Our hydrogen production and storage solutions offer a means to balance intermittent wind power generation. 3. Advanced Energy Storage: • AAGE's hydrogen production and storage in reusable canisters provide a scalable, long-term storage solution for renewable energy. • Our microgrids, backed by hydrogen storage, ensure reliable power supply, addressing intermittency issues. 4. Green Hydrogen Revolution: • AAGE's green hydrogen production, using electrolysis powered by renewable sources, aligns perfectly with the growing hydrogen economy. • Our hydrogen canisters offer a practical solution for hydrogen distribution and use in various applications. 5. Smart Grid Integration: • AAGE's microgrid technology is designed for seamless integration with smart grids, enhancing energy distribution efficiency. • Our AI-driven systems can contribute to predictive maintenance and optimize renewable energy infrastructure performance. 6. Addressing Global Challenges: • AAGE's humidity-based water generation system (producing up to 120 gallons daily) can support regions facing water scarcity due to climate change. • Our automated hydroponic systems offer sustainable food production solutions, addressing food security concerns. 7. Economic Opportunities: • AAGE's commercial farm concept, using AI and robotic harvesters, creates new employment opportunities in the renewable sector. • Our Bitcoin mining infrastructure, convertible to data centers, provides a scalable model for utilizing excess renewable energy. 8. Equitable Access to Clean Energy: • AAGE's focus on affordable solutions for middle-class and low-income communities ensures broader access to sustainable technologies. • Our decentralized infrastructure model for hydrogen and power markets promotes energy independence and market accessibility. By leveraging AAGE's existing technologies and projects, we offer comprehensive solutions that not only address the current challenges in renewable energy but also pave the way for a more sustainable and equitable energy future. Our integrated approach combines energy generation, storage, water production, and sustainable agriculture, creating a holistic ecosystem for clean, reliable, and accessible energy.

The renewable energy sector presents a compelling opportunity for smaller producers. Technological advancements have reduced startup and operational costs, making market entry more feasible. Additionally, large energy conglomerates often overlook small-scale projects such as rooftop solar installations or modest wind farms. For businesses, this landscape offers potential cost savings by bypassing traditional supplier-provided energy, which is typically sold at a large markup on the wholesale market. tem. has developed a platform to capitalize on this opportunity, enabling renewable energy generators to sell their capacity directly to businesses through an automated and scalable system. The platform employs sophisticated matching algorithms to optimize transactions, reducing costs while providing unprecedented traceability. While large corporations have long had the ability to purchase energy directly from generators, tem.'s mission is to extend this option to businesses of all sizes. Participants in the automated marketplace can expect significant benefits. Purchasers may realize an average savings of 25% on their energy costs. Generators also stand to gain from improved pricing, as they are no longer subject to the constraints of wholesale markets dominated by larger players. London TechWatch caught up with tem. CEO and Cofounder Joe McDonald to learn more about the business, the company's strategic plans, latest round of funding, and much, much more…

