Grant Beringer

Nevada Gold Mines (NGM) is investing in a 200 MW solar power plant designed to accelerate its decarbonization program in line with the Barrick Gold Corp.’s Greenhouse Gas Reduction Roadmap. NGM is majority owned and operated by Barrick.

NGM is partnering with First Solar to manufacture all modules required to support the 200 MW construction, entirely in the United States. NGM has committed to a 20% carbon reduction by 2025. This will be achieved through the 200 MW solar array construction and the conversion of NGM’s coal fired power plant to cleaner burning natural gas.

NGM has commenced detailed engineering and expects to begin construction in the third quarter of 2022. The modules supplied by First Solar are expected to be delivered in the beginning of the second quarter of 2023 and will power both phases of the power plant. The project is scheduled to commission both phase I and phase II by early 2024.

“The project is the latest in a series of carbon-reducing initiatives across the group’s global operations,” says Grant Beringer, Barrick’s group sustainability executive. “The solar power plant will complement the transition of NGM’s coal power plant to a dual fuel process, which will enable it to generate electricity from natural gas, reducing carbon emissions by as much as 50 percent.”

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Duke Energy continues to expand solar power in North Carolina with its 22.6 MW Stony Knoll Solar power plant in Surry County now in operation. The project is owned and operated by Duke Energy Sustainable Solutions (DESS). The project was selected as part of the competitive bidding process established by 2017’s solar legislation in North Carolina.

The solar plant, which contains 76,600 panels with single-axis tracking, is located on 195 acres in Dobson, N.C. The facility’s design and construction of the project were performed by SOLV Energy. The solar power generated by the project will be delivered through a 20-year power purchase agreement.

“In addition to our many renewable energy projects across the nation, North Carolina continues to be fertile ground for solar power,” states Chris Fallon, president of Duke Energy Sustainable Solutions. “With the help of our partners in Surry County, we have brought online the largest solar power plant in the county.”

North Carolina is fourth in the nation for overall solar energy. The outlook is promising for more solar energy in the future as Duke Energy develops a proposed Carolinas Carbon Plan, which will be submitted to regulators in May.

“Solar power continues to play a vital part of our clean energy transition,” says Stephen De May, Duke Energy’s North Carolina president. “We expect renewables to grow significantly in the years ahead as we focus on meeting our customers’ needs for increasingly clean energy.”

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Tesla Megapacks at Saticoy, a 100MW/400MWh BESS site in California. Image: Arevon Asset Management.

Tesla’s Megapack battery energy storage system (BESS) solution as well as the company’s solar PV will power a Bitcoin mining facility in a proof of concept (POC) project in the US. 

Bitcoin mining and services company Blockstream Mining began construction earlier this month on the open-source, solar-powered facility at an undisclosed location. 

The project is being built in partnership with financial services and digital payments company Block, Inc, which has Twitter co-founder Jack Dorsey as its CEO. 

Blockstream’s CEO and co-founder Adam Back meanwhile said that the facility will be “a step to proving our thesis that Bitcoin mining can fund zero-emission power infrastructure and build economic growth for the future”.

The site will pair a 3.8MW solar PV array with 12MWh of Megapacks, enabling a 30 Petahash hash rate — a measure of the computational power used by the cryptocurrency mining’s proof-of-work. A dashboard will be made publicly available as the plant runs, showing real-time metrics of performance, such as power output and the amount of mined Bitcoin.

“By collaborating on this full-stack, 100% solar-powered Bitcoin mining project with Blockstream, using solar and storage technology from Tesla, we aim to further accelerate Bitcoinʼs synergy with renewables,” Block’s global ESG lead Neil Jorgensen said. 

The off-grid site aims to prove 100% renewable energy-powered Bitcoin mining is possible, hopefully providing an example to the industry.

Tesla CEO Elon Musk famously said in the past that his company would row back on its interest in Bitcoin due to the use of fossil fuels in mining, despite other attractive characteristics that crypto has. In May 2021 the company stopped accepting it as payment over those concerns. 

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Solar and battery storage at Gannawarra, completed in 2018. Image: ARENA.

Energy generator and retailer EnergyAustralia will control and operate two large-scale battery energy storage systems (BESS) in a portfolio in development by Edify Energy. 

