New York’s Largest Energy Storage Project

New York is making consistent efforts to move towards its 50% clean energy goal by 2030. Governor Cuomo announced the plan to work on a 1500 MW energy store battery project by 2025. This was a decisive move to reduce carbon emissions and boost the reliability of electricity. Nearly $350 million will be authorized to support the energy storage market. The investment includes funds for both solar and storage projects within New York.

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Apex Energy Australia

Apex Energy Australia is Australian owned and operated from our Head Office located in South Australia. We are a design and construction company delivering Solar and Battery Storage Projects around Australia with a reputation for delivering client-focused solutions.

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Energy

A Guide to Going Solar For Businesses

Article | July 15, 2022

Earth has become increasingly warmer every year with rising temperatures. The burning of fossil fuels in the past 150 years for electricity, heat, transportation, and any other human activity has increased greenhouse emissions. Other natural resources are also rapidly depleting, thus giving us a cause of worry. Several homeowners and mainly businesses are, therefore, turning to renewable energy sources to become self-sustainable and self-reliant. Costs of commercial electricity are rising day by day with no end in sight. By turning to green energy, businesses can reduce operational costs and reinvest that amount back into their businesses. If your business uses electricity for lighting, HAVC, computing, or production, opting solar for businesses will significantly reduce the cost. Installing these solar panels and combining them with an appropriate energy storage system, your business can save up to 20 to 25% energy and move towards energy independence. Eligibility for Going Solar One of the major factors to consider when going solar is whether it makes sense for your business to do so. Apart from this, going solar would be ideal for organizations that: Work in states like California, Hawaii, or any state that either has expensive energy or massive Federal incentives Have enough land, rooftops, or parking lots adjoining their businesses where the solar panels can Be set up Have prioritized sustainability Have massive energy demands Market themselves as an environmentally friendly business Reasons to Use Solar Power for Businesses Growing businesses opt for investing in commercial solar power mainly to aid in offsetting additional expenses. With the expansion of the business, electricity consumption will also increase. You can also time your roof repairs or new constructions to coincide with installing new solar panels. Transforming into a business that chooses to become carbon-neutral by utilizing solar energy will enhance your business image in the community. Implementing commercial solar panels cuts down your energy consumption and helps increase your savings. Excess energy generated by these solar panels can be stored with the help of off-grid batteries. Solar energy has a major drawback. Your company won't be powered at night or in severe weather conditions as solar only works during the day. Solar energy cannot handle the sudden power surges required to handle heavy machinery. Businesses are then forced to purchase and use commercial electricity to manage these spikes. However, these spikes can prove to be expensive. Merging photovoltaic systems with storage solutions can ease these spikes. This is vital during the "shoulder" hours when the sudden surge spikes can lead to demand charges. Benefits of Going Solar Reduction in Costs The single biggest advantage of going solar is a massive reduction in electricity bills. Locations where 'net metering' is available can become another source of revenue for your business as the excess power produced can be sold to your local utility. Businesses, and companies that rely on out of date energy sources like coal, could be paying 7 to 30 cents per kilowatt-hour (kWh), whereas those using solar energy were paying between 2 to 12 cents per kWh. The benefits of switching to solar depend on several factors- locations, industry, and business size. The most advantageous enterprises would be the ones who have built an appropriately sized system to cover all energy requirements and enough power to fall back on during peak consumption hours. Businesses can incur additional charges due to demand and delivery. Utility services apply these charges to recover costs of purchasing energy and maintaining power lines and energy lost in the transmission system. Moving power sources closer to your business will help you avoidsuch preventable expenses. There are possibilities of ascension in solar energy projects. You can start with a smaller set of solar panels that would contribute to your daily energy needs and build it over time. You can always sell the excess energy produced to your local utility provider as a source of additional revenue. Federal Tax Incentives As of 2021, the investment tax credit (ITC) allows businesses to deduct 22 percent of the cost of installing solar energy systems from their federal tax with no cap on its value. These businesses are eligible for the tax incentive as long as they have their energy system. I'f youdon't have enough tax liability to claim the credit that year, the outstanding credits would roll over to the next year, so long the tax credit is in effect. Durability Like every other power source, solar has its limitations too. The infrastructure that can consume excess solar power is not yet up to the mark. Since solar is tied to the grid, they are interdependent. If the grid fails, solar goes down too. Therefore, it is important to add a microgrid to the energy system. Adding a micro-grid detaches your business from the utility providers and makes it independent of their services. It makes your organization what is known as an 'energy island'. The existence of these energy islands only protects your enterprise from power cuts due to natural disasters or any physical or hacking attacks. Your energy islands may also provide electricity to your local community during emergencies. Sustainability Solar energy has a massive role to play in the future of sustainability and environmental protection. By converting your business into a solar-powered business, you ensure the protection of the environment and reduce your company's carbon footprint on the planet. Studies also indicate that using solar energy for a long time also reduces utility costs. You can then invest the saved amount back into your business to promote advancements and innovations. Being a solar-powered business could be an alluring prospect for your potential business partners. Environment-inclined customers tend to turn to prefer "responsibly green" businesses, and these businesses also appease local and state regulators, governments, and hedge funds. Lower Maintenance Cost Another major reason solar