Early this year Adani announced his company’s goal to become the world’s largest solar power company by 2025 and the largest renewable power company by 2030.

Image: Life tech/Flickr

Covid-19 presents an opportunity to pause, rethink, and design a new and faster transition to a cleaner energy future, said Adani Group chairman Gautam Adani recently in his LinkedIn post.

“The [clean energy] transition could lead to investment opportunities of US$ 19 trillion in solar, wind, battery storage, green Hydrogen, carbon management and energy efficiency by 2050, making it one of the largest global industries”—Adani quoted a recent forecast by the International Renewable Energy Agency (IRENA).

“Employment in the clean energy sector, currently at 12 million in 2020, could quadruple by 2050, while jobs in energy efficiency and system flexibility could grow by another 40 million.”

Adani believes India, in particular, is well-positioned to benefit from the transition as it is naturally endowed with very high levels of solar resources, and the long coastline makes an attractive proposition for wind power.

Falling solar prices in favour

With technology driving prices down, renewables would supplement fossil fuels in the short term and emerge as the favoured option in the long term.

Adani quoted an MIT research paper to share that the price of solar modules has dropped 99% over the past 40 years. Going by the trend, he expects prices to drop by an additional 99% over the next 40 years – probably reducing the marginal cost of electricity to zero.

“Such a reduction, in turn, will mean the coexistence of two business models – one based on fossil fuels and the other driven by renewables – both supplementing each other in the near future but the pendulum swinging decidedly in favour of renewables in the long-term,” he wrote.

Adani said many of the [power] system operators in Europe, faced with falling [electricity] demand, are learning to manage grids at a remarkably high level of renewables in the energy mix, often up to 70%.

“While the generation balance may swing back as [electricity] demand increases, the crisis has provided insights to operators on keeping the grid stable with high levels of renewable penetration. Post Covid-19, this may be the new norm,” he said.

Hydrogen storage, a potential game changer

With increasing investor confidence in solar and wind, their integration with various storage technologies will further accelerate the energy transition, said Adani, highlighting hydrogen as the predominant storage technology on the horizon.

“With the prospect of the future marginal cost of renewable energy dropping precipitously, green Hydrogen produced by the splitting water could be the game-changer.

“This Hydrogen could use much of the existing gas pipeline network for distribution, be blended with natural gas and be a green feedstock for the chemical industry. Add to this the fact that the energy density of a kilogram of Hydrogen is almost three times that of gasoline, and you have a momentum that would be near impossible to stop as Hydrogen fuel cell vehicle prices come down,” he said.

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This article originally appeared on pv-magazine-india.com, and has been republished with permission by pv magazine (www.pv-magazine.com and www.pv-magazine-india.com.)

IBE estimates that the offtake agreements for its Project NEO will amount to over $7.5 billion.

Image: Horizon Power

Perth-based Infinite Blue Energy (IBE) has unveiled a bold plan to deliver Australia’s first green hydrogen baseload power plant that could change the electricity landscape in New South Wales (NSW). Project NEO is initially focused on providing 1000 MW of green hydrogen using solar, wind and hydrogen fuel cells for 24/7 electricity supply.

The project, which will commence with a feasibility study and detailed design over the next 18 months, aims to transition energy-intensive, fossil fuel-dependent industries in NSW to 100% renewables by 2027. To provide reliable baseload power, NEO will use solar and wind to produce hydrogen, a certain amount of which will be stored in fuel cells and available when there is no wind or sun, on cloudy days and at night. 

“The vision at IBE is to show the world, first and foremost, that Australia has the technology, skills and entrepreneurial mindset to be a true leader in the development of green hydrogen plants,” IBE CEO Stephen Gauld said. “We are currently in robust negotiations with major electricity users in the NSW Hunter Region that have confirmed their intentions to transition to green hydrogen baseload electricity this decade.”

Led by a team with substantial experience in the oil and gas sector, IBE has only recently appeared on the Australian energy scene. In April, the company unveiled plans for the first of its many green hydrogen projects in Western Australia (WA), announcing an initial $300 million investment for its first phase of construction. Other companies that have announced gigawatt-scale plans in WA include BP Australia, which is looking to develop around 1.5 GW of greenfield solar and wind projects for its green hydrogen and ammonia plans, and Siemens, which aims to produce green hydrogen for local industry and export to Asia from up to 5 GW of wind and solar capacity.

Another megaproject underway in WA is the Asian Renewable Energy Hub (AREH), which could feature up to 15 GW of solar and wind capacity with the goal to supply local energy users in the Pilbara region and develop a green hydrogen manufacturing hub for domestic use and export to Asia. Recently, AREH has moved forward after being recommended for environmental approval.

Fast-tracking NSW’s energy transition

Project NEO, which comes with a $2.7 billion price tag, is expected to feature 235 wind turbines and a PV array covering approximately 1,250 hectares of land. The cumulative renewable energy capacity will stand at around 3.5 GW and will be deployed at high-value sites for solar and wind production, in combination with a “distributed generation model”. “This allows the generation sites to blend in with existing land users with minimal impact,” IBE says.

Over 2 million NSW homes stand to benefit from Project NEO, the company says, in addition to other economic benefits. IBE anticipates that a significant proportion of the workforce required for Project NEO will be drawn from the existing coal-fired power stations in NSW, since many of the skills are similar.