Renewable energy and energy storage developer Edify is currently working on the three-system portfolio in New South Wales, Australia, which totals 150MW/300MWh of BESS to be connected to a substation at Darlington Point in New South Wales’ Murrumbidgee Shire. 

As reported by Energy-Storage.news last month, Edify Energy has contracted Tesla as the supplier of BESS equipment for the 60MW/120MWh Riverina Energy Storage System 1, 65MW/130MWh Riverina Energy Storage System 2 and 25MW/50MWh Darlington Point Energy Storage System projects.

This morning, EnergyAustralia said it is partnering with the developer for two long-term services agreements totalling 90MW/180MWh: for Riverina Energy Storage System 2 and Darlington Point Energy Storage System, both due for completion in the 2023-2024 summer period. 

Construction is expected to begin later this year. 

EnergyAustralia will control both systems in their market-facing activities as they participate in the National Electricity Market (NEM). Back in May 2021, Shell Energy signed a long-term services agreement for Riverina Energy Storage System 1. 

EnergyAustralia and Edify previously worked together on one of Australia’s first grid-scale BESS projects, at Gannawarra solar farm in Victoria, which was retrofitted with batteries, again supplied by Tesla. That went into operation in 2018 and reports produced a year later showed it had been a success. 

Elsewhere in the country, EnergyAustralia plans to build a 350MW, four-hour duration (1,400MWh) standalone BESS at the site of Yallourn, a coal-fired power plant which is scheduled to be retired for retirement during this decade. 

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Francesco La Camera

New data released by the International Renewable Energy Agency (IRENA) shows that renewable energy continued to grow and gain momentum despite global uncertainties. By the end of 2021, global renewable generation capacity amounted to 3,064 GW, increasing the stock of renewable power by 9.1%.

Although hydropower accounted for the largest share of the global total renewable generation capacity with 1,230 GW, IRENA’s Renewable Capacity Statistics 2022 shows that solar and wind continued to dominate new generating capacity. Together, both technologies contributed 88% to the share of all new renewable capacity in 2021. Solar capacity led with 19% increase, followed by wind energy, which increased its generating capacity by 13%.

“This continued progress is another testament of renewable energy’s resilience,” says IRENA Director-General Francesco La Camera. “Its strong performance last year represents more opportunities for countries to reap renewables’ multiple socio-economic benefits. However, despite the encouraging global trend, our new World Energy Transitions Outlook shows that the energy transition is far from being fast or widespread enough to avert the dire consequences of climate change.”

“Our current energy crisis also adds to the evidence that the world can no longer rely on fossil fuels to meet its energy demand. Money directed to fossil fuel power plants yields unrewarding results, both for the survival of a nation and the planet. Renewable power should become the norm across the globe. We must mobilize the political will to accelerate the 1.5°C pathway.”

To achieve climate goals, renewables must grow at a faster pace than energy demand. However, many countries have not reached this point yet, despite significantly increasing the use of renewables for electricity generation.

Sixty per cent of the new capacity in 2021 was added in Asia, resulting in a total of 1.46 TW of renewable capacity by 2021. China was the biggest contributor, adding 121 GW to the continent’s new capacity. Europe and North America – led by the U.S. – took second and third places respectively, with the former adding 39 GW, and the latter 38 GW. Renewable energy capacity grew by 3.9% in Africa and 3.3% in Central America and the Caribbean. Despite representing steady growth, the pace in both regions is much slower than the global average, indicating the need for stronger international cooperation to optimize electricity markets and drive massive investments in those regions.

Growth in hydropower increased steadily in 2021 with the commissioning of several large projects delayed through 2021. Wind expansion continued at a lower rate in 2021 compared to 2020 (+93 GW compared to +111 GW last year).

With an increase in new capacity in all major world regions in previous years, total global solar capacity has now outgrown wind energy capacity. Net capacity expansion increased in 2021 (+10.3 GW compared to +9.1 GW in 2020).

Geothermal capacity had an exceptional growth in 2021, with 1.6 GW added. Off-grid capacity grew by 466 MW in 2021 (+4%) to reach 11.2 GW.

Read the full Renewable Capacity Statistics 2022 here.