power is beneficial for your business is low to zero maintenance of the installed solar panels. Agencies that provide solar panels offer a warranty of 20 to 25 years on them. Since solar panels have fewer movable parts, the chances of these parts disintegrating or rusting are highly unlikely as opposed to technology that relies on movable parts. Thus, switching to solar energy would be the appropriate step to take for your business. Things to Keep in Mind when Switching to Solar When investing in solar energy, there are a few imperatives that businesses must follow. No matter the size, your business must be located where there is adequate sunlight, a roof strong enough to sustain the panels, and be inclined to reduce the cost of all operations. There are various simple 'do-it-'yourself' kits launched in the market to entice small business owners to try and build these solar systems themselves. However, it is essential to work with a solar provider when installing solar panels to get the best outcome—as in any industrial field, consulting with a solar power expert would help you optimize costs and gain maximum benefits. Points to Explore Before Going Solar Amount of Electricity Consumed There are two main points to ponder over; "enough for one day" and "future years to come”. You could either sell excess energy produced to your local electricity supplier, which would add to your savings, or it could be stored with the help of li-ion batteries and utilized in the time of little to no sunshine. Financing Solar Power for Businesses Commercial solar power providers offer multiple business plans that would be best suited to the scale of your business. You can choose the better alternative for your business depending on how much discretionary cash you have and your solar infrastructure size. The size of the infrastructure will also depend on whether you want to gain dramatic results in terms of cost-saving or opt for low-cost start-ups and gain a more extended return on investment. Some enterprises buy solar equipment with cash or loans. This method would give you tax credits and incentives, thus offering you a higher return on investment (ROI). Another direction you could choose is going into a Power Purchase Agreement (PPA) with a solar energy provider and purchasing electricity from them at a lesser commercial cost. In a PPA, the developer looks after designing, permissions, financing, and installing the system for a meager amount. Details of your precise business requirements are vital to analyze the cost and time of ROI of the solar energy system. It would depend on the place you are at and the size of your system. To get these exact details, hire the best solar energy consultant for your exact needs. Important Steps to Remember Step 1: Outline your goals for a stable, sustainable, and financially sound future. Make sure that going solar is beneficial for your business. Calculate whether your region's utility costs are higher and hurt your business financially; whether there is ample storage space around your business to keep all the equipment. And whether adopting a green profile improves your goodwill in your local community. Step 2: Collect data on your electricity usage of at least one year to analyze the operating cost, energy spikes, and consumption patterns. Calculating business losses will aid in understanding the need to switch to solar energy. Step 3: Tie up with a commercial solar specialist when making the switch to solar energy. Often, customers fail to recognize the importance of this step. Avoid contractors who set up solar panels as a side business as they would not understand the intricacies of the job. Check all the references before you partner up with a specialist. Step 4: Last thing to keep in mind is thatgetting a solutions provider would make things easier for you. The provider will take care of everything- designing the system, finances, grid connection, and system maintenance. Ensure that you have a provider with sound support and has a portfolio of proven experience in solar infrastructure per your business needs. Frequently Asked Questions How much does solar cost? Ten years ago, the cost of a residential solar system was upwards of $50,000 for an average of 6 kilowatt-hour. Now, with a 62% average annual decrease, it ranges anywhere between $16,200 to $21,000. How does commercial solar work? Solar panels are made up of photovoltaic (PV) panels in a grid-like pattern that captures sunlight and converts it into electricity. The PV cells are made up of silicon with a positive and negative field that creates an electric field. Are commercial solar panels worth it? Commercial solar panels have a lifespan of 25-30 years. Although solar panels cost a lot initially, over the years, utility cost of your business will go down. There are also tax credits and incentives that the government offers when installing solar panels. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "How much does solar cost?", "acceptedAnswer": { "@type": "Answer", "text": "Ten years ago, the cost of a residential solar system was upwards of $50,000 for an average of 6 kilowatt-hour. Now, with a 62% average annual decrease, it ranges anywhere between $16,200 to $21,000." } },{ "@type": "Question", "name": "How does commercial solar work?", "acceptedAnswer": { "@type": "Answer", "text": "Solar panels are made up of photovoltaic (PV) panels in a grid-like pattern that captures sunlight and converts it into electricity. The PV cells are made up of silicon with a positive and negative field that creates an electric field." } },{ "@type": "Question", "name": "Are commercial solar panels worth it?", "acceptedAnswer": { "@type": "Answer", "text": "Commercial solar panels have a lifespan of 25-30 years. Although solar panels cost a lot initially, over the years, utility cost of your business will go down. There are also tax credits and incentives that the government offers when installing solar panels." } }] }

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Sustainability

More Solar Ready To Help Power Pumping For SA Water

Article | July 7, 2023

SA Water’s electricity supply is about to become greener and cheaper again with the addition of another major solar power system, and an even bigger installation to soon follow. The utility says more 7,300 solar panels installed at the second pump station on its pipeline between Swan Reach and Stockwell are now connected and ready to go. “The Swan Reach to Stockwell Pipeline spans across more than 50 kilometres inland from the mighty Murray across to the northern Barossa area, and therefore requires significant energy to pump clean, safe drinking water across such large distances,” said SA Water’s Nicola Murphy While the total capacity of this new solar farm wasn’t provided, Ms. Murphy said it will generate approximately 5,224 megawatt hours of clean, green energy annually. There’s more solar energy to come for this section of pipeline, with a further 16,000 panels currently being connected at the first pump station.