**Innovations in Renewable Energy: The Path to a Sustainable Future** - Renewable energy is considered one of the key pillars in the international community's efforts to address increasing environmental challenges, especially concerning climate change. With the growing pressures resulting from the excessive use of fossil fuels, the need for clean and sustainable energy sources has become more urgent than ever. Recent reports estimate that the use of renewable energy sources such as solar and wind power could contribute to reducing global carbon emissions by up to 70% by 2050. Innovations in this field are not just technological steps, but constitute a comprehensive response to global ambitions and environmental concerns. In this article, we will explore how these innovations contribute to enhancing renewable energy efficiency and achieving a future that helps mitigate the risks associated with climate change and promotes sustainable development. Developments in Solar Energy Technology Solar energy is one of the fastest-growing renewable energy sources in the world, partly due to technological innovations such as high-efficiency solar panels. Modern technologies, such as perovskite cells, have significantly improved the energy yield from sunlight, making it more cost-effective. Additionally, there has been a shift towards eco-friendly technologies for manufacturing these panels, contributing to the reduction of carbon emissions from the production process. Wind Energy Technology Wind energy has also become one of the most advanced renewable energies, thanks to modern turbine designs that allow for high efficiency levels. New innovations include the use of smart control systems that adjust the angles of turbine blades based on wind speeds, maximizing output throughout the year. Furthermore, long-range turbines have been introduced in offshore areas, providing additional potential for harnessing energy from strong winds that hit the coasts. Storage and Renewable Energy One of the significant challenges facing renewable energy is how to store and utilize it effectively. Energy storage technologies, such as advanced batteries, play a critical role in achieving this. Studies have shown that using high-performance batteries can enhance the ability of electrical grids to handle intermittent energy sources. The development of other storage technologies, such as hydrogen, is also a promising alternative, allowing for excess energy to be stored during peak times for later use. Integrating Renewable Energy into Electrical Grids The next challenge is how to effectively integrate renewable energy sources into existing electrical grids. Smart grid technologies have become a focal point, allowing for more efficient management of electrical flow and control of energy production and consumption. By using data in real-time, intelligent systems that enable central connections among all components can improve resource utilization and seamlessly provide ...

Applying AAGE Solutions to Revolutionize Renewable Energy At Ashcraft American Green Energies (AAGE), we're uniquely positioned to address the challenges and opportunities presented in the renewable energy landscape: 1. Next-Generation Solar Integration: • Our proprietary hydrovolatic gel technology complements advanced solar systems, enhancing energy storage capabilities. • AAGE's microgrid solutions can seamlessly integrate new solar technologies, including bifacial panels, optimizing energy yield. 2. Wind Energy Optimization: • AAGE's AI-driven systems can be applied to wind farm management, improving turbine performance and energy output. • Our hydrogen production and storage solutions offer a means to balance intermittent wind power generation. 3. Advanced Energy Storage: • AAGE's hydrogen production and storage in reusable canisters provide a scalable, long-term storage solution for renewable energy. • Our microgrids, backed by hydrogen storage, ensure reliable power supply, addressing intermittency issues. 4. Green Hydrogen Revolution: • AAGE's green hydrogen production, using electrolysis powered by renewable sources, aligns perfectly with the growing hydrogen economy. • Our hydrogen canisters offer a practical solution for hydrogen distribution and use in various applications. 5. Smart Grid Integration: • AAGE's microgrid technology is designed for seamless integration with smart grids, enhancing energy distribution efficiency. • Our AI-driven systems can contribute to predictive maintenance and optimize renewable energy infrastructure performance. 6. Addressing Global Challenges: • AAGE's humidity-based water generation system (producing up to 120 gallons daily) can support regions facing water scarcity due to climate change. • Our automated hydroponic systems offer sustainable food production solutions, addressing food security concerns. 7. Economic Opportunities: • AAGE's commercial farm concept, using AI and robotic harvesters, creates new employment opportunities in the renewable sector. • Our Bitcoin mining infrastructure, convertible to data centers, provides a scalable model for utilizing excess renewable energy. 8. Equitable Access to Clean Energy: • AAGE's focus on affordable solutions for middle-class and low-income communities ensures broader access to sustainable technologies. • Our decentralized infrastructure model for hydrogen and power markets promotes energy independence and market accessibility. By leveraging AAGE's existing technologies and projects, we offer comprehensive solutions that not only address the current challenges in renewable energy but also pave the way for a more sustainable and equitable energy future. Our integrated approach combines energy generation, storage, water production, and sustainable agriculture, creating a holistic ecosystem for clean, reliable, and accessible energy.

