Understanding the Digital Transformation Network

In the face of global challenges posed by climate change and the ageing energy infrastructure, communities are progressively embracing sustainable energy alternatives such as solar and wind power. Nevertheless, a significant impediment to the extensive integration of renewable sources lies in their intermittent nature, characterised by periods when the sun does not shine, and the wind does not blow. This underscores the pivotal role of battery storage solutions in mitigating these challenges. Key Benefits of Community-Based Battery Storage Energy Independence: Community-based battery storage reduces reliance on the traditional power grid, giving communities more control over their energy supply. This independence can enhance energy security and reduce vulnerability to external factors. Resilience During Outages: Batteries enable communities to maintain power during grid outages. This is crucial for critical facilities such as hospitals, emergency services, and communication centres, ensuring continuous operation when it is needed most. Integration with Renewable Energy: Many community-based battery storage projects are paired with renewable energy sources, such as solar or wind. This integration allows communities to maximise the use of clean energy, reducing carbon emissions and contributing to environmental sustainability. Cost Savings: By storing excess energy during low-demand periods and using it during peak times, communities can reduce their reliance on expensive electricity from the grid. This can lead to cost savings for both residents and local businesses. Community Engagement: Implementing community-based battery storage projects often involves collaboration and engagement within the community. This fosters a sense of ownership and responsibility, as residents actively participate in the development and maintenance of the system. The landscape of community-based battery storage is transforming with recent developments highlighting noteworthy progress. Technological advancements are playing a pivotal role in enhancing battery efficiency and affordability, consequently bolstering the cost-effectiveness of community-based battery storage projects. Complementing this trend, governments are initiating policy changes by introducing incentives that facilitate the financing and implementation of such projects. Simultaneously, a surge in community interest, stemming from heightened awareness of the advantages associated with this technology, is evident among both residents and businesses. These combined factors contribute to a rapidly evolving and increasingly promising environment for the integration of community-based battery storage solutions. At its essence, community-based battery storage operates on a collaborative model, embodying shared investment and shared rewards. In this setup, a collective of residences, businesses, or an entire community combines their resources to establish a comprehensive battery system. The system serves a dual purpose: first, it efficiently captures surplus solar and wind energy generated during peak production periods, and second, it releases stored energy strategically when the primary renewable sources are less active. This discharge occurs during periods such as sundown or decreased wind intensity, thereby supplying power to homes and businesses precisely when demand is at its peak. This innovative approach enhances energy sustainability and also fosters a sense of communal responsibility in managing and optimising renewable resources. ...Read more

Revolutionizing EV Charging With Ultra-fast, Cost-Efficient, and Grid-friendly Solutions, Edison XFC is Recognized by the Energy Tech Review LAS VEGAS  - Edison XFC Corp. (“Edison XFC”, “Edison” or the “Company”), a developer of state-of-the-art, Extreme Fast-Charging (XFC) solutions for public electric vehicle (EV) charging, announced today the Company has been recognized as a Top 10 EV Charging Solutions Provider 2025 by the Energy Tech Review (“ETR”), a prestigious publication dedicated to the latest energy technology news and industry leaders’ insights, with over one hundred thousand subscribers and readers. A writeup of the interview by ETR with Dr. Joseph Armstrong, Chief Technology Officer of Edison XFC, is available   here . Edison XFC was selected for the recognition after undergoing a multi-layer selection process. This process included multiple qualified subscribers’ nominations and a careful evaluation by ETR’s editorial team based on various criteria, such as innovation, customer satisfaction, and market presence. Finally, a panel comprised of invited senior decision-makers, including Heads of e-mobility and Innovation, and industry CEOs, COOs, and others, who are also regular contributors and advisors to ETR, were asked to evaluate a short list of candidates.  This group identified Edison XFC among the top 10 providers. This edition of Top 10 EV charging Solutions Provider 2025 is scheduled to be published in February of 2025. Dr. Joseph Armstrong said, “This honor represents a major boost for the Company, recognizing the unique approach we have taken to provide EV customers a charging experience on par with current gasoline refueling. We are presently building out our DC-coupled pilot station to demonstrate the control of our energy generation and control systems, and to provide us valuable operational data for the next step in our XFC buildout.” “We are delighted to receive such prestigious recognition,” said Mr. Victor Lee, Founder, President and CEO of Edison XFC. “Edison XFC is dedicated to building a sustainable next generation EV charging station network. As we edge closer to a full electrification era in transportation in conjunction with the emergence of an artificial intelligence (AI) driven economy, the world will certainly witness an unprecedented surge in electricity demand which will add tremendous pressure to our already outdated and outage-prone central grid.” “Edison’s groundbreaking solution, partially powered by onsite self-generated renewable energy, is designed to deliver ultra-fast charging in a way that avoids further stress to the utility grid.  This helps to ensure that our stations deliver sustainable and reliable extreme fast EV charging every time.” Dr. Amit Kumar, Chairman and Cofounder of Edison XFC, stated, “As noted by my colleagues, we are pleased to be recognized with this honor at such an early stage of our company’s development.  Our team has worked very hard to understand the technology limitations as well as business challenges faced by early entrants into the EV charging industry.  We have designed our technology and business model to address these challenges, enabling us to provide a cost-effective, fast charging experience to customers, while maintaining profitability for Edison and minimizing the impact and stress on the existing grid infrastructure. We welcome interested parties to review our website for publicly available information about our approach and contact us directly for further discussions.” Edison XFC is currently listed on the StartEngine funding portal for its Regulation Crowdfunding (Reg. CF) campaign. Management encourages all EV enthusiasts to follow and support Edison XFC’s journey by visiting the Company’s crowdfunding campaign page at:  https://www.startengine.com/offering/edison-xfc .   ...Read more

