The Government will progress to the next stage of the NZ Battery Project, looking at the viability of pumped hydro as well as an alternative, multi-technology approach.
The Government will progress to the next stage of the NZ Battery Project, looking at the viability of pumped hydro as well as an alternative, multi-technology approach as part of the Government’s long term-plan to build a resilient, affordable, secure and decarbonised energy system in New Zealand, Energy and Resources Minister Megan Woods says.
The NZ Battery Project was established in late 2020 to find innovative solutions to the ‘dry year problem’, when hydro-electricity lakes run low, leading to the burning of more fossil fuels to cover the electricity shortfall, and often higher power bills.
“Until we address the dry year problem, we will continue to rely on burning expensive and polluting fossil fuels to produce our electricity. That’s bad for the climate and our power bills,” says New Zealand Energy and Resources Minister Megan Woods.
“Pumped hydro is an ingenious way of storing energy in a big reservoir, which is released into a lower reservoir when more power is needed, like a giant battery. A dry year solution would be a huge step towards our mission to move towards more renewable energy generation and power more of New Zealand in New Zealand,” says New Zealand Energy and Resources Minister Megan Woods.
“The Government has also agreed to continue looking at alternatives to the scheme including a combination of comparator technologies and scoping a possible smaller pumped hydro scheme in the central North Island, subject to agreement with iwi,” says New Zealand Energy and Resources Minister Megan Woods.
Biomass, flexible geothermal energy, and hydrogen have been identified as the possible alternatives to pumped hydro, as they have the most potential collectively to store enough energy to help solve the dry year problem.
Phase 1 investigations show a pumped hydro scheme at Lake Onslow would take approximately seven to nine years to build, with an estimated building cost of $15.7 billion.
In comparison, initial estimates for the capital element of the portfolio option are about $13.5 billion, but with significantly higher ongoing operating costs.
“We always knew that any dry year battery storage solution will require significant investment, that’s why it’s important we thoroughly test these scenarios and get it right,” says New Zealand Energy and Resources Minister Megan Woods.
“Now some more detailed work has been done we have a much clearer picture of the projected costs which differ significantly from the 2006 high level costings. The next phase will be to dig even further before we look at spending such a huge amount of money, but one thing we do know is that doing nothing to plan for climate change is not an option,” says New Zealand Energy and Resources Minister Megan Woods.
“We have a choice to take a short term view and continue to pay for the increasing costs related to climate change or to be bold and take a long term view, for the good of the country,” says New Zealand Energy and Resources Minister Megan Woods.
“But there’s still a long way to go. A lot more work is required to understand the full environmental, cultural, social and commercial impacts, as well as the engineering requirements. We will continue to work with our key stakeholders including mana whenua, and landowners, as well the technology experts,” says New Zealand Energy and Resources Minister Megan Woods.
A detailed business case is expected to be developed by the end of 2024, followed by a final investment decision, which is expected to take a further two years.
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