ThermaCore Renewable Technologies is an Australian start-up company established in May 2024 looking to revolutionise the energy sector with its cutting-edge thermal energy harvesting technology. Our flagship product, the ThermaCore Power-Box™ represents a groundbreaking innovation in the renewable energy sector. This revolutionary solution can efficiently transform waste heat at levels even lower than ambient into renewable electricity, enabling the world's first truly baseload renewable energy technology, capable of producing power 24/7/365 regardless of weather conditions. Additionally, the Power-Box™ provides cooling as a function of the advanced thermodynanic cycle on which our Core technology is based, creating a useful by-product that can be used for air conditioning, cooling of electronic equipment, and condensing potable water from the air. Our pilot program in Australia is paving the way for wider commercialisation, with the potential to provide clean, renewable baseload power to individuals, businesses, and industries alike. Our initial target market is the telecommunications industry in Australia, where tower base stations and data centers are constantly seeking reliable and efficient power sources, as well as cooling for their electronic equipment. The industry further faces unique challenges when it comes to providing energy to off-grid infrastructure where current best solutions consist of hybrid systems that include solar or wind with battery storage and back-up diesel generators. These systems are costly and often unsustainable, representing a poor return on investment for the user. By offering a solution that can efficiently convert ambient heat into renewable energy while also providing cooling, our game-changing alternative solutions can reduce costs by up to 80% in these off-grid applications. Our modular, fully detachable and customisable products position ThermaCore as an innovative player in the renewable energy sector. By addressing the intermittency challenges of current renewable technologies and providing clean, sustainable energy with the added benefit of cooling, the Power-Box™ offers a game-changing solution to the global energy crisis. Investment opportunities are currently available, as we are busy with our seed funding round. Links to further details follow: https://lnkd.in/duRVr-uF https://lnkd.in/dtvY7ZQv

Durrel is an EPICM organization offering Demand Side Electrification Solutions for Communities, Commercial & Industrial Establishments, Residential and Electric Mobility Clients for harvesting, storage, distribution and consumption of clean and sustainable energy, reducing GHG emissions and aligning with circular economy principles, enabling clients to achieve and sustain profitability, scalability, reputation, regulatory and environmental compliance. VALUES WE DON’T COMPROMISE UPON? We are committed to building Fossil-free, Clean, Cost Effective, Renewable, Robust, Scalable, Safest and Sustainable Energy Systems Techno Economic Feasibility Report (TEFR) of Hybrid Renewable Energy Systems (HRES): For the purpose of new project development, bid evaluation or due diligence, Durrel will perform Technical analysis, economic analysis, financial modelling, project valuation and project management services to deliver the faster, comprehensive and accurate TEFR / DPR. This comprehensive framework helps stakeholders make informed investment decisions by providing actionable insights into: ·       Technical feasibility of the project ·       Financial viability of the project ·       Risk management and mitigation associated with the projects ·       Operational costs ·       Cash flow ·       Return on investment (ROI) ·       Payback period ·       Sensitivity analysis on key parameters like solar irradiance, wind speeds and energy market prices that impact operational efficiency ·       Potential vulnerabilities in the project OPTIMAL SIZING The optimal sizing of hybrid renewable energy systems and superior project management results in substantial capex and opex savings, facilitating transition towards Fossil-free, Clean, Cost Effective (optimized LCOE), Renewable, Robust, Scalable, Safest and Sustainable Energy Systems by deployment and commissioning of solar panels, wind turbines, energy storage systems, geothermal systems, Biofuels, Green Hydrogen and integration of other renewable energy assets. This will also enable you leverage renewable assets commercially by participating in energy market through ·       Green Energy Open Access ·       RPO- REC – ESC ·       Revenues from multiple streams participating in P2P and exchange power trading encompassing energy only market, day ahead market, real time market, capacity market, reserve market, wholesale market, time of delivery / time of use, power purchase agreements, ancillary services and others Given the regulatory complexities surrounding renewable energy projects, We provide assistance with regulatory assessments, navigating permits, regulations, and compliance requirements at the local, state, and federal levels. Durrel develops tailored transition plans based on the specific needs, goals, and constraints of each client. For more details, write to support@durrel-power.com www.durrel-power.com

