Elan’s 100% Green Energy Efforts Earn Green Star Recognition | Shop-Eat-Surf – Shop-Eat


Elan, the only global ski manufacturer handcrafting skis 100% on green energy and 100% in the Slovenian Alps, for 77 years, earns the coveted GREEN STAR Certificate for the company’s integration of social responsibility and sustainability plans through 2030 and beyond.

Elan handcrafts in the heart of Slovenian Alps foto Rozle Bregar

Elan handcrafts in the heart of Slovenian Alps. Photo credit: Rozle Bregar

As a heritage brand, deeply connected to its local community and environment, sustainable development has always been part of Elan’s identity. Today, Elan is the only global ski manufacturing company running 100% on green energy that can claim all products are handmade in a single location in the Alps, with an emphasis on sustainability of the supply chain declaring 99% of the raw materials used to make skis come from the European Union, with nearly 70% coming from within 400 kilometres of the Elan Factory. Furthermore, the company uses sustainable-sourced wood with controlled origin and traceability.

2022 has been a landmark year for Elan by building a solar power plant at the company’s headquarters, allowing its production to be powered by electricity generated 100% from sustainable renewable energy sources (RES) and working towards an emission free future. This follows the company’s various sustainability efforts over the past decade such as pioneering a new standard in the industry for digital printing technology, saving over 32 tons of volatile organic compounds (VOC) waste alone at Elan, since 2016.

The company’s actions have been recently recognized by GREEN STAR, the first certificate of its kind for contribution to climate neutrality and a greener future. CER Sustainable Business Network – the Slovenian-based third-party assessment uses science-based metrics and data to set strategic priorities and highlight areas of improvement to help achieve green transformation and the road to net zero, giving Elan a recognition of an “determined challenger”.

“When you place sustainability in the context of a business balance sheet and use it as a cornerstone of the business ethos, it transforms into an opportunity to drive the strategic direction of the business and harness its innovative potential,” says Director of Elan’s Winter Division, Leon Korošec. “When your work is so closely intertwined with nature the lines between personal commitment to the future of the environment and business commitment to sustainable growth become blurred. But that’s why we are sustainable by nature.”

Elan draws inspiration for a sustainable future from its environment, the local Slovenian Alps and its people, the multi-generational employees committed to designing skis of the future but also the future of skiing while protecting the plant.

For more information visit: https://elanskis.com/us_en/sustainability

About Elan

Elan is a dedicated ski manufacturer in the Slovenian Alps with over 77 years of experience building the best skis in the world for friends and families who live the skiing lifestyle and are all about good times in the mountains. Earning praise year after year in test results and design awards, the innovative product manufactured reflects the brand’s heritage and dedication to not just building skis but building BETTER skis to produce lifetime experiences in the mountains. For more information, please visit: https://www.elanskis.com/en/

More on: www.elanskis.com

INNIO powers Raven SR’s waste-to-hydrogen plant with renewables | Biomassmagazine.com

INNIO in collaboration with Raven SR on Aug. 11 announced Raven SR’s plans to use INNIO’s Jenbacher engines [60 Hz] with a “Ready for H2” option to produce renewable energy. The energy system will power and heat Raven SR’s S- Series hydrogen production facility at a sanitary landfill in Richmond, California. At the site, landfill gas (LFG) will be the primary fuel to provide power for the non-combustion process that converts waste to hydrogen. The hydrogen product will be resold to power fuel cells in heavy-duty trucks. The Raven SR process will also provide a residual fuel containing residual green hydrogen from the concentration process to supplement the LFG to fuel the Jenbacher Ready-for-H2 engines to generate renewable power in a continuous loop.

The collaboration with Raven’s technology offers a strong renewable hydrogen alternative to electrolysis, using less electricity and no need for fresh water. INNIO’s Jenbacher engines will allow the Raven facility to generate a significant amount of their own electricity, reducing demand on California’s electrical grid.

“We are proud to collaborate with Raven on this hydrogen industry first, which is a milestone in the interconnecting of transportation and industry with the power producing sector,” commented Olaf Berlien, president and CEO of INNIO. “This project produces onsite renewable hydrogen from waste, uses a blend of hydrogen to generate energy to power operations, and provides renewable hydrogen for the transportation industry. This is a model example of how innovation can enable sector coupling which will be critical on the global path to net zero.”

“INNIO is able to meet our delivery schedule and provide engines that are compliant with emissions requirements for a blend of CO2, methane and hydrogen,” said Matt Murdock, CEO of Raven SR. “The Jenbacher engines are a very important element for us to realize our objective of producing renewable hydrogen with our non-combustion Steam/CO2 Reformation Process, independent of the grid. Raven’s success in the increasing energy and electricity crisis requires that we generate autonomous power onsite,” said Matt Murdock, CEO of Raven SR. “To succeed in the energy transition, collaboration among best-in-class engineering around the world is required. We are grateful to work with INNIO on this advanced, self-contained renewable energy design.”

Raven SR plans to bring its S-Series online in the first quarter of 2023 at the Republic Services West Contra Costa Sanitary Landfill in Richmond, California. This project will initially process up to 99.9 tons of organic waste per day and produce up to 2,000 metric tons per year of hydrogen.



Constellation Energy Helps Chicago Purchase All Renewable Energy by 2025

(Credit: Pixabay)

Chicago’s Department of Assets, Information, and Services (AIS) has announced an agreement with Constellation Energy, in collaboration with Swift Current Energy, to help purchase renewable energy for all city facilities and operations by 2025, making Chicago one of the largest cities in the country to do so. 

The city has signed an energy supply agreement with an initial five-year term with Constellation beginning in January 2023. As part of the agreement with Constellation, beginning in 2025, the City will partially source its large energy users such as the airports, Harold Washington Library Center, and Jardine Water Purification Plant with renewable energy from a new solar generation installation currently being developed by Swift Current Energy in downstate Sangamon and Morgan counties. The city will also procure renewable energy credits (RECs) from other sources for its remaining power users, such as small and medium-sized buildings and streetlights. Swift Current Energy will own and operate Double Black Diamond Solar, which at 593 megawatts, is expected to be one of the largest solar projects in Illinois to date.