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Solar+Storage, Strategy and Best Practices

7 Necessary Steps for Effective Energy Management

Article | September 17, 2022

In a global economy, sustainability has become an important part of a company's business plan. Leading companies throughout the globe recognize that sustainability is critical to decreasing costs, expanding into new markets, and driving innovation and effectiveness throughout a company. Pollution prevention, or P2, is a key component of sustainability. Businesses can integrate sustainability into everyday operations in ways that encourage long-term cost savings and enhance environmental performance by effectively implementing P2 and Energy Efficiency (E2) initiatives. The ability of a company to recognize and integrate relative information, identify the relationship of environmental performance to the business model, and concentrate existing systems and resources towards specific goals is often a direct outcome of the successful execution of pollution-prevention and energy-efficiency initiatives. Management's complete support is required for planning, developing, and executing sustainability measures within a company framework. 7 Necessary Steps for Effective Energy Management Make the Commitment The most important step in closing the P2 implementation gap is a commitment to continuous improvement. Accomplishing P2 and E2 successful implementation through the seven-step process usually requires top-level support, clearly communicated through an environmental and energy management strategy; the formation of a cross-functional team representing the company's administrative and process knowledge, and the appointment of a leader to make sure consistency of focus, communication, and effort. As a crucial business strategy, an engaged collective effort backed by management will ensure a company's ability to recognize and achieve P2 and E2 results. Assess Performance and Opportunities Understanding present and historical waste generation and energy consumption is the initial step in identifying environmental performance possibilities. A cross-functional team-based evaluation that assesses performance, systems, and equipment will harness a company's intellectual capital and enable it to identify improvement possibilities from several viewpoints. Conversations with operational personnel can result in "ah-ha" moments that solve issues and provide new solutions. Evaluating environmental performance on the basis of data analysis and setting baselines to monitor progress utilizing the company's knowledge base will open up fresh perspectives on the commercial prospects that P2 and E2 can bring. Set Performance Goals Setting ambitious but reasonable objectives for enhancing environmental performance will motivate behaviors that lead to positive results. This stage establishes a shared vision of progress throughout the company while capturing the commitment to reduce pollution and energy consumption. By establishing particular areas of progress and setbacks, performance targets aid in monitoring the effectiveness of the environmental and/or energy management program. Goals that are effective will define the scope and assess the possibility for progress. Create an Action Plan A plan of action acts as a framework for guiding and monitoring the methodical approach to better environmental performance. It helps the team concentrate by demonstrating the breadth and size of objectives, targets, responsibilities, and resources. The strategy must be accepted by all parts of the institution that it targets in order to be successful. Implement the Action Plan Developing a communication strategy, increasing awareness, developing capacity, motivating personnel, and monitoring progress are all key components to effectively executing the action plan. It is vital to communicate the action plan, which will need an overall statement concerning purpose, policies, and progress. While the communication strategy is intended to create knowledge regarding energy efficiency and environmental sustainability, workers, customers, and society should also be educated on how they can help enhance environmental performance. Recognizing training requirements can also aid in the effective implementation of pollution prevention and energy efficiency initiatives. Continuous feedback on accomplishments can help drive employees to continue improving. Evaluate Progress The action plan will be evaluated on a regular basis to keep the team updated on progress toward the stated environmental performance improvement targets. A review of the action plan will reveal any efficiency measures that need to be changed or added. Recognize Achievements Once the momentum for pollution avoidance and energy efficiency has been generated, it is critical to maintain it. A commitment to continuous development must be maintained throughout the seven-step strategy to be successful. A dedicated leader driving the process and a motivated team carrying it out give the greatest possibility for a long-term program that produces results. Closing Lines It is critical to remember these fundamental energy management steps while developing a successful energy management program. Moreover, the global landscape is rapidly changing. As a result, it is always in need of creative and efficient energy management solutions. As a result, businesses are employing specialists to handle this.

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Energy

How viable is Underground Hydrogen Storage?