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One of six ClearPath solar projects Castillo Engineering provided site optimization and value engineering for in upstate New York.

ClearPath Energy has contracted with Castillo Engineering to provide electrical design and engineering for a 38.25 MW portfolio of six community solar projects in upstate New York. Ranging from 4.5 MW to 7.5 MW in size, the projects are currently in late stages of construction in central New York, some of which have already achieved mechanical completion. Castillo Engineering’s site optimization expertise resulted in over $200,000 in savings, on average, for each of these projects, which are scheduled to be operational in Q2 of 2022.

“We selected Castillo Engineering due to their team’s hundreds of megawatts of experience in the New York and Massachusetts markets,” says Greg Hering, co-founder and director of development at ClearPath Energy. “They were highly engaged, beginning with the iterative design process through to project as-builts. Their experience was helpful when working with equipment vendors, contractors, and lender’s independent engineers.”

This portfolio of projects in New York joins Castillo Engineering’s array of utility-scale solar projects completed in the Northeastern United States to date. Half of these six recent projects use solar trackers and the other half use fixed-tilt racking; all use bifacial modules.

“With over 300 utility-scale projects under our belt and over 20 senior level engineers, we are pleased to have the experience and capacity to support the nation’s leading solar EPCs and developers in order to accelerate the global transition to clean energy,” states Christopher Castillo, CEO of Castillo Engineering. “We are glad to have been able to support ClearPath on this portfolio of New York projects, as its team of development experts were extremely knowledgeable and easy to work with.”

This portfolio of projects will support New York in achieving its renewable energy goals, including a target to have 70% of the state’s energy produced from renewable resources by 2030. Three of the projects in this portfolio alone will increase one New York county’s solar capacity by nearly 50%. In total, the six projects in this portfolio will generate enough clean energy to power 8,700 homes per year.

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In 2021, Americans used 5% more energy than in 2020, according to the most recent energy flow charts released by Lawrence Livermore National Laboratory (LLNL). Each year, LLNL releases flow charts that illustrate the nation’s consumption and use of energy. In 2021, Americans used 97.3 quads (quadrillion BTU) of energy, which is 4.4 quads more than last year’s 92.9 quads, equivalent to a 5% increase. Both 2020 and 2021 annual energy consumption totals are less than 2018 and 2019, where Americans used more than 100 quads per year.

The largest increases in energy usage were derived from coal and petroleum, which increased by 14% and 9%, respectively. This change in coal-derived energy represents the first increase since 2014 and largest increase in over a decade, hypothesized to be driven by increased natural gas prices in 2021. This hypothesis is supported by the stagnation of natural gas-derived energy between 2020 and 2021 (a decrease of

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Inside a Tesvolt energy storage container at the “Seed & Greet” charging park. Image: Tesvolt.

Energy storage system (ESS) provider Tesvolt says that it saw 195% year-on-year growth in orders during March, as businesses seek to reduce their dependency on fossil fuels especially in light of the Russian invasion of Ukraine.

Germany-headquartered Tesvolt, which assembles energy storage systems (ESS) for a variety of commercial & industrial (C&I) markets, says the growth in March exceeded its long-term growth trends, though as a privately-held company has not revealed the full extent.

Daniel Hannemann, Tesvolt CEO, said: “The tragic events in Ukraine are showing just how much the industrial sector depends on Russian oil and gas. This vast surge in orders highlights that increasingly more companies are now looking to quickly and permanently reduce their dependency on fossil fuels.”

Tesvolt says that demand has particularly surged in West Europe and amongst medium-sized businesses. It says the key drivers are the high fuel prices and the expansion of charging infrastructure.

March’s growth figure is similar to selected order figures the company has previously released. It said in September that it had seen an increase of 170% in new international orders in the first half of 2021.

The order figures are understandably much higher than revenue growth. An annual report on the Bundesanzeiger shows Tesvolt had revenue of €24.3 million (US$26.45 million) in 2020, up by 48.6%, and in September 2021 forecasted that turnover was likely to exceed €100 million by 2023.

That equates to an average annual CAGR over 2021, 2022 and 2023 of at least 60%. International (outside Germany) turnover increased 60% in the first half of 2021, according to the September press release.