This agreement will help in reducing Chicago’s carbon footprint and accelerating the transition to renewable energy outlined in the 2022 Chicago Climate Action Plan (CAP). The 2022 CAP details an interim 62% reduction in greenhouse gas emissions by 2040 through direct investment and action by the City of Chicago. By procuring solar energy for city operations, Chicago is expected to reduce its carbon footprint by more than 290,000 metric tons each year. The city’s participation in Bloomberg Philanthropies’ American Cities Climate Challenge helped the city, through technical advisors, in designing this process. 

The City of Chicago will apply for the Illinois Power Agency’s Renewable Portfolio Standard (RPS) “Self-Direct” credit program made available through CEJA. The Self-Direct program provides eligible large energy consumers like the city with an electricity bill credit for REC purchases from qualified wind and solar resources. The program will help Illinois meet its statewide RPS targets. The city has already begun transitioning its fleet to all-electric vehicles with a commitment to a full transition by 2035. Additionally, the city has allocated dollars in the Chicago Recovery Plan to accelerate energy retrofits and renewable energy generation, beginning with libraries in underserved communities on the South and West sides.

As a next step, AIS and the Chief Sustainability Officer will encourage additional local, distributed renewable generation, city asset energy efficiency projects, and energy storage in the city itself. 

PNC Bank has also signed a 78 MW deal with Constellation to power nearly 50% of its legacy operations in Pennsylvania, Ohio, Maryland, New Jersey, Delaware, District of Columbia, and parts of Illinois with renewable electricity. 

PNC Bank will receive approximately 148 million kilowatt hours of energy per year through its retail agreement with Constellation, with that energy matched by Green-e Energy Certified RECs sourced from other renewable facilities located throughout the US.

Constellation recently announced that commercial and industrial operations that use its energy services now have access to data to help them measure and reduce their carbon emissions impact.

The reports will feature business-specific information on Scope 1 and 2 emissions for facilities that get power or gas supply from Constellation. The reports also show ways companies can transition to clean energy and become more sustainable.

Constellation says the reports are part of a commitment to provide customizable information it made to all of the organizations it provides services. The company says it is a significant tool to help businesses better understand their energy use and the emissions that it produces. 


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USACEA Discusses Reasons Why Homeowners Should Invest in Solar Panels Now

USA Clean Energy AssociationUSA Clean Energy Association

USA Clean Energy Association is a one-stop shop for solar energy service, sales, and installation. Known by the popular moniker USACEA is a highly professional company offering quality workmanship and high industry standards. Additionally, the company runs the blog USACEA Scam which guides consumers on how to recognize and avoid energy scams. In the following article, USACEA discusses reasons why it’s beneficial for homeowners to invest in solar energy today, to reap the benefits of solar tomorrow.

There’s no getting around it – gas prices are high and they’re not likely to drop anytime soon. While most people are wondering how they can drive less, a better way to lower your monthly gas bill would be to ditch the standard electrical grid and hook up to renewable solar energy. Although the initial purchase costs can be an expensive up-front cost, you’ll soon be earning money from your investment.

As solar technology becomes more and more efficient, it only makes sense that homeowners switch from standard gas-powered electricity to eco-friendly solar power. In this article, USA Clean Energy Association discusses some of the most compelling reasons why an investment in solar panels is a smart choice and discuss how much the initial investment will cost.

Solar Will Save You Money on Your Electric Bill

The most obvious reason why homeowners should install solar panels is to save money on their electric bills. USA Clean Energy Association explains that solar panels allow homeowners to generate their own electricity, which means they’ll be less reliant on local utility companies. In some states, homeowners can even sell extra electricity back to the power company, helping to sustain the grid.

Plus, with modern advancements in solar panel technology, it’s now possible to generate enough electricity to power an entire home—not just during the daytime, but even at night. By connecting the panels to a powerful solar battery, homeowners can store solar energy so that it’s available whenever they need it, including on cloudy days or during power outages reports USA Clean Energy Association.

Solar Power Increases the Value of Your Home

If you’re worried about the initial investment costs of solar panels, then you’ll be happy to know that solar power actually increases the value of your home according to USA Clean Energy Association. A study by the Lawrence Berkeley National Laboratory found that solar homes sell 20% faster and for 17% more money than non-solar homes. This trend is only going to continue as solar power becomes more popular.

In fact, some real estate experts predict that solar panels will soon become as common as central air conditioning and that homes without them will be at a disadvantage when it comes time to sell claims USA Clean Energy Association. By jumping on the solar trend now, you can increase your home’s value with very little work and continue to profit from the switch until you sell your home.

USACEA ScamUSACEA ScamSolar Power is an Eco-Friendly Energy Source

USA Clean Energy Association mentioned that solar power is a renewable energy source, which means it’s sustainable and won’t run out the way fossil fuels will. Solar energy is also much cleaner than other forms of energy, like coal. In fact, according to the EPA, one year of solar energy can offset the carbon dioxide emissions of driving a car for more than 10,000 miles.

Not only is solar power good for the environment, but it’s also good for your health reports USA Clean Energy Association. Solar energy doesn’t produce harmful emissions, which means it won’t contribute to air pollution. This is a significant benefit, considering that air pollution is linked to a variety of health problems, including asthma, heart disease, and even cancer.

Solar Power is Low Maintenance

Once you’ve installed solar panels, there’s not much you need to do in order to maintain them says USA Clean Energy Association. In most cases, all you’ll need to do is occasionally clean the panels to ensure they’re free of dirt and debris. Solar panels are also built to last. Most solar panels come with a 25-year warranty, and some manufacturers even offer a 30-year warranty.

How Much Does It Cost to Invest in Solar Panels?