Article | December 23, 2021

Cleaner energy resources are the dire need of the hour and this is a known fact. While scientists and experts across the planet are striving hard to reduce our reliance on fossil fuels, our energy needs have never faced a downfall- thanks to rapid industrialization and urbanization. Although renewable resources like solar, wind, and hydro-electric power are the most popular alternatives, these are seasonal energy sources and the energy production from the same will not be similar all around the year. The fluctuations in production hence cannot always meet the energy demand of the population, and this makes the renewable energy sources not completely reliable. Solar Production v/s Demand of the same in a year What and How H2 is produced? Now, this is where Hydrogen- the first element of the periodic table comes to the spotlight with a solution. Being a gas, hydrogen fuel can very well cater to our energy needs and is produced from techniques including Thermochemical, Solar-Water splitting, electrolytic and biological processes. While the production of this cleaner energy source leaves a carbon footprint of about 830 million tonnes in the form of CO2 annually, the result being a zero-emission fuel is what makes H2’s future bright. Storage of H2 – the million-dollar question: Having almost cleared the need and methods of producing hydrogen fuel, we will be looking at an area that is usually not given much thought about and that is the storage of H2. As already mentioned, for time being let us consider hydrogen as an alternative to renewable resources which is utilized when the energy demand increases drastically. While producing the fuel in the nick of time is obviously undoable, sufficient storage of H2 anticipating the demand is the best choice. Like Natural Gas, Hydrogen is also compressed before storing to achieve lower volume and also because liquid hydrogen demands a 64% higher amount of energy for storage than its compressed gaseous counterpart. Storage tanks v/s Geological landforms: Compressed Hydrogen can be stored in surface storage vessels (like steel composite concrete vessels and in wind turbine towers) or in geological landforms like (salt caverns, depleted O&G reservoirs, and aquifers). Nevertheless, unlike the underground geological landforms which offer huge storage capacity owing to their sheer scale, the storage tanks which can range in size from a small bottle to a huge tank require high amounts of pressure to store an appreciable amount of H2 in it. Since these storage tanks are usually constructed on the surface, the pressure conditions in these tanks need to be artificially stimulated and thereby mount huge upfront costs when compared to their geological storage counterpart. H2 storage prices in Geological Landforms v/s Storage Vessels (in $/kg) The above is a table comparing the prices of Hydrogen storage in Geological landforms and Storage Vessels at different pressure conditions. It is visible from the table that it's about 218 times cheaper to store the same amount of hydrogen in Geological landforms than in storage vessels. Is geological storage truly a better option? Like any other storage option geological storage too has its pros and cons. From the erosion of pipelines to the tedious task of injecting the gas and maintaining it at apt pressure conditions, geological storage has its limitations. However, the important prerequisite is the availability of the suitable landform itself. While most of the Depleted O&G Reservoirs have already met all the requirements for a suitable Underground Hydrogen Storage (UHS) system, the presence of unrecoverable remnant fluids in it makes it both a boon and a bane. This is because the presence of remnant fluids like oil and gas satisfies the cushion gas need for efficient storage of H2 in the reservoir, chances of contamination of H2 by the same is also high. This is the reason why Aquifers too aren’t favorable underground landforms when it comes to hydrogen storage. Salt Caverns- the best UHS System? The problem of Hydrogen contamination in Depleted Oil & Gas reservoirs and aquifers leaves us to the next big suitable subsurface landform- salt caverns. Unlike the other two landforms, the problem of contamination can be prevented in these dome-like structures formed due to the upliftment of salt deposits and it is also found that about 98% of its storage efficiency can be used to store Hydrogen here. The reason behind its relatively expensive nature when compared to its other two counterparts is due to the process of salt removing or leaching that must be done before storing to ensure that the contamination of the gas is unheard of at least here. Suitable Conditions of UHS: As per Stefan Iglauer, the maximum amount of H2 can be stored at a depth of 1100m beneath the Earth’s surface and the capacity gradually decreases up until 3700 m depth beyond which the wettability of the gas increases as it percolates through the rocks and hence cannot be permanently immobilized. Conclusively it is found that suitable landforms formed at 1km depth can store up to 2.0 Mt of H2. Comparing this 2 MT storage capacity of Salt Caverns with the currently available storage tanks which can store about 800 kg of H2 in it, it is visible that geological landforms have a clear upper hand at least when it comes to storage capacity. Future of UHS: With demands for Hydrogen fuel estimated to grow at 5.48 % annually and the need for a suitable storage system of the same at 5.8% annually, the field of Underground Hydrogen Storage systems indeed has a bright scope. Moreover, to meet the large-scale needs of Industries, there is an imminent need to level up the storage capacity of H2 and by exploring suitable geological landforms across the globe, the estimated industrial need of 1200 kT/ year in 2050 can be met.

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Apex Energy Australia

Apex Energy Australia is Australian owned and operated from our Head Office located in South Australia. We are a design and construction company delivering Solar and Battery Storage Projects around Australia with a reputation for delivering client-focused solutions.

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Energy

Greenwood Sustainable Infrastructure (GSI)-Led Joint Initiative with Ocean Man First Nation to Build One of the Largest Solar Projects in Canada