Benefits of Renewable Energy Over Fossil Fuels The shift towards renewable energy sources is not only a global trend but also a necessity for a sustainable future. Here’s why: 1. Environmental and Cost Benefits: Renewable energy sources like wind and solar are essential for combating climate change, as they emit little to no greenhouse gases and are often cheaper than fossil fuels. Fossil fuels are the main contributors to global greenhouse gas emissions, accounting for over 75% of them. To avoid severe climate impacts, emissions must be halved by 2030 and reach net-zero by 2050. Investing in renewable energy, which is abundant and sustainable, is crucial. Despite fossil fuels still dominating global energy production, renewables are increasing, with about 29% of electricity now coming from these sources. Accelerating the transition to renewables can reduce dependency on fossil fuel imports, create economic growth, and cut carbon emissions significantly. 2. Renewable energy creates jobs Investing in renewable energy creates three times more jobs per dollar than the fossil fuel industry. The transition to net-zero emissions could result in a net gain of 9 million jobs by 2030, as 14 million new clean energy jobs would offset the loss of 5 million fossil fuel jobs. Additionally, energy-related industries might need 16 million more workers for roles in manufacturing electric vehicles, efficient appliances, and new technologies like hydrogen. By 2030, over 30 million jobs could be generated in clean energy and low-emission technologies Ensuring a just transition is crucial to support workers and communities affected by this shift. 3.Technological Advancements The renewable energy sector leads in technological innovation, with advancements in battery storage, grid integration, and energy efficiency enhancing reliability and accessibility. These evolving technologies reduce costs and improve performance. Renewable energy systems are scalable and flexible, suitable for both small residential setups and large utility-scale projects, allowing for customized solutions to meet specific energy needs and geographic conditions. 4. Long-term Sustainability Renewable energy provides stable prices, avoiding the fluctuations of fossil fuels, creating a predictable and sustainable economic environment for planning and investment. Additionally, renewable infrastructure, like solar panels and wind turbines, is more resilient to extreme weather events, ensuring a continuous energy supply even under harsh conditions. in conclusion transitioning to renewable energy is an environmental, economic, and social opportunity. Investing in renewables promotes sustainability, benefits the economy, and improves health. Join me tomorrow to explore how solar panels work and their role in our energy landscape.

Driving Renewable Energy Innovation: The Power of Collaboration and Partnerships in the Startup Ecosystem Renewable energy innovation is crucial for addressing climate change and transitioning to a sustainable energy future. In this dynamic landscape, collaboration and partnerships between startups, corporations, and other stakeholders play a pivotal role in driving progress. Here's how collaborative efforts are propelling renewable energy innovation within the startup ecosystem:Shared Expertise and Resources: Collaboration allows startups to tap into the expertise, resources, and networks of larger corporations. By leveraging the industry knowledge and financial backing of established players, startups can accelerate the development and commercialization of their renewable energy technologies.Access to Markets and Distribution Channels: Partnerships with corporations provide startups with access to broader markets and distribution channels. This enables startups to scale their innovations more rapidly and reach a wider audience, driving greater adoption of renewable energy solutions.Risk Sharing and Co-Investment: Collaborative ventures enable risk sharing and co-investment, mitigating the financial challenges faced by startups in the renewable energy sector. Corporations can provide funding, mentorship, and strategic guidance to startups, reducing their financial burden and increasing their chances of success.Innovation Ecosystem Development: Collaboration fosters the growth of an innovation ecosystem where startups, corporations, research institutions, and government agencies work together to drive renewable energy innovation. This ecosystem creates synergies, fosters creativity, and accelerates the pace of technological advancement.Regulatory and Policy Influence: Collaborative efforts allow stakeholders to collectively advocate for supportive policies and regulations that facilitate the deployment of renewable energy technologies. By aligning interests and pooling resources, startups and corporations can influence policymakers and drive policy changes that accelerate the transition to clean energy. Conclusion: In the rapidly evolving landscape of renewable energy innovation, collaboration and partnerships are essential for driving progress and overcoming challenges. By working together, startups and corporations can leverage their respective strengths to accelerate the development, adoption, and deployment of renewable energy technologies. Through shared expertise, access to markets, risk sharing, and advocacy efforts, collaborative ventures empower stakeholders to drive positive change and create a more sustainable energy future. TalentServe