In response to overwhelming demand, Infocus International Group is pleased to announce the return of the  EPC Contracts for Energy Industry  live online course, scheduled to commence on 4 th March, 1st July & 17th November 2025. This course provides an in-depth analysis of EPC contracts, their interface with other project documents and their role in the project lifecycle. It discusses key risk allocation issues, and the structuring of the contract in a project financing context. Delegates will be introduced to the key terms and negotiation issues in EPC arrangements, the role and incorporation of technical details, and the impact of project specifications in EPC arrangements. This course will benefit participants with different levels of experience. For those with no experience, it will provide a basic tool kit of what EPC contracts look like, what are the major terms and perspectives of owners, contractors and lenders, as well as familiarity with what the major areas of dispute may be during the construction phase and how to manage them. For the more experienced, it will be a masterclass on EPC contracts, covering the key commercial and technical issues in the construction market today. The course director has vast experience of EPC contracts and can answer literally any question on the subject. A participant from Exxonmobil mentioned that, “A very thorough presentation with excellent real-life examples and war stories from the trainer.” Another participant from Qatar Petroleum shared that, “The seminars were highly informative and the trainer is clearly very experienced in the EPC and major projects worldwide. It was very relevant for us in our business.” Course Sessions 1. Legal framework 2. Bankability issues and project structuring 3. Administering EPC contracts 4. Claims and claims resolution 5. Managing contractors and subcontractors Benefits of Attending ● Best practices in negotiating EPC contracts ● Understand the procurement options for projects and the associated risks and opportunities ● Consider alternative pricing, incentivisation and risk allocation approaches ● Develop an understanding of the current EPC market and the legal risks associated with such forms of contracting ● Learn what the major areas of dispute may be in construction projects and how to manage them ● Understand the key specificities of construction projects in your region of the world Want to learn more? Simply email to calvin@infocusinternational.com or call +65 6325 0235 to register your attendance. For more information, please visit  www.infocusinternational.com/epc-online   ...Read more

Bioenergy contributes to APAC’s energy transition, providing a renewable, domestically produced energy source. By addressing sustainability challenges and embracing innovative technologies, the region can harness the potential of bioenergy's potential mate and energy goals. FREMONT CA:  Bioenergy is a renewable energy source from organic materials, including wood, agricultural residues, and waste products. It is pivotal in APAC’s transition to a sustainable energy future. By utilizing the energy stored in these organic materials, bioenergy provides a viable solution to reduce dependence on fossil fuels and mitigate the effects of climate change. Bioenergy encompasses a variety of technologies and processes that contribute to renewable energy generation. Biomass combustion involves directly burning biomass in power plants to produce electricity and heat. Biogas production, through the anaerobic digestion of organic waste, generates a methane-carbon dioxide mixture that can be used for electricity generation or as a transportation fuel. Biofuels, such as biodiesel and bioethanol, are liquid fuels derived from biomass and mainly used in transportation. In APAC, bioenergy offers several key benefits. As a renewable energy source, it reduces dependence on imported fossil fuels, fostering energy independence. When produced sustainably, bioenergy can lower greenhouse gas emissions compared to fossil fuels, aiding climate change mitigation. Additionally, bioenergy contributes to waste management by utilizing organic waste for energy production, reducing landfill waste and its environmental impact. The bioenergy sector also generates significant economic opportunities, creating jobs across various value chain stages, from biomass production to energy generation and distribution. The region is pivotal in advancing bioenergy through initiatives such as the Renewable Energy Directive, which sets binding targets for member states to increase their renewable energy share within the overall energy mix. Additionally, individual countries have implemented national strategies and support programs tailored to their specific resources and priorities. These efforts collectively contribute to the growth of bioenergy across the region. Research and innovation in the bioenergy sector are key areas focused on enhancing sustainability and reducing environmental impact. One such area is the development of advanced biofuels derived from non-food sources, such as algae and agricultural residues, aimed at reducing reliance on food-based feedstocks and minimizing ecological footprints. Bioenergy with Carbon Capture and Storage (BECCS) is a promising technology that combines bioenergy production with carbon capture and storage to reduce harmful emissions, effectively removing carbon dioxide from the atmosphere. Another significant advancement is the integration of biomass conversion processes in biorefineries, which enable the production of a wide range of products, including biofuels, chemicals, and materials, thus maximizing the value of biomass resources and promoting a more sustainable and circular economy. Bioenergy plays a crucial role in APAC’s ambitious renewable energy integration targets. Research and development efforts are focused on advancing next-generation biofuels derived from non-food sources such as algae and agricultural residues. Additionally, bioenergy with carbon capture and storage (BECCS) is being explored to combine bioenergy production with carbon capture technologies, aiming for harmful emissions. Furthermore, promoting sustainable biomass supply chains through responsible forestry practices and efficient logistics remains a key focus for ensuring the long-term viability of bioenergy in the region. ...Read more