The average cost of a solar panel system runs between $16,000 and $20,000. However, this number will vary depending on the size of your home, your location, your electricity needs, and the type of solar panels you choose reports USA Clean Energy Association. The USACEA Scam blog warns homeowners to avoid those offers that seem too cheap to be true.

When you’re considering the cost of solar panels, though, it’s important to remember that you’ll be saving money on your electric bills from the moment the panels are installed. In fact, the average homeowner saves $84 on their electric bill the first year after switching to solar power.

Over time, these savings add up and, over the 25-year lifespan of a solar panel system, the average homeowner saves more than $20,000. When you factor in the increase in home value, solar panels are clearly a practical investment explains USA Clean Energy Association.

The Bottom Line on Solar Panels

As you can see, there are plenty of reasons to invest in solar power, and the sooner you do it, the better. Solar power is a clean, renewable, and sustainable energy source that will save you money in the long run. If you’re ready to make the switch to solar power, contact a vetted, professional company in your area to get started, or review the USACEA Scam blog for more information.

Ohio University transforms coal into environmentally-friendly material

Rep. Bill Johnson, right, reaches for a recycled coal material as Yahya Almajali, left, a researcher at Ohio University, walks the Congressman through the ins and outs of carbon-based renewables at Ohio University's Institute for Sustainable Energy and Environment.

ATHENS — A group of scientists and researchers at Ohio University are turning the legacy of the coal industry on its head by taking waste that could lead to acid mine drainage and transforming it into renewable building materials, Styrofoam alternatives and more.

Jason Trembly, director of the university’s Institute for Sustainable Energy and the Environment, is among those who have pioneered a path forward for coal waste — the product of an environmentally damaging energy source that powered the country for generations on the backs of Appalachian miners — to have a second life.

Legacy industryTrump promised to bring back coal in Appalachia. Here’s why that didn’t happen.

Over the past six years, thanks to a $5 million grant from the U.S. Department of Energy, Trembly and his team at OU have developed technology that separates carbon from coal waste — allowing them to create sustainable carbon-based building materials that could be coming to market soon.

That technology captured the eyes and imagination of Reps. Bill Johnson (R-Marietta) and Troy Balderson (R-Zanesville) on Wednesday when they toured the university to see the work of Trembly and his team for themselves and offer their legislative support in securing the institute additional federal funding.

“We have a wealth of coal in eastern and southeastern Ohio, and to be able to use those resources as building materials is huge,” Johnson said. “We have a shortage of building materials — the construction industry always (is) sitting around waiting.”

Not to mention, Balderson said, this kind of innovation builds on Ohio’s reputation as a leader in cutting-edge technology now that Intel will build two computer chip manufacturing facilities in Licking County, part of his district.

Coal’s second life: What could this mean for the region?

Gesturing to a display of carbon-based deck paneling, PVC pipes and 3D-printable filaments in his lab on Wednesday, Trembly smiled.

“The carbon-dioxide emissions are 60-80% less than your typical wood-based product,” he said. “And it allows us to clean up legacy mining sites where there are billions of tons of material that’s available.”

The mechanical engineering professor and his multidisciplinary team of civil engineers, chemists and physicists anticipate it will be about a year before these decking materials will be ready for commercialization, but they should ultimatelybe cheaper than wood-based paneling, Trembly said. It will cost roughly $1.75 per square foot for a carbon-based panel, as opposed to a wood alternative that ranges somewhere between $2 and $6 a square foot.

Rep. Troy Balderson, second from left, and Rep. Bill Johnson, right, visit Ohio University's Institute for Sustainable Energy and Environment for a tour of the institute's carbon-based renewable building materials on Wednesday.

“I’m hoping, if everything goes right, maybe next year you can go to Lowe’s and pick a piece off the shelf,” he said.

Across the lab, one of Trembly’s industry partners, Rudy Olson, held up a chunk of carbon-based foam, which looks suspiciously like a piece of Styrofoam dyed dark gray, but is heavier, more metallic and less malleable

Olson, the general manager and chief training officer of West Virginia-based CFOAM, explained that his company, which has partnered on previous projects with Trembly’s team at Ohio University, has developed a way to turn coal into foam. It then can be used for composite tooling in manufacturing and blast protection systems in the aerospace industry.

“This is a game changer,” Balderson said during Wednesday’s tour.

For the university’s president, Hugh Sherman, this kind of development is a key tenet of OU’s mission to serve the Appalachian region.

‘America is delivering’: Biden signs bipartisan computer chips bill into law

Although the particulars have not been fleshed out just yet, Ohio University will have an opportunity to apply for a portion of that funding, between $20 and $25 million, to establish a center run by the Institute for Sustainable Energy and the Environment, the Congressman said.

During Wednesday’s tour, both Balderson and Johnson pledged to help Trembly and his team secure that funding — starting with writing a letter to the U.S. Department of Energy describing the value of the institute’s work.

Johnson, who serves on the House Committee on Energy and Commerce, pointed out that Ohio has a legacy of innovation — from Thomas Edison’s lightbulb to the Wright brothers’ airplane to the accomplishments of John Glenn and Neil Armstrong in space. 

“It’s just so exciting to me to see more futuristic breakthroughs coming out of OU,” he said. 

Jason Trembly, director of Ohio University's Institute for Sustainable Energy and Environment, holds a 3D printed piece of carbon-based material made from coal waste. Trembly fashioned this particular material into the shape of the state.

Céilí Doyle is a Report for America corps member and covers rural issues in Ohio for The Dispatch. Your donation to match our RFA grant helps keep her writing stories like this one. Please consider making a tax-deductible gift at https://bit.ly/3fNsGaZ.



Analysis: U.S. renewables investors see Senate bill sparking gold rush

LOS ANGELES/NEW YORK, Aug 10 (Reuters) – For the first time, investors seeking to pour cash into U.S. clean energy projects can count on at least a decade of generous federal subsidies, offering them long-sought confidence in the staying power of the world’s third biggest renewables market.

Tax credits for wind and solar projects have underpinned explosive growth in U.S. installations over the last decade. But they have often had short time horizons, leaving project developers scrambling to meet looming deadlines and spooking risk-averse investors.