“Project NEO will produce local and indirect employment, allow existing industries to decarbonize, and facilitate the establishment of new industries,” Gauld says. “It will localize manufacturing, give a 100% green supply of power to NSW, fuel the reduction of the state’s carbon emissions and can therefore play a pivotal role in ultimately helping Australia become leaders in carbon emission reduction.”

This article originally appeared on pv-magazine-australia.com and has been republished with permission by pv magazine (www.pv-magazine.com and www.pv-magazine-australia.com).

Hydrogen from electrolysis is often described as the missing link in the energy transition.

Image: ARENA

Gladstone set to become the nation’s green hydrogen hotspot with two new projects seeking to tap the opportunities in the domestic supply of zero-emissions gas and in the emerging export market. Located in central Queensland, Gladstone is set to become the first entire city in the nation to be on a blend of natural gas and hydrogen.

An Australian first $4.2 million gas injection facility will be built in Gladstone to deliver renewable hydrogen into the city’s gas network, thanks to the first grant from the Queensland Government’s $15 million Hydrogen Industry Development Fund. “Using green hydrogen, Australian Gas Networks (AGN) will trial the blended hydrogen gas with a view to converting Gladstone’s network to hydrogen in the future,” Queensland Premier Annastacia Palaszczuk said.

AGN, part of the Australian Gas Infrastructure Group (AGIG), has been offered more than $1.7 million through the fund to build a blending facility to deliver 10% renewable hydrogen into the gas network. Under its $19 million hydrogen strategy, Queensland is looking to assist companies with the purchase of capital equipment as well as industry players looking to carry out feasibility studies.

“This project will be the first in Australia to blend renewable hydrogen into a gas network with residential, commercial and industrial customers,” Minister for State Development Cameron Dick said speaking from the Gladstone Hydrogen Forum on Thursday.

Elsewhere in Australia, Canadian gas giant ATCO started blending renewable hydrogen into the on-site natural gas network at its Clean Energy Innovation Hub in Jandakot, WA. The blend will be used throughout the Jandakot depot as the first step in exploring the potential of hydrogen for home use in gas appliances.

In another initiative for greening the gas network, energy infrastructure company Jemena is looking to generate hydrogen from renewables and inject it into the existing gas network so that homes and businesses in Sydney could begin using the fuel within five years. The $15 million Western Sydney Green Gas Project aims to demonstrate the co-mingling, storage and distribution of hydrogen and natural gas in the existing network which, as Jemena puts it, has the capacity to store the equivalent of 8 million Powerwall batteries.

“This project supports Gladstone’s vision to be a key hub for Queensland’s domestic and hydrogen export industry, just as it is for natural gas today,” AGN’s CEO Ben Wilson said. AGN had formed a partnership with Central Queensland University (CQU) providing access to the blending facility for CQU staff and students to build skills in hydrogen technologies.

Gigawatt plans

Along with the AGN project, Gladstone has also been selected as the location for the Hydrogen Utility’s (H2U) latest project, a proposed $1.61 billion industrial complex for the large-scale production of green hydrogen and ammonia. The H2-Hub^TM Gladstone facility will be built in stages to integrate up to 3 GW in electrolysis plant, and up to 5,000 tonnes per day ammonia production capacity.

“The integration of mature technologies – such as electrolysis and ammonia synthesis – at industrial scale, powered by 100 per cent renewable power supply, meets the emerging demand for decarbonised products in the energy, chemicals and mobility markets of North Asia,” Attilio Pigneri CEO and Founder of H2U said. He sees Queensland as well-positioned to capitalize on the opportunities from this new industry, in part due to its strong existing trading relationships with Japan.

According to Attilio, Gladstone was an obvious choice for locating industrial-scale green hydrogen and ammonia facilities due to its existing skill base, industrial port eco-system, and strategic location in the Queensland grid. Through the government-run land use planning and property development agency, Economic Development Queensland (EDQ), H2U has purchased a 171-hectare site at Yarwun in the Gladstone State Development Area, which is in close proximity to the export precinct at Fisherman’s Landing.

“The progressive and well-structured planning framework applicable to State Development Areas such as Yarwun, was also a key factor in our selection of the project site,” Pigneri said. “With the land in Gladstone secured under contract the project will now move into master planning and detailed feasibility, targeting approvals by 2023 and first operation in 2025.”

The project could potentially translate into a major bonanza for the city, creating over 100 operational jobs and driving new exports for green hydrogen and ammonia. Ultimately, it could turn Gladstone into the hydrogen export powerhouse on the back of Queensland’s solar, wind and biomass resources, existing gas pipeline infrastructure and developed export infrastructure.

A big step was made last year when Queensland celebrated Australia’s first-ever delivery of green hydrogen to Japan. The fuel was exported by JXTG, Japan’s largest petroleum conglomerate, with hydrogen produced at QUT’s solar cell facility at the Queensland government’s Redlands Research Facility.

Previously, the Queensland government committed $750,000 for a feasibility study into producing hydrogen using solar energy from central Queensland and exporting it to Japan via Gladstone. In a separate initiative, the Australian Renewable Energy Agency (ARENA) announced it was providing $2.9 million in funding to two studies in Queensland looking at the potential to use solar and wind-powered hydrogen produced via electrolysis to increase ammonia production at facilities which currently rely on gas as feedstock.

This article originally appeared on pv-magazine-australia.com, and has been republished with permission by pv magazine (www.pv-magazine.com and www.pv-magazine-australia.com )