PR Newswire | January 25, 2024

Greenwood Sustainable Infrastructure LLC (GSI), one of the renewable energy subsidiaries of Libra Group, announced that Iyuhána Solar (Iyuhána), a GSI-led partnership with Saturn Power Inc. and Ocean Man First Nation, has been awarded a Power Purchase Agreement (PPA) to construct and operate a 100-megawatt (MWac) utility-scale solar facility in Saskatchewan, Canada. Developed in partnership with Ocean Man First Nation, the project will be one of Canada's top 10 solar facilities by size. Under an exclusive PPA, the largest with a utility in Canada since 2015, Iyuhána plans to invest approximately $200 million (CDN) to construct the solar facility, which it will operate, supplying generated power to the principal municipal utility company, SaskPower, for 25 years. Located in the Rural Municipality of Estevan in southeast Saskatchewan, this emissions-free solar facility will produce enough power for the equivalent of approximately 25,000 homes. "We are proud to bring the transformative power of solar energy to Saskatchewan by working with partners such as Ocean Man First Nation," said Mazen Turk, CEO of GSI. "This unique collaboration shows the power of renewable energy to harness resources and empower communities responsibly. This work is core to our ethos as a Libra company, and we look forward to continuing to help support a clean energy future across Canada and beyond." As a founding partner, Ocean Man First Nation will have an ownership stake in Iyuhána Solar. Band members will also receive specialized training to maintain the solar facilities and employment opportunities with the project. Additionally, partnering with two of Saskatchewan's leading post-secondary academic institutions, Iyuhána will provide scholarships, internships, and direct research projects in clean energy to benefit the community. "Our partnership with GSI and SaskPower will bring great opportunities for Ocean Man First Nation, including employment and revenue that will provide stability and sustainability for our Band," said Chief Connie Big Eagle, Ocean Man First Nation. "We are proud that this project, which is able to generate clean power, will be known as Iyuhána Solar, which, in Nakotah translates to 'everyone' or 'all of us.' This is derived from our Nakotah belief that everyone and everything is related and therefore we must care for each other." While investment in renewable energy grows across Canada, Saskatchewan's clean power supply mix has predominantly consisted of hydro and wind. This is the first of many planned solar projects in the province; by 2035, SaskPower plans to support approximately 3000 MW of new renewable energy capacity in the region. "This new solar facility will play an important role in our path to net-zero by 2050 or sooner," said Rupen Pandya, SaskPower President and CEO. "We are proud of our ongoing collaboration with Indigenous peoples and the critical role they are playing in the successful expansion of renewable energy in our province." GSI is one of four renewable energy subsidiaries of Libra Group, a privately owned, global business group that encompasses 20 businesses in six sectors, including renewable energy, maritime, aerospace and more. The Group's renewable energy portfolio encompasses approximately 3.5 gigawatts (GW) of projects owned, developed, or pending development in 10 countries, including solar, wind, battery storage, and waste-to energy projects. This is the second partnership with an indigenous community led by a Libra Group subsidiary. "Libra Group is proud of this novel partnership, which has come together through shared values and a commitment to driving economic growth and positive outcomes for communities," said Libra Group's CEO Manos Kouligkas. "Sustainability is core to our global business, and we look forward to continuing to leverage synergies across our six sectors in 60 countries with agility and impact." Last year, GSI acquired Saturn Power Inc.'s solar and battery development portfolios, including its team of seasoned developers and an approximate 1.4-gigawatt (GW) pipeline of early- to late-stage solar and energy storage projects. Today, GSI has a footprint across Canada and in 12 U.S. states. About Greenwood Sustainable Infrastructure Greenwood Sustainable Infrastructure (GSI) is one of the clean energy subsidiaries of Libra Group. GSI is a renewable energy company focused on the development, construction, and operation of distributed generation and utility-scale solar energy and battery storage projects in North America. As of January 2024, the company developed approximately 388 MW DC across 71 renewable energy projects, many of which are still owned or operated by GSI and have an additional project pipeline of 1.6 GW. GSI's seasoned team has a proven track record of investing in power assets and partnering with multiple top-tiered investors. For more information on Greenwood Sustainable Infrastructure (GSI), visit: http://www.greenwoodinfra.com/ About Ocean Man First Nation The Ocean Man First Nation is a Nakota, Cree, and Saulteaux Band Government in southeast Saskatchewan. OMFN is led by Chief Connie Big Eagle & Council and features a population of 565 members. Ocean Man First Nation created a renewable energy company in 2019 called Second Wind Power. The name Second Wind Power reflects Ocean Man First Nation's history of relocating, re-establishing and starting over as a new community since 1989. About Libra Group Libra Group is a privately owned, global business group encompassing 20 businesses predominately focused on aerospace, renewable energy, maritime, real estate, hospitality, and diversified investments. With assets and operations in nearly 60 countries, the Group applies the strength of its global network and capabilities to deliver cross-sector insights and growth at scale.

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Energy

ACE Green completes successful handover of emissions-free lead recycling facility to ACME