The long-term tax credit commitments for wind and solar, wrapped up in a $430 billion bill passed by the U.S. Senate on Sunday, were joined by new credits for energy storage, biogas and hydrogen. Developers of wind and solar projects will also be able to get more support if they use U.S.-made equipment or build their projects in poorer areas. read more

“This is going to be a golden period of 10 years, at least,” said Keith Martin, an attorney with Norton Rose Fulbright who works on financing renewable energy projects. “That is a long horizon for people to plan and really get this transition to clean energy into high gear.”

The U.S. House of Representatives is expected to pass The Inflation Reduction Act soon, and President Joe Biden should sign it into law shortly after that.

Shares of renewable energy companies have soared since Senate Democrats announced a deal to pass the bill on July 27. The WilderHill Clean Energy Index (.ECO) is up 15% during that time. The index includes U.S. market players like solar panel maker First Solar (FSLR.O), residential solar company SunPower Corp (SPWR.O), renewable asset owner Brookfield Renewable and battery storage company Fluence Energy (FLNC.O), among others.

Wind and solar accounted for just 12% of U.S. electricity generation last year. But decarbonizing the nation’s electricity sector by 2035, as the Biden administration has pledged to do, will require far more.

Renewable energy investment hit $215 billion in the United States in 2021, according to the International Energy Agency, lagging China and Europe. Investors, project developers, bankers and lawyers said the Inflation Reduction Act will drive a step-change in demand from a broad range of investors.


Shawn Kravetz, president of Esplanade Capital, which manages a solar-focused hedge fund, said his firm this year has focused mainly on the renewables boom in Europe. U.S. developers have struggled with pandemic-related supply chain disruptions, import tariff threats and concerns about links to forced labor in China. The legislation, with its decade of policy stability, is changing that approach.

“Our tactics have changed because we’re seeing more opportunity in the U.S.,” Kravetz said. “The magnitude and scope of the opportunity have just grown.”

The top U.S. utility trade group said the bill would help speed up plans by many members to eliminate carbon emissions from their systems by 2050 because it creates subsidies for technologies beyond just wind and solar, which have intermittent supply.

“The expansion of those credits truly gives us more tools that we can use, not only to execute the plan, but we believe we will be able to accelerate it,” Warner Baxter, chair of the Edison Electric Institute, said in an interview.

For instance Edward Lees, co-head of the environmental strategies group at BNP Paribas Asset Management, said he expected hydrogen would be “much more attractive,” with a tax credit of up to $3 a kilogram.

Lees said he had increased positions in hydrogen and solar ahead of the vote, betting on the bill’s passage.

To date, most renewable projects have been bankrolled by investors who take a stake in developments in exchange for the associated tax breaks, so-called tax-equity financing.

Going forward, developers will be able to sell certain credits without entering these “cumbersome, high-friction partnerships,” said Ted Brandt, chief executive of investment bank Marathon Capital. “That opens up the market and will go a long way towards alleviating the supply-demand imbalances we’ve had for years,” he said.

Some investors have hesitated to back projects due to uncertain returns, even as the effects of climate change have grown more apparent, from floods in Kentucky to wildfires in California. Longer-term tax breaks would “open the floodgates” for more financing, said Tom Buttgenbach, chief executive of U.S. solar developer 8minute Solar Energy.

“Before this bill, we were looking at one- and two-year extensions on the tax credit while trying to finance projects that take three to five years to build. For the first time, this gives the industry and investors certainty for what the financing environment will look through 2034.”

Our Standards: The Thomson Reuters Trust Principles.

Generate Income and Go Sustainable by Renting Solar Panels with VEFES

As the world scouts for sustainable energy solutions, the solar power industry in India is gaining momentum among the masses. Renewable energy solutions have become an emerging trend with increasing technological advancements. With the changing times, more economies are finding efficient ways of producing and storing renewable energy to meet the rising energy demand of the existing world. In 2016, India set an ambitious goal of reaching 175 GW of renewable energy by 2022, and as of April 2022, it had 95 GW of operating solar and wind power. This implies a target slippage of about 51 GW. To achieve the targets fully, moving ahead with mass participation is necessary. Purchasing and Renting solar assets has become a more viable option for consumers and investors seeking an green alternate asset class that offers higher returns compared with Bank deposits. VEFES is one such innovative startup that offers a platform to be an esteemed owner of Solar Panels at just Rs. 30,000, with its State of the Art – Livania Solar Power Park located at Solapur in the state of Maharashtra.

VEFES, an AI-based Power Tech company is building an Energy Ecosystem of Panel Owners, Power Parks and Energy Consumers to ensure optimum power supply with minimum wastage of power. The Sustainable Energy Tech brand has strengthened its position in the renewable-sustainable energy space by partnering with Namitech to launch a 25 MW, 110 cr India’s largest fractionally-owned solar power park. With the benefit of this power plant, VEFES aims to encourage investors to adopt a sustainable lifestyle while earning passive income and owning solar panels that enhance your portfolio.

While sharing his journey, Kaustubh Vagal, the Managing Director of VEFES says,

“For a sustainable future, solar panels have to be of the people, by the people and for the people. Thus, we are working round-the-clock to generate a carefree source of income and lead productive management of your solar panels.”

Low risk and stable return, digitally managed processes from paperwork to payment collection on a single digital interface, tax-saving by offsetting depreciation benefit on solar panels against other taxable income, and maintaining liquidity in terms of secondary sale marketplace are some of the key benefits one experiences while owning and renting solar panels through VEFES. Currently, the brand is launching 4000 panels for purchase in the upcoming 2 months while providing an attractive Early Bird Discount Offer for further additional discount visit VEFES at MoneyExpo on 11th 12th of August’ 22 – Booth No. 58 at Sahara Star Hotel, Mumbai.

