Main Sequence
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MGA Thermal wants to help utility companies transition from fossil fuels to renewable energy sources with shoebox-sized thermal energy storage blocks. The company says a stack of 1,000 blocks is about the size of a small car and can store enough energy to power 27 homes for 24 hours. This gives utility providers the ability to store large amounts of energy and have it ready to dispatch even when weather conditions aren’t ideal for generating solar or wind power. The modular blocks also make it easier to convert infrastructure, like coal-fired power plants, into grid-scale energy storage.
MGA Thermal announced today it has raised $8 million AUD (about $5.9 million USD), bring its total funding so far to $9 million AUD. The round was led by Main Sequence, a venture firm founded by Australia’s national science agency that recently launched a new $250 million AUD fund. Alberts Impact Capital, New Zealand’s Climate Venture Capital Fund, The Melt and returning investor CP Ventures participated, along with angel investors like Chris Sang, Emlyn Scott and Glenn Butcher.
Based in Newcastle, Australia, MGA Thermal was founded in April 2019 by Erich Kisi and Alexander Post after nearly a decade spent researching and developing miscibility gap alloys technology at the University of Newcastle. When asked to explain MGA tech in layperson’s terms, Kisi used a delicious analogy.
MGA Thermal’s blocks “essentially comprise metal particles that melt when heated embedded in an inert matrix material. Think of a block as being like a choc-chip muffin heated in a microwave. The muffin consists of a cake component, which holds everything in shape when heated, and the choc chips, which melt,” he told TechCrunch.
“The energy that goes into melting the choc chips is stored and can burn your mouth when you bite into the muffin,” he added. “Melting energy is more intense than merely heating something up and that melting energy is concentrated near the melting temperature so energy can be released in a consistent way.”
Energy stored in MGA Thermal’s blocks can be used to heat water to power steam turbines and generators. In this scenario, blocks are designed with internal tubing for pumping and boiling water, or interact with a heat exchanger. Kisi said MGA Thermal’s blocks enable aging thermal power plans to continue running on renewable energy that would usually be switched off in situations like overheating caused by too much sun or high winds.
Other thermal energy solutions include heating low-cost solid materials in blocks or granules to high temperatures in an insulated container. But many of these materials aren’t good at moving thermal energy around and have temperature limitations, Kisi said. This means thermal energy decreases in temperature as it is discharged, making it less effective.
Another method for storing thermal energy involves molten salts that are heated by a renewable energy source and stored in a hot tank. The hot salt is then pumped through a heat exchanger to make steam, while colder (but still molten) salt is returned to a “cold” tank.
“These systems are widely used in concentrating solar thermal energy but have found little use elsewhere,” Kisi said. “That’s mostly because there is a large infrastructure cost for piping pumps and heaters, and a large amount of power is wasted keeping the salt from freezing.”
MGA Thermal is establishing a manufacturing plant in New South Wales to scale to commercial levels production of its blocks, and plans to double its team over the next 12 months so it can make hundreds of thousands of blocks each month. It is also currently working with partners like Swiss company E2S Power ASG and U.S.-based Peregrine Turbine Technologies to deploy its tech in Australia, Europe and North America. For example, E2S Power AG will use MGA Thermal’s tech to repurpose retired and active coal-fired thermal plants in Europe.
While MGA Thermal’s tech has many industrial use cases, like converting power stations, building off-grid storage and supplying power to remote communities and commercial spaces, it can also help consumers consume less fossil fuel. For example, MGA blocks can be used by households to store excess energy generated from rooftop solar panels or small wind turbines. Then that energy can be used to heat homes.
“Around the world an estimated three billion people heat their homes by burning fuel,” said Kisi. “That’s a lot of CO2, especially in very cold climates.”
In a statement, Main Sequence partner Martin Duursma said, “A core focus of our new fund is uncovering the scientific discoveries, and helping to turn them into real, tangible technologies so we can reverse our climate impact. Erich Kisi and Alexander Post’s impressive deep research backgrounds, their expert team and innovative technology are paving the way for grid-scale energy storage and boosting the capability of a renewable energy future globally.”
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Hydrogen-based generators are an environmentally friendly alternative to ones powered by diesel fuel. But many rely on solar, hydro or wind power, which aren’t available all the time. Brisbane-based Endua is making hydrogen-based power generators more accessible by using electrolysis to create more hydrogen and storing it for long-term use. The startup’s technology was developed at CSIRO, Australian’s national science agency, and is being commercialized by Main Sequence, the venture fund founded by CSIRO and Ampol, one of the country’s largest fuel companies.
Main Sequence’s venture science model means that it first identifies a global challenge, then brings together the technology, team and investors to launch a startup that can address that problem. Through the program, Paul Sernia, the founder of electric vehicle charger maker Tritium, was brought on to serve as Endua’s chief executive officer, working with Main Sequence partner Martin Duursma to commercialize the hydrogen-based power generation and storage technology developed at CSIRO. Ampol will serve as Endua’s industry partner.
Endua is backed by $5 million AUD (about $3.9 million USD) from Main Sequence, CSIRO and Ampol. The company plans to launch in Australia first before expanding into other countries.
Sernia told TechCrunch that Endua was created to “solve one of the biggest problems facing the transition to renewable energy — how to store renewable energy in large quantities, for long periods of time.”
Endua’s modular power banks can run up to 150 kilowatts per pack and be extended for different use cases, serving as an alternative to power generators that run on diesel fuel. Batteries serve as backup, but Endua’s goal is to deliver renewable energy that can be stored in large quantities, enabling off-grid infrastructure and communities to have self-sustaining power sources.
“Hydrogen electrolysis technology has been around for quite some time but it still has a long way to go to meet the expectations of commercial markets and be cost-effective when compared to existing energy sources,” Sernia said. “The technology we’ve developed with CSIRO enables us to make the cost more affordable compared to fossil fuel sources, more reliable and easily maintained in remote communities.”
The startup plans to focus on industrial clients before reaching smaller businesses and residences. “One of the biggest opportunities, that few have really tackled, is that of diesel generator users like regional communities, mines or remote infrastructure,” Sernia said. “In farming, Endua’s solution could be used to power equipment such as a bore or irrigation pumps.” The power banks can plug into existing renewable energy systems, including solar and wind, to make the switch economical for users, he added. Water is part of the electrolysis process, but only a small amount is needed.
“Batteries are a great way to deliver dispatchable power in small increments and are a complementary part of the overall transition plan, but we’re focusing on delivering renewable energy that can be stored in large quantities, for large periods of time, so communities and remote infrastructure can access reliable, renewable energy at any time of day,” Sernia told TechCrunch.
Ampol is working with Endua as part of its Future Energy and Decarbonisation Strategy. It will test and commercialize Endua’s tech to reach its 80,000 B2B customers, focusing first on the off-grid diesel generator market, which the company said generates 200,000 tonnes of carbon emissions per year.
In a press statement, Ampol managing director and CEO Matthew Halliday said, “We are excited to be involved with Endua, which is part of our commitment to extending our customer value proposition by finding and developing new energy solutions that will assist with their energy transition.”
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