PR Newswire | January 16, 2024

ACE Green Recycling (ACE) has successfully delivered the first of three phases of its proprietary zero-emissions modular lead battery recycling technology to ACME Metal Enterprise's facility in Keelung City, Taiwan. As part of the agreement, ACE will provide equipment and proprietary chemicals to enable ACME to produce "GreenLead™" in a safe, sustainable and economical way. This marks the second successful deployment of ACE's pioneering lead battery recycling technology. ACME is Taiwan's leading lead recycler, with over 40 years of successful operation. Through its partnership with ACE, ACME will become one of the largest producers of emissions-free lead, with a capacity to recycle 20,000 metric tonnes per year of lead batteries to produce about 12,000 metric tonnes of environmentally friendly "GreenLead™", generating nearly USD 24 million in annual revenue for the Taiwanese company. Of the deal, Linus P. Lu, Managing Director of ACME, said: "We are excited and pleased to have successfully completed the installation of ACE's lead battery recycling technology at our facility. This marks an important milestone for ACME as we build our capacity to provide sustainable lead recycling capabilities – not just for our company but for the entire lead battery ecosystem as well." Lead batteries are a key element in the automotive and telecoms industries, while also playing a crucial role in the energy transition for renewable power storage. Traditionally, lead batteries are recycled via a smelting process which involves operating temperatures of over 1,000°C, producing significant greenhouse gas (GHG) emissions, plus toxic solid waste that must go to landfill. ACE's room temperature recycling technology replaces the smelting furnace, is electrically powered, has zero Scope 1 GHG emissions and reduces solid waste by over 85%. The process will greatly enhance ACME's profitability and minimize their operator and environmental risks. Phase I of the agreement for 2,400 metric tons per annum was successfully handed over to ACME in December 2023, with Phases II and III to increase annual capacity to around 20,000 metric tonnes, which will proceed later this year. During the 10-year contractual duration of 10 years, these facilities will enable the recycling of over 14 million scrap batteries. This will prevent the emission of nearly 120 million kilograms of CO2e, stop 18 million kilograms of solid waste from going into landfill and enable recycling of more than 14 million kilograms of plastics, while providing high-paying, sustainable green jobs for the community. This collaboration with ACME demonstrates ACE's deep commitment to the battery market. Sales of GreenLead™ from ACME's facility will reach the key markets of Taiwan and Japan, including leading battery OEMs across Asia. "It is our goal as a battery recycling technology platform to provide all players in the ecosystem a way to meet not just their commercial goals but their environmental ones as well," said ACE Green CEO Nishchay Chadha. "We develop our carbon-free recycling technologies to meet the industry's global aspirations to be responsible stakeholders in the mission of meeting net-zero targets." Lead batteries remain an essential component of global electrification. By successfully deploying its green solutions, ACE will continue to support and champion the lead industry and provide not just a profitable solution, but a sustainable one for all secondary lead producers. ACE is a market leader in both lead and lithium-ion battery recycling technologies and is partnering with companies worldwide to help them set up environmentally friendly battery recycling facilities. The company has a team of over 70 people and is dual headquartered in the US and Singapore. Forward-Looking Statements This document contains certain forward-looking statements regarding ACE's technological capabilities and future business aspirations. All statements are based upon current ACE expectations and involve a number of business and technical risks and uncertainties that could cause actual results to differ materially from anticipated results described, implied or projected in any forward-looking statement, including, without limitation, regulatory approvals, unexpected changes in technologies, uncertainties inherent in technological development, scaling and roll out, intellectual property protection, and sources and availability of third-party financing.

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Energy

Eletopia Revolutionizes Energy Storage Solutions in the US

PR Newswire | January 15, 2024

Eletopia, a leading provider of smart energy storage solutions, is transforming the energy storage market with innovative technology. Integrating advanced battery management, energy conversion, and intelligent energy operation, Eletopia offers comprehensive solutions, redefining home energy management. In an era prioritizing energy reliability and sustainability, Eletopia's whole-house backup power solution will impact the power plans for U.S. homeowners. Providing security during outages, the H2 series Hybrid Inverter efficiently convert solar energy during low consumption periods. Through the B2 series High Voltage Battery and the mobile storage unit S36 series Portable Power Station, they stored electricity ensures uninterrupted power for essential household appliances, electronics, and systems. Eletopia's Smart Backup Unit (SBU) seamlessly switches between solar, grid, and generator power sources, ensuring continuous functionality. Eletopia's solution guarantees reliable backup power, keeping households operational. At the core of Eletopia's offering is the All-in-one Smart Energy Management System (EMS), empowering homeowners with complete control of their energy usage. Offering features like power station monitoring, AI diagnostics, AI Saving, and more, this system provides efficient energy management for every home. Eletopia prioritizes safety, efficiency, and profitability. Their solutions integrate power generation, energy storage, consumption, and operational services, amplifying the value of energy storage. Leveraging advanced battery management, energy conversion, and smart storage technology, Eletopia enables homeowners to optimize resources for a greener, sustainable future. Eletopia credits its success to a diverse team of American and global experts in the energy sector. From battery technologists to marketing specialists, their collective expertise ensures cutting-edge solutions tailored for American homeowners. Beyond innovation, Eletopia focuses on customer-centricity. Collaborating closely with clients, they address specific requirements, ensuring project success and seamless operation. This commitment, coupled with exceptional service, has established Eletopia as a trusted industry partner. About Eletopia: Eletopia specializes in comprehensive, smart energy storage solutions merging power generation, energy storage, consumption, and operational services. Our suite of cutting-edge technologies—advanced battery management, energy conversion, equipment integration, smart storage management, and operational expertise—aims to increase the value of energy storage. Committed to becoming a global leader, we serve partners and end-users seeking professional, innovative brands in smart energy management.