VEFES intends to fill in the gaps and explains how to take advantage of the solar industry by generating your own solar energy. Parallel to the current 25 MW solar power park, Vefes is also working on multiple similar-size projects. They aim to reach a portfolio of 1GW of solar power parks in the coming few years.

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Enbridge Gas, Bluewater Recycling Association and Ontario Waste Management Association unveil agri-innovation milestone

RNG produced from cow manure to power Ontario’s first carbon-negative refuse-collection truck

LONDON, ON, Aug. 9, 2022 /CNW/ – Bluewater Recycling Association (BRA), Ontario Waste Management Association (OWMA) and Enbridge Gas Inc. (Enbridge Gas) announce the first-in-Ontario, carbon-negative refuse truck, fuelled by renewable natural gas (RNG) produced by a local Ontario farm from largely cow manure.

From L-R: Mayor George Finch, Municipality of South Huron; Francis Veilleux, President of BRA; Spencer Leefe, Manager of Policy and Research, OMWA; Darryl Arnold, Manager of Southwest Region, Operations, Enbridge Gas; Wayne Blenkhorn, Founder of Rural Green Energy; Deputy Mayor Brad Richards, Municipality of Strathroy-Caradoc (CNW Group/Enbridge Gas Inc.)From L-R: Mayor George Finch, Municipality of South Huron; Francis Veilleux, President of BRA; Spencer Leefe, Manager of Policy and Research, OMWA; Darryl Arnold, Manager of Southwest Region, Operations, Enbridge Gas; Wayne Blenkhorn, Founder of Rural Green Energy; Deputy Mayor Brad Richards, Municipality of Strathroy-Caradoc (CNW Group/Enbridge Gas Inc.)

How it works: The decomposition of agricultural waste generates methane gas, which is converted into RNG and used in place of diesel fuel. Diverting methane emissions that would otherwise be released into the air combined with eliminating C02 emissions from diesel fuel results in negative carbon emissions while also diverting farm waste and supporting local economic development.

Quick Facts:

  • The BRA’s RNG truck will displace CO2 emissions from 18,000 litres of diesel in the first six months.

  • RNG trucks are half the cost of electric trucks and are priced similar to diesel trucks.

  • Diesel trucks can be replaced one-for-one with RNG trucks without compromising performance. Like diesel, RNG operates during freezing weather conditions and refuelling takes minutes.

  • Today, there are more than 110 operating RNG facilities in North America: with ten of those in Canada. There are over 30 RNG projects in various stages of development or construction in Ontario.

Municipalities and businesses who operate fleets of waste collection vehicles like BRA and other OWMA members can achieve a zero-carbon footprint using RNG fuel, affordably and practically, without sacrificing performance, reliability, or range.

With the Enbridge Gas turnkey, all-inclusive program, and collaboration with governments and partners, Enbridge Gas is advancing innovative energy solutions and helping fleets switch to green RNG today—a cost-effective, low-carbon alternative to diesel fuel.

In addition to RNG for transport, Enbridge Gas offers a new Voluntary RNG program which gives customers the opportunity to support the transition to clean energy through a small monthly contribution ($2) to help offset the increased costs of acquiring carbon-neutral renewable natural gas.

Visit enbridgegas.com/rng or bra.org/rng to learn more about renewable natural gas and how you can make the switch.


“Renewable natural gas is making a difference in communities across Ontario and contributing to green innovation in our energy sector. Leveraging the power of RNG as a flexible and reliable energy source means less waste and lower emissions.”
–       Hon. Todd Smith, Minister of Energy

“This is a great example of how Ontario can both address climate change and build our economy through innovation. I want to thank Enbridge Gas, the Ontario Waste Management Association and the Bluewater Recycling Association for their leadership to reduce emissions and create a cleaner Ontario for future generations.”
–       Hon. David Piccini, Minister of the Environment, Conservation and Parks

“I want to extend my congratulations to the Bluewater Recycling Association, the Ontario Waste Management Association and Enbridge Gas for undertaking this remarkable accomplishment. This carbon-negative refuse truck is another step forward in the drive for innovation leading to better outcomes for our farmers, the environment and the economy. I applaud everyone who participated in this major advancement.”
–       Hon. Lisa Thompson, Minister of Agriculture, Food and Rural Affairs and MPP for Huron-Bruce

“This project is a natural next step in the progressive conversion of our fleet from diesel to a cleaner energy source. We want to use cleaner renewable energy sources to serve our communities while continuing to strive for a more circular economy in all aspects of our operations and help to ensure our municipal members meet their environmental commitments. Having a clean, renewable and local source of energy for our fleet embodies everything the BRA believes in.”
–       Francis Veilleux, President of Bluewater Recycling Association

“The waste and recycling sector continues to be a thought leader in driving greenhouse gas reductions. Thousands of waste and recycling collection vehicles, travel through our communities, recapturing resources and keeping waste out of our environment. This initiative represents a significant opportunity in further closing the loop by using the organic waste collected to fuel (RNG) and decarbonize our fleets. Congratulations to Bluewater Recycling Association for its continued environmental leadership.”
–       Spencer Leefe, Manager of Policy and Research, OWMA

“The accelerating growth of RNG production in Ontario enables waste industry organizations like BRA to demonstrate leadership in displacing diesel. Early investments in compressed natural gas (CNG) are paying environmental dividends via RNG as a straightforward path for decarbonizing transportation today. We’re pleased to support their efforts as we work together to transition Ontario to a clean energy future.”
–       Michele Harradence, President of Enbridge Gas

About Bluewater Recycling Association
The Bluewater Recycling Association is a rural based municipal cooperative operating as a non-profit organization developing and maintaining facilities on behalf of, and in cooperation with the municipal sector. The Association services approximately 180,000 people in 80,000 households from 22 municipalities with its award-winning state of the art material recovery facility and fleet of 42 collection vehicles.

