Electrifying transport: Why New Zealand can’t rely on battery-powered cars alone

Comparison of losses across each step of the chain for battery electric and hydrogen fuel cell electric vehicle technologies. Credit: CC BY-ND 4.0

The transport sector accounts for 47% of New Zealand’s carbon dioxide emissions. It will be a focus for decarbonisation to meet the country’s new climate pledge to cut emissions by half by 2030.

Most (90%) transport emissions come from road transport, which is also the fastest-growing sector. Battery-driven electric vehicles have been highlighted as the sole pathway to a net-zero transport sector. But a life-cycle approach suggests we should consider more than one option.

Advances in hydrogen fuel cell technologies suggest a multi-pronged strategy is a more sensible approach to decarbonisation. It also aligns well with the aim of building resilient transport systems.

We argue a single solution will not be adequate to decarbonise road transport.

Hydrogen fuel cells versus batteries

Electric vehicles with hydrogen-powered fuel cells have the edge on battery-driven cars in three important ways: longer range, shorter refueling time and greater payload.

Hydrogen contains nearly three times the energy density of diesel and petrol. This makes it attractive for use in heavy commercial vehicles. Hydrogen’s light but energy-dense properties allow heavy-duty and long-haul trucks to couple hefty payloads and long ranges while offering refueling times comparable to conventional combustion-engine vehicles.

But while hydrogen is lighter than batteries, efficiency losses are significant. Producing green hydrogen by splitting water using renewable electricity in a state-of-the-art electrolyser results in an energy loss of about 35%.

Of the remaining 65% of the original energy, another 55% is lost during compression, distribution and conversion back to electricity in the fuel cell to drive the electric motor. This results in an overall efficiency of around 35% with existing technologies.

In contrast, the overall electrical loss (from plant to plug) in centralized electricity networks is only up to 8%. This includes transmission and distribution losses, as well as the efficiency of grid-scale storage. This represents the worst-case scenario in light of the recent developments in smart local energy systems.

Battery vehicles have a battery-to-wheel efficiency of 75–87%, resulting in a well-to-wheel efficiency of 70–80%, depending on the model. But batteries (particularly lithium-ion batteries) have a substantially lower energy density than hydrogen.

This means the range of a battery-driven electric vehicle can only be increased by adding weight and cost. This tips the hydrogen fuel cell to be the most promising future of heavy-duty road transport.

Electrifying transport: why New Zealand can't rely on battery-powered cars alone
Map of planned hydrogen refuelling station developments in Aotearoa-New Zealand. Credit: Soheil Mohseni

Impacts on the environment

The environmental cost of producing batteries or fuel cells is another important factor to consider when evaluating the sustainability of future carbon-neutral fleets.

Technology improvements and economies of scale have pushed down the cost of lithium-ion batteries substantially. But the so-called “green conflict” highlights humanitarian controversies in communities where mining battery metals (mainly cobalt, but also lithium, nickel and copper) takes place.

This is a major challenge for the battery electric vehicle industry. Costly and energy-intensive processes are now available to recycle depleted batteries. The green transportation industry is also considering “second-life options” to reuse batteries elsewhere before recycling the raw materials.

However, moving to a hydrogen-powered fleet would also drive up demand for nickel, platinum and other rare minerals, given the significant losses in efficiency.

Hydrogen infrastructure investment

Last year, the New Zealand government pledged NZ$20 million towards establishing a nationwide network of hydrogen refueling stations. The commitment from the infrastructure reference group will help to attract an additional $49 million from Hiringa Energy, joint-venture partners and other private investors.

As part of the initiative, eight hydrogen filling stations tailored to heavy-duty fuel-cell trucks and buses will be installed across the country.

The network is expected to service heavy-duty freight routes in the North Island and South Island, at 95% and 82% of current capacity, respectively. Hiringa has also signed a vehicle-supply agreement with Hyzon Motors to deliver up to 1,500 fuel-cell electric trucks, assembled at its site in the Netherlands, by 2026.

When it comes to the electrification of transport, most advocates fall into one of two camps: battery electric or hydrogen fuel cell. The two are nearly always perceived as opponents. Few organizations or companies promote an optimal mix of the two technologies.

But recent research suggests the cheapest and environmentally and socially most acceptable approach is to combine complementary characteristics of these technologies. It also contributes to the goal of a 100% renewable electric grid.

We believe battery and hydrogen vehicles will coexist for different applications, as each finds its niche in the future zero-carbon economy.


A switch to battery electric vehicles is the best option for cleaner road transport, study finds


Provided by
The Conversation


This article is republished from The Conversation under a Creative Commons license. Read the original article.The Conversation

Citation:
Electrifying transport: Why New Zealand can’t rely on battery-powered cars alone (2021, November 1)
retrieved 1 November 2021
from https://techxplore.com/news/2021-11-electrifying-zealand-battery-powered-cars.html

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.

For all the latest Technology News Click Here 

 For the latest news and updates, follow us on Google News

Read original article here

Denial of responsibility! TechNewsBoy.com is an automatic aggregator around the global media. All the content are available free on Internet. We have just arranged it in one platform for educational purpose only. In each content, the hyperlink to the primary source is specified. All trademarks belong to their rightful owners, all materials to their authors. If you are the owner of the content and do not want us to publish your materials on our website, please contact us by email – [email protected]. The content will be deleted within 24 hours.