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Energy

Greenwood Sustainable Infrastructure (GSI)-Led Joint Initiative with Ocean Man First Nation to Build One of the Largest Solar Projects in Canada

PR Newswire | January 25, 2024

Greenwood Sustainable Infrastructure LLC (GSI), one of the renewable energy subsidiaries of Libra Group, announced that Iyuhána Solar (Iyuhána), a GSI-led partnership with Saturn Power Inc. and Ocean Man First Nation, has been awarded a Power Purchase Agreement (PPA) to construct and operate a 100-megawatt (MWac) utility-scale solar facility in Saskatchewan, Canada. Developed in partnership with Ocean Man First Nation, the project will be one of Canada's top 10 solar facilities by size. Under an exclusive PPA, the largest with a utility in Canada since 2015, Iyuhána plans to invest approximately $200 million (CDN) to construct the solar facility, which it will operate, supplying generated power to the principal municipal utility company, SaskPower, for 25 years. Located in the Rural Municipality of Estevan in southeast Saskatchewan, this emissions-free solar facility will produce enough power for the equivalent of approximately 25,000 homes. "We are proud to bring the transformative power of solar energy to Saskatchewan by working with partners such as Ocean Man First Nation," said Mazen Turk, CEO of GSI. "This unique collaboration shows the power of renewable energy to harness resources and empower communities responsibly. This work is core to our ethos as a Libra company, and we look forward to continuing to help support a clean energy future across Canada and beyond." As a founding partner, Ocean Man First Nation will have an ownership stake in Iyuhána Solar. Band members will also receive specialized training to maintain the solar facilities and employment opportunities with the project. Additionally, partnering with two of Saskatchewan's leading post-secondary academic institutions, Iyuhána will provide scholarships, internships, and direct research projects in clean energy to benefit the community. "Our partnership with GSI and SaskPower will bring great opportunities for Ocean Man First Nation, including employment and revenue that will provide stability and sustainability for our Band," said Chief Connie Big Eagle, Ocean Man First Nation. "We are proud that this project, which is able to generate clean power, will be known as Iyuhána Solar, which, in Nakotah translates to 'everyone' or 'all of us.' This is derived from our Nakotah belief that everyone and everything is related and therefore we must care for each other." While investment in renewable energy grows across Canada, Saskatchewan's clean power supply mix has predominantly consisted of hydro and wind. This is the first of many planned solar projects in the province; by 2035, SaskPower plans to support approximately 3000 MW of new renewable energy capacity in the region. "This new solar facility will play an important role in our path to net-zero by 2050 or sooner," said Rupen Pandya, SaskPower President and CEO. "We are proud of our ongoing collaboration with Indigenous peoples and the critical role they are playing in the successful expansion of renewable energy in our province." GSI is one of four renewable energy subsidiaries of Libra Group, a privately owned, global business group that encompasses 20 businesses in six sectors, including renewable energy, maritime, aerospace and more. The Group's renewable energy portfolio encompasses approximately 3.5 gigawatts (GW) of projects owned, developed, or pending development in 10 countries, including solar, wind, battery storage, and waste-to energy projects. This is the second partnership with an indigenous community led by a Libra Group subsidiary. "Libra Group is proud of this novel partnership, which has come together through shared values and a commitment to driving economic growth and positive outcomes for communities," said Libra Group's CEO Manos Kouligkas. "Sustainability is core to our global business, and we look forward to continuing to leverage synergies across our six sectors in 60 countries with agility and impact." Last year, GSI acquired Saturn Power Inc.'s solar and battery development portfolios, including its team of seasoned developers and an approximate 1.4-gigawatt (GW) pipeline of early- to late-stage solar and energy storage projects. Today, GSI has a footprint across Canada and in 12 U.S. states. About Greenwood Sustainable Infrastructure Greenwood Sustainable Infrastructure (GSI) is one of the clean energy subsidiaries of Libra Group. GSI is a renewable energy company focused on the development, construction, and operation of distributed generation and utility-scale solar energy and battery storage projects in North America. As of January 2024, the company developed approximately 388 MW DC across 71 renewable energy projects, many of which are still owned or operated by GSI and have an additional project pipeline of 1.6 GW. GSI's seasoned team has a proven track record of investing in power assets and partnering with multiple top-tiered investors. For more information on Greenwood Sustainable Infrastructure (GSI), visit: http://www.greenwoodinfra.com/ About Ocean Man First Nation The Ocean Man First Nation is a Nakota, Cree, and Saulteaux Band Government in southeast Saskatchewan. OMFN is led by Chief Connie Big Eagle & Council and features a population of 565 members. Ocean Man First Nation created a renewable energy company in 2019 called Second Wind Power. The name Second Wind Power reflects Ocean Man First Nation's history of relocating, re-establishing and starting over as a new community since 1989. About Libra Group Libra Group is a privately owned, global business group encompassing 20 businesses predominately focused on aerospace, renewable energy, maritime, real estate, hospitality, and diversified investments. With assets and operations in nearly 60 countries, the Group applies the strength of its global network and capabilities to deliver cross-sector insights and growth at scale.