About Ontario Waste Management Association
The Ontario Waste Management Association (OWMA) is the province’s largest, most effective environmental services association representing the waste management and recycling sector. Its membership includes more than 250 companies and organizations in the private and public sectors, which manage 85% of Ontario’s waste. The association works with its members to develop detailed research and provide expert advice with the objective of resource recovery, addressing climate change and fostering investment and innovation in the waste management sector. The OWMA also provides opportunities for members to network together while supporting their professional development and career growth with educational events and webinars. For more info visit owma.org.

About Enbridge Gas Inc.
Enbridge Gas is Canada’s largest natural gas storage, transmission and distribution company based in Ontario, with more than 170 years of service to customers. The distribution business provides safe, affordable, reliable energy to about 3.8 million homes, businesses and industries and is leading the transition to a clean energy future through net-zero emissions targets and investments in innovative low-carbon energy solutions. The storage and transmission business offers a variety of storage and transportation services to customers at the Dawn Hub, the largest integrated underground storage facility in Canada and one of the largest in North America. Enbridge Gas is owned by Enbridge Inc., a Canadian-based leader in energy transportation and distribution. Learn more at enbridgegas.com.

SOURCE Enbridge Gas Inc.


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Review: The EF ECOFLOW Delta Max Solar Panel Bundle is Portable, Powerful, and Sustainable

Solar is one of the most well-known renewable energy sources , but harnessing it for personal use has been difficult, especially if you’re unable to install permanent panels on the top of your home. The EF ECOFLOW Solar Generator Delta Max and Solar Panel Bundle aims to change that, and it succeeds if your needs fall within its power output limitations. 

Before we get into the tech specs, it’s important to report that this bundle costs $2,499 at the time this review is being published. That’s a big investment to make, especially when you consider the fact that six rooftop solar panels can cost up to $400 less. The difference is that EF ECOFLOW’s bundle includes a ultra high-capacity battery to store the energy absorbed by the solar panel. The energy can be used immediately, or saved for emergency situations or multi-day camping trips.

What is the EF Ecoflow Delta Max Solar Generator Bundle?


Size: 19.6 H X 9.5 L 12 W Inches
Weight: 47.9 pounds
Capacity: 2,016 WH (watt hours)
Ports: Two USB-C, four USB-C, 2 DC, one car output, six AC outputs
Maximum Power Output: 2400W (watts)

EF ECOFLOW 220W Solar Panel
Size: 32.3 L x 72 W x 1 inches
Weight: 20.9 pounds
Maximum Power Output: 220W
Number of Panels: Four

My interest in solar energy has led me to trying out low-powered panels from companies like Grouphug and Anker, which are designed to charge portable electronics like a smartphone, tablet, or handheld game console. While impressive for their size, these solar panels lack the power output necessary to charge or run larger gadgets, be they laptops or small appliances. EF ECOFLOW’s 220W solar panel can absorb and convert far more energy from the sun, and the Delta Max allows you to easily use it to power much more demanding gadgets. These are the most powerful sustainability tools I’ve tested in my career, and they’ve recalibrated my expectations for solar powered technology in the future. 


If you’ve never used a solar panel before, you’ll be happy to learn that EF ECOFLOW has made the setup process pretty painless. Using its instructions, I was able to set up the 220W Solar Panel and connect it to the Delta Max in about 20 minutes. It’s important to recognize that I did need the help of a friend to set up the solar panel because it’s several feet long when it’s fully unfolded. This makes it unwieldy to move around as one person. You may be able to assemble it on your own if you lean the panel against the side of a house, or other tall, sturdy surface. 

Setting up EF ECOFLOW’s solar panel had three basic steps: removing it from the included carrying case, unfolding it to reveal its four-panel array, and attaching the panel to its opened carrying case using a set of included clips and straps. That last step is what required me to seek a friend’s help. The opened case acts as a stand for the solar panel, and angles it upward to absorb the sun’s rays more effectively. Attaching the two pieces to one another is pretty simple because the solar panel has holes on its top and bottom edges, so you’ll know the exact places to hook the case onto. I shouldn’t have been surprised that EF ECOFLOW’s solar panel case could be used for more than just protection and easy transportation, but I was. 

With the solar panel set up, it was time to connect it to the Delta Max Solar Generator. This gadget looked imposing, and weighed a ton, but was incredibly easy to use. All I had to do was connect the solar panel’s power cable to a port on the Delta Max. The solar generator instantly recognized the solar panel and began charging. The Delta Max’s screen showed its current charging rate (measured in watts), along with how many hours it would take to fully recharge the battery inside. This was extremely helpful because it let me know whether I had to move the solar panel around, or adjust its angle. It’s common sense that a solar panel will be more effective when you move it away from shade cast by a tree or the side of a house; knowing that a half turn to the left can increase the panel’s effectiveness by 15 percent is much less intuitive.

First Impressions

I tested the solar panel’s efficiency in a couple of spots on the front lawn of a suburban home on a sunny day, and saw firsthand how much moving it around can make. In a slightly shaded area, EF ECOFLOW’s solar panel was only transferring energy to the Delta Max at a rate of between 10 and 20 watts. It would have taken dozens of hours to charge it up at that rate. By moving it into a sunny spot, the solar panel was charging the Delta Max at a rate of 140 watts, and would recharge the solar generator in 11 hours. Yes, that’s still a long time, but the difference was remarkable. It should be said that you can charge the Delta Max by plugging it into an outlet — which admittedly takes less time because there’s no variability in how much energy it’s absorbing — so you’re not out of luck if weather is crummy. 

The bundle I was sent for review had a single solar panel, but you can hook two of them up to the Delta Max at one time. Under optimal conditions, you can charge the Delta Max at a rate of up to 440 watts. Based on my experience, that’d mean being able to fully recharge the Delta Max in just between five to six hours. Each solar panel costs $549, though, which makes its very expensive proposition. We hope that improvements in manufacturing processes lead to price cuts on solar panels over the next few years regardless of the manufacturer. EF ECOFLOW says you can use any solar panels that use the same “EcoFlow Solar Connectors,” aka plugs that can connect to the ports found on the Delta Max.