The company recently raised €40 million in equity capital to pursue growth. The company has recently been in the news for a deal with Schaper Group to integrate its ESS into renewable electrolyser projects for green hydrogen. It also provided battery storage for Europe’s largest EV charging park.

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A First Solar employee inspects modules at the company’s manufacturing facility in Perrysburg, Ohio.

First Solar Inc. has signed a master supply agreement (MSA) to supply 4 GW DC of advanced, responsibly produced thin film photovoltaic (PV) solar modules to Silicon Ranch. The deal, one of First Solar’s largest, will see Silicon Ranch’s projects in the United States receive modules from 2023 to 2025. Silicon Ranch will benefit from the evolution of First Solar’s advanced Cadmium Telluride (CadTel) thin film module technology platform over the span of the agreement.

The companies’ partnership began in 2015 when Silicon Ranch contracted with First Solar to supply the modules for its Aerojet Rocketdyne Solar Farm in Arkansas, the state’s first utility-scale solar project. The partnership has grown substantially across the U.S. since then, with over 30 projects totaling more than 1 GW.

“Silicon Ranch’s business model of long-term asset ownership demands that we emphasize best-in-class strategic partners and requires us to consider the future in every action we take, from the modules we buy all the way through to how we manage the land we occupy,” says Reagan Farr, co-founder and CEO of Silicon Ranch. “Our customers care about the carbon impact of their procurement choices, and so do we at Silicon Ranch.”

“We are already proving that we can sequester carbon on our sites through our regenerative energy model of land management, and this partnership with First Solar enables us to improve the carbon footprint of our module supply, while also supporting additional investment in U.S. manufacturing capabilities,” adds Farr. “We have grown our business at Silicon Ranch through our faith in the power of collaborative partnerships, and we are thrilled to expand our relationship with First Solar as we accelerate our growth strategy across the country.”

Under the agreement, end-of-life CadTel modules from Silicon Ranch projects can be processed by First Solar’s advanced high value recycling program, which recovers approximately 90% of CadTel material which can be used to manufacture new modules, as well as other materials including aluminum, glass and laminates. Additionally, the recycled glass can be converted into useful glass products for beneficial use, while laminates can be processed into rubber products including shoe soles and bicycle handles. First Solar currently operates commercial recycling facilities in the U.S., Germany, Malaysia and Vietnam.

“Since the beginning of our relationship, it has been clear that Silicon Ranch recognizes the value of taking a long-term view on procuring solar technology,” states Georges Antoun, chief commercial officer at First Solar. “Long-term module supply agreements with a trusted partner provide a vital hedge against the pricing and supply uncertainties that have impacted the solar industry over the past few years. And with First Solar’s agile contracting strategy, Silicon Ranch will have the added benefit of access to our best-in-class PV technologies as they continue to evolve.”

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The UK’s first grid-scale battery storage project, which helped prove the case for batteries to provide grid services after it was switched on in 2014. Image: S&C Electric.

The first auction for Dynamic Regulation (DR), the newest frequency service launched by the UK’s National Grid Electricity System Operator (National Grid ESO) has gone live.

It opened on the EPEX auction platform at 14:30 on 8 April, with the first delivery window set to run from 23:00 tonight till 23:00 Saturday 9 April. The results of the auction are available on the ESO’s data portal. 

DR is a pre-fault service which is designed to correct continuous but small deviations in frequency.

The launch of DR follows on from Dynamic Containment going live in October 2020, providing a significant boom to battery energy storage operators in the UK. Its high initial price of £17 (US$22.17)/MW/h in particular drew attention, boosting the revenue stack of storage assets.

It was first called into action less than 24 hours after it was launched, when an interconnector tripped while importing 1,000MW and the 139MW of battery capacity taking part in the first auction responded. 

While the service initially procured just low frequency Dynamic Containment services, in November 2021 this was expanded to include high frequency services too. 

In December 2021, a little over a year since the service was initially launched, Faye Relton, ancillary services development manager at National Grid ESO wrote an article for our sister site Current±, reflecting on how it had developed and the next steps for frequency response, including the introduction of DR. 

Following on from the launch of DR, the ESO will introduce the last service in the suite, Dynamic Moderation, set to go live on EPEX on 21 April, with the first action to be held on 6 May.

This story first appeared on Current±.

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