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ACE Green completes successful handover of emissions-free lead recycling facility to ACME

PR Newswire | January 16, 2024

ACE Green Recycling (ACE) has successfully delivered the first of three phases of its proprietary zero-emissions modular lead battery recycling technology to ACME Metal Enterprise's facility in Keelung City, Taiwan. As part of the agreement, ACE will provide equipment and proprietary chemicals to enable ACME to produce "GreenLead™" in a safe, sustainable and economical way. This marks the second successful deployment of ACE's pioneering lead battery recycling technology. ACME is Taiwan's leading lead recycler, with over 40 years of successful operation. Through its partnership with ACE, ACME will become one of the largest producers of emissions-free lead, with a capacity to recycle 20,000 metric tonnes per year of lead batteries to produce about 12,000 metric tonnes of environmentally friendly "GreenLead™", generating nearly USD 24 million in annual revenue for the Taiwanese company. Of the deal, Linus P. Lu, Managing Director of ACME, said: "We are excited and pleased to have successfully completed the installation of ACE's lead battery recycling technology at our facility. This marks an important milestone for ACME as we build our capacity to provide sustainable lead recycling capabilities – not just for our company but for the entire lead battery ecosystem as well." Lead batteries are a key element in the automotive and telecoms industries, while also playing a crucial role in the energy transition for renewable power storage. Traditionally, lead batteries are recycled via a smelting process which involves operating temperatures of over 1,000°C, producing significant greenhouse gas (GHG) emissions, plus toxic solid waste that must go to landfill. ACE's room temperature recycling technology replaces the smelting furnace, is electrically powered, has zero Scope 1 GHG emissions and reduces solid waste by over 85%. The process will greatly enhance ACME's profitability and minimize their operator and environmental risks. Phase I of the agreement for 2,400 metric tons per annum was successfully handed over to ACME in December 2023, with Phases II and III to increase annual capacity to around 20,000 metric tonnes, which will proceed later this year. During the 10-year contractual duration of 10 years, these facilities will enable the recycling of over 14 million scrap batteries. This will prevent the emission of nearly 120 million kilograms of CO2e, stop 18 million kilograms of solid waste from going into landfill and enable recycling of more than 14 million kilograms of plastics, while providing high-paying, sustainable green jobs for the community. This collaboration with ACME demonstrates ACE's deep commitment to the battery market. Sales of GreenLead™ from ACME's facility will reach the key markets of Taiwan and Japan, including leading battery OEMs across Asia. "It is our goal as a battery recycling technology platform to provide all players in the ecosystem a way to meet not just their commercial goals but their environmental ones as well," said ACE Green CEO Nishchay Chadha. "We develop our carbon-free recycling technologies to meet the industry's global aspirations to be responsible stakeholders in the mission of meeting net-zero targets." Lead batteries remain an essential component of global electrification. By successfully deploying its green solutions, ACE will continue to support and champion the lead industry and provide not just a profitable solution, but a sustainable one for all secondary lead producers. ACE is a market leader in both lead and lithium-ion battery recycling technologies and is partnering with companies worldwide to help them set up environmentally friendly battery recycling facilities. The company has a team of over 70 people and is dual headquartered in the US and Singapore. Forward-Looking Statements This document contains certain forward-looking statements regarding ACE's technological capabilities and future business aspirations. All statements are based upon current ACE expectations and involve a number of business and technical risks and uncertainties that could cause actual results to differ materially from anticipated results described, implied or projected in any forward-looking statement, including, without limitation, regulatory approvals, unexpected changes in technologies, uncertainties inherent in technological development, scaling and roll out, intellectual property protection, and sources and availability of third-party financing.

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Energy

Eletopia Revolutionizes Energy Storage Solutions in the US

PR Newswire | January 15, 2024

Eletopia, a leading provider of smart energy storage solutions, is transforming the energy storage market with innovative technology. Integrating advanced battery management, energy conversion, and intelligent energy operation, Eletopia offers comprehensive solutions, redefining home energy management. In an era prioritizing energy reliability and sustainability, Eletopia's whole-house backup power solution will impact the power plans for U.S. homeowners. Providing security during outages, the H2 series Hybrid Inverter efficiently convert solar energy during low consumption periods. Through the B2 series High Voltage Battery and the mobile storage unit S36 series Portable Power Station, they stored electricity ensures uninterrupted power for essential household appliances, electronics, and systems. Eletopia's Smart Backup Unit (SBU) seamlessly switches between solar, grid, and generator power sources, ensuring continuous functionality. Eletopia's solution guarantees reliable backup power, keeping households operational. At the core of Eletopia's offering is the All-in-one Smart Energy Management System (EMS), empowering homeowners with complete control of their energy usage. Offering features like power station monitoring, AI diagnostics, AI Saving, and more, this system provides efficient energy management for every home. Eletopia prioritizes safety, efficiency, and profitability. Their solutions integrate power generation, energy storage, consumption, and operational services, amplifying the value of energy storage. Leveraging advanced battery management, energy conversion, and smart storage technology, Eletopia enables homeowners to optimize resources for a greener, sustainable future. Eletopia credits its success to a diverse team of American and global experts in the energy sector. From battery technologists to marketing specialists, their collective expertise ensures cutting-edge solutions tailored for American homeowners. Beyond innovation, Eletopia focuses on customer-centricity. Collaborating closely with clients, they address specific requirements, ensuring project success and seamless operation. This commitment, coupled with exceptional service, has established Eletopia as a trusted industry partner. About Eletopia: Eletopia specializes in comprehensive, smart energy storage solutions merging power generation, energy storage, consumption, and operational services. Our suite of cutting-edge technologies—advanced battery management, energy conversion, equipment integration, smart storage management, and operational expertise—aims to increase the value of energy storage. Committed to becoming a global leader, we serve partners and end-users seeking professional, innovative brands in smart energy management.

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