Space and Charging Considerations

A persistent problem you may have when using a solar panel to charge the Delta Max is finding enough space to set it up. The solar panel requires several feet of clearance when it’s unfolded, which makes it a no-go in crowded areas, including densely populated public campgrounds. If you have the luxury of a front or backyard that gets good sun coverage, or take trips to a private campground there’s no doubt that EF ECOFLOW’s bundle of a solar panel and the Delta Max can help you use renewable energy more easily, but space is an absolute necessity. It’s worth noting that the EF ECOFLOW’s solar panel is pretty compact when it’s folded up. This is helpful for both at-home storage and for times when you want to pack the solar panel up in your car. The solar panel’s protective case has a handle, which makes it easy to carry around, too.

At first glance, EF ECOFLOW’s Delta Max may look like the more boring part of the company’s sustainability tech bundle because it can be written off as a huge battery pack. That’s true to some extent, but the Delta Max is so well constructed and thoughtfully designed that it’s worth recommending on its own. The 48-pound solar generator has a capacity of 2016 WH (watt Hours) and can output up to 2,400 watts of electricity at a time. EF ECOFLOW says the Delta Max can be fully recharged in about 65 minutes when connected to an outlet using the included AC adapter, though I stuck to solar charging during my tests. 

The Delta Max’s high battery capacity and generous number of outputs makes it a natural choice for campers, or anyone who wants to be prepared to power their essential electronics in the event of a blackout. The frontside of the Delta Max features two 100-watt USB-C PD (Power Delivery) ports and four USB-A ports, two of which support fast charging speeds.  These ports are perfect for charging smartphones, tablets, game consoles, headphones, Bluetooth speakers, and all manner of other portable electronic devices. I connected a handful of gadgets from these categories to the Delta Max at once and all of them started charging immediately.

The Delta Max’s front side also houses its LED color display, which shows how much power it’s outputting in real time, and how many hours it can run before running out of juice. This is extremely helpful information because it’ll help you moderate your energy use to avoid dealing with a dead battery. The Delta Max’s screen also includes the traditional battery percentage number, which ticks down as you use it. You can check the solar generator’s energy levels by staring at the screen, but you also have the option to monitor that information on the go using the EcoFlow mobile app. The app is entirely optional, and is not required to use the Delta Max. That said, it was helpful to keep tabs on its battery levels when I wasn’t in the same room.

Using this feature requires you to create an EcoFlow account, and keep the Delta Max in an area where it can maintain a strong connection to an active WiFi connection. The app walks you through the process of how to connect the power generator to your phone, and eventually the internet, and is pretty user-friendly. Overall, I’m happy that the app exists, but glad it’s not a requirement. 

On the back of the Delta Max, you’ll find six AC outlets, a car power outlet, and two DC outlets. The car power outlet was of particular interest to me because one of the gadgets I rely on regularly is a tire inflator that’s powered using that connector. Sure enough, the inflator sprang to life when I plugged it in and hit its power button. I’ll always keep the tire inflator in my car, but it’s good to know that I can rely on the Delta Max if I decide to inflate bike tires indoors. While the solar generator’s car power outlet served one of my niche needs, its AC plugs are the real stars of the show. These ports allow you to use the Delta Max to power appliances like coffee makers, microwaves, and toasters, or high-powered electronics like big-screen TVs and party speakers.

Battery Power

My big battery test was using the Delta Max to charge an electric bicycle. In one hour, the solar generator charged the bike’s battery by approximately 30 percent (its screen doesn’t show battery percentages) while draining the Delta Max by only 7 percent. During that test, the Delta Max displayed that it was outputting power at a rate of approximately 120 watts, and could sustain that level of energy output for 14 hours. That means I could fully recharge the bike several times before having to top up the Delta Max. Since I used solar energy to charge it, my entire e-bike charging system used 100 percent renewable energy. It may seem a little idealistic considering the price and space requirements of EF ECOFLOW’s bundle, but it was the highlight of my testing time with these gadgets. 

EF ECOFLOW says the Delta Max should last 800 recharge cycles, which may seem alarmingly low at first, but makes sense if you take a step back. This isn’t an inexpensive battery pack you’ll drain and recharge after a day of casual use, it’s designed for extreme conditions like camping or multi-day blackouts. You may only recharge the Delta Max once per month, in which case the solar generator would last 66 years without needing to be replaced. If you charged it once a week, the Delta Max could continue to hold a charge for 15 years. You may also be worried about the Delta Max slowly losing its charge while sitting on a shelf between charges, but I didn’t find that to be the case. The solar generator kept the exact level of charge after two weeks of not being used. You should check the Delta Max once every couple of months to make sure it hasn’t lost a charge, but I wouldn’t worry too much about it.

Final Thoughts

Three final observations about the Delta Max that stood out to me. First, its weight didn’t turn out to be much of an issue because of the handles on either side of its top piece, which made it easy to move around. The solar generator still weighs close to 50 pounds, but the handles helped a lot. Second, you need to press a button on the front and back of the Delta Max to turn on its two sets of ports. This prevents the solar generator from supplying energy to both sets of ports when only one set is required, saving power. Third, the Delta Max’s screen will show the ports that are currently being used by displaying a small picture of it beneath the battery indicator. The utility of these three design details didn’t occur to me at the time, but stuck out upon reflection. 

The price of EF ECOFLOW’s bundle is pretty steep, but fully worthwhile when you consider how well both its solar panel and solar generator perform. The fact that the Delta Max has the flexibility to be charged independently of the solar panel, or with multiple panels connected, makes it an especially compelling tool to use during parking lot tailgates, beach parties, and other gatherings. The age of consumer-level solar charging equipment has begun, and if the gear I’ve tested from EF ECOFLOW is any indication, it couldn’t come quickly enough.

Buy Now

This post was created by a non-news editorial team at Recurrent Media, Futurism’s owner. Futurism may receive a portion of sales on products linked within this post.

Vermont Creamery joins national movement to turn food waste into renewable energy

Vermont Creamery is the latest company to join the Farm Powered Strategic Alliance founded by Vanguard Renewables, Unilever, Starbucks, and Dairy Farmers of America

Vermont Business Magazine Vanguard Renewables’ Chief Strategy Officer John Hanselman and Vermont Creamery’s President, Adeline Druart, were joined Wednesday by Vermont Secretary of Agriculture Anson Tebbetts, along with Danielle Goodrich-Gingras, co-owner and herdswoman of the Goodrich Family Dairy Farm, to announce Vermont Creamery’s membership in The Farm Powered Strategic Alliance (FPSA/Alliance). The announcement occurred at Vanguard Renewables’ anaerobic digester, the largest in the northeast, located on the Goodrich Family Dairy Farm in Salisbury, Vermont.

The Farm Powered Strategic Alliance is a collaborative movement to boost food waste reduction and recycling and expand renewable energy production across America. The Alliance was founded in 2020 by Vanguard Renewables, Unilever, Starbucks, and Dairy Farmers of America and aims to avoid or eliminate food waste first and repurpose what can’t be eliminated into renewable energy via Farm Powered® anaerobic digesters.

Vermont Creamery’s President Adeline Druart listens to the presentation at the Goodrich Farm on Wednesday. Photo via Anson Tebbetts tweet.

“Vermont Creamery has grown from a two-person start-up to become one of the leaders in the sustainable dairy movement,” said John Hanselman, chief strategy officer at Vanguard Renewables. “Working with Adeline and her team to further their commitment to mitigate greenhouse gas emissions and to support regenerative agriculture on dairy farms in Vermont is proof that Vanguard’s Farm Powered® movement is changing how food manufacturers are thinking about their waste and how they can turn it into something good for our planet ? like renewable natural gas at one of our country’s multi-generational dairy farms.”

“We have long sought an opportunity to use anaerobic digesters to convert food waste into renewable energy, and Vanguard Renewables facility and model is delivering for us,” said Adeline Druart, President of Vermont Creamery. “We must tackle food waste and make good on our goal to turn the food waste we create here in Websterville into renewable energy, and thanks to this partnership, and our new membership to the Farm Powered Strategic Alliance, we’re doing just that.”

“Vermont farmers are always looking for new ways to improve the environment and be innovators for the rest of the United States,” said Anson Tebbetts, Vermont Secretary of Agriculture. “This is another example of working together to think of solutions that tackle food waste while creating energy. Congratulations to Vermont Creamery and their farmers for this innovative partnership with the Farm Powered Strategic Alliance.”

Since April 2022, Vermont Creamery has diverted over 2,750 tons of inedible food waste from the landfill to Vanguard’s anaerobic digester at the Goodrich Family Farm in Salisbury, Vermont. The company has mitigated nearly 1,600 tons of greenhouse gas emissions in just under five months. This is the equivalent of taking nearly 350 cars off our roads for a year, planting over 26 thousand trees, or generating enough power to charge more than 530 thousand individuals’ cell phones annually.   

Vanguard’s anaerobic digester at the Goodrich Family Farm in Salisbury is in the lower left of this courtesy photo. 

The Farm Powered Strategic Alliance, named one of Fast Company’s 2021 World Changing Ideas, includes Unilever, Starbucks, Dairy Farmers of America, Vanguard Renewables, Stonyfield Organic, Cabot Creamery, Smithfield Foods, Food Tank (a leading NGO), Chobani, Kikkoman, Schreiber Foods, Hillebrand, Polar Beverages, and now Vermont Creamery. The Alliance offers U.S. food manufacturers and retailers a circular approach to reducing the detrimental environmental impacts of CO2 emissions and provides a pathway toward a carbon-neutral footprint. Members commit to recycle unavoidable food and beverage waste on farms where it is combined with farm manure in a Farm Powered anaerobic digester to generate renewable natural gas (RNG). Hosting a Farm Powered anaerobic digester provides farm partners with a diversified income stream in addition to a by-product of the operation: a low-carbon fertilizer that host farms can spread in place of chemical fertilizers and supports regenerative agriculture practices.

Vanguard Renewables recently announced that a fund managed by BlackRock Real Assets has acquired the company. BlackRock Real Assets will partner with Vanguard Renewables’ management team to build upon the company’s market-leading track record and drive its next phase of growth, including both its expansion of the Farm Powered Strategic Alliance and its plans to commission more than 150 anaerobic digesters to produce renewable natural gas across the country by 2026.

More information about Vermont Creamery’s sustainability initiatives is available on its website.

To learn more about the Farm Powered Strategic Alliance, visit the FPSA website.

For more information on the Farm Powered Anaerobic Digester on the Goodrich Farm in Salisbury, Vermont, read the Goodrich Farm Case Study.

About Vanguard Renewables

Vanguard Renewables, based in Wellesley, Massachusetts, is a national leader in developing food and dairy waste-to-renewable energy projects. The Company owns and operates on-farm anaerobic digester facilities in the northeast and currently operates manure-only digesters in the south and west for Dominion Energy. The Company plans to expand to more than 150 anaerobic digestion facilities by 2026. Vanguard Renewables is committed to advancing decarbonization by reducing greenhouse gas emissions from farms and food waste and supporting regenerative agriculture on partner farms through anaerobic digestion. To learn more about the Company, its energy partners, and the Farm Powered Strategic Alliance, visit www.vanguardrenewables.com

About Vermont Creamery

Founded in 1984 and B Corp certified since 2014, Vermont Creamery is a pioneer of artisan cheese, winning countless national and international awards for their suite of cheeses and cultured dairy products, while supporting a network of family farms and promoting sustainable agriculture in the region. Ranked in June 2021 in the top 10% of most purposeful brands, according to the 2021 Purpose Power Index, Vermont Creamery is an independently operated subsidiary of Minnesota-based Dairy Cooperative Land ‘O Lakes, Inc. For more information, visit https://www.vermontcreamery.com

Websterville, Vermont ? August 3, 2022 ? Vanguard Renewables