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Solar EV Charging to Bypass the Grid: A US$2.5 Billion Market by 2034, Says IDTechEx
Tuesday, May 14, 2024
Unreliable and fossil fuel-intense electrical grids
BOSTON, May 6, 2024 /PRNewswire/ -- Electrification of cars, buses, and trucks drastically reduces CO(2) emissions at the point of use compared to a diesel or petrol alternative. The adoption of EVs across all sectors, with IDTechEx predicting over 180 million electric vehicles to be sold annually by 2044. This will contribute to a drastic reduction in tailpipe emissions. However, the overall emissions are usually highly dependent on the energy mix that goes into grid electricity production. In many economies, this contains significant amounts of fossil fuels such as coal and natural gas. Beyond CO(2) emissions, some grids are already at capacity, and the increased load of an electric transport sector risks blackouts and power supply issues. South Africa is an EV market with both of these issues, and several innovations have been made using distributed power generation to tackle these challenges. IDTechEx's research report, "Off-Grid Charging For Electric Vehicles 2024-2034: Technologies, Benchmarking, Players and Forecasts", explores the challenges and solutions associated with charging EVs in the context of constrained electricity grids.
The South African utility grid is subject to frequent load-shedding, periods when demand exceeds supply, and utility operators are forced to impose rolling black or brownouts of up to 50% capacity. This is a problem for all forms of domestic and industrial electrical use but becomes an especially pronounced problem for commercial EV operators. Fleet operators often must charge at predesignated times to maximize uptime and complete all planned routes. If the grid fails during a charging spot, the entire schedule may be adversely affected by factors beyond an operator's control. This is an unusual grid situation; however, it presents a possible worst-case scenario for grid-congested and EV-saturated regions. In 2022, a heatwave in California prompted the state government to ask EV owners not to charge to conserve energy. The growth in electric vehicle sales will only make such problems more widespread.
South Africa also has a very carbon-intensive energy mix, with approximately 70% of power generation being from coal. This directly translates into higher lifecycle CO(2) emissions from EVs powered by the electrical grid. Whilst South Africa has a particularly fossil fuel energy mix, the source of electricity plays a critical role in the lifecycle emissions of an electric vehicle.
Disturbed generation gives renewable and grid-independent electricity
One possible solution being trialed in South Africa, amongst other places, is harnessing distributed renewable microgrids to form the backbone of charging networks. By integrating a solar farm, large-scale energy storage (ES), and high-powered charging outlets, Vrendal-based Zero Carbon Charge plans to build an etruck charging network. Not only does this decouple charging from an unreliable grid, it also avoids placing excess electrical demand on utilities, avoids the need for costly grid expansions, and provides free and 100% renewable energy for the trucks to operate on. This is not limited to South Africa; the USA, in particular, has also seen a boom in companies offering grid-free solar-powered charging. In the US, many of the products are smaller scale and transportable, allowing easy setup for EV users who want quick access to EV charging.
Easy setup, no grid connection, but slow charging rates
The main challenge with distributed solar generation for EV charging is the low power output of photovoltaic panels. Most produce around 250 Watts per square meter, which is relatively low. In fact, to charge at 22kW (generally considered Level 2 fast charging), a solar canopy would need to be at least 10 x 10 meters, a considerable footprint, especially in an urban environment. The other challenge is storing energy, as charging will not always be required constantly, so an on-site battery is required to store the generated electricity. Without an integrated on-site battery, charging is impossible when there is no sunlight, such as inclement weather or overnight. On-site battery storage can combat this intermittency.
Larger solar farms with integrated energy storage can become islanded microgrids, and with enough on-site storage and photovoltaic production, potential grid-independent fast charging is possible. This is the approach proposed for the South African etruck charging network. It is important to note that purely solar solutions are likely to be geographically restricted to areas with high photovoltaic potential. Thus, it is no surprise that the leading regions are Western regions of the US and places like South Africa. Beam Global, a supplier of EV canopy chargers, recently announced its first sales in the European market to the United Kingdom Ministry of Defense. However, the chargers will not be deployed in the mainland of the UK; they will be deployed on a military base in Cyprus, one of the sunniest regions on the continent.
Despite technical challenges, the aging and fossil fuel-heavy nature of grids combined with high EV uptake call for new charging solutions, and IDTechEx predicts that solar charging systems will make up a sizeable portion of the overall US$16 billion off-grid charging infrastructure hardware market by 2034. IDTechEx research also indicates several other technologies likely to be adopted for off-grid EV charging. Hydrogen fuel cell charging is likely to emerge as a key solution for use cases requiring much greater power per area, with a particular expected focus on electrified construction sites. More niche technologies include AWE (airborne wind energy), which harnesses high altitude winds for distributed power generation. For an in-depth look at solar EV charging, as well as alternative technology options such as AWE and hydrogen see IDTechEx's latest research on the topic, "Off-Grid Charging For Electric Vehicles 2024-2034: Technologies, Benchmarking, Players and Forecasts".
To find out more about this IDTechEx report, including downloadable sample pages, please visit www.IDTechEx.com/OffGridEV.
For the full portfolio of electric vehicle market research from IDTechEx, please see www.IDTechEx.com/Research/EV.
About IDTechEx:
IDTechEx provides trusted independent research on emerging technologies and their markets. Since 1999, we have been helping our clients to understand new technologies, their supply chains, market requirements, opportunities and forecasts. For more information, contact research@IDTechEx.com or visit www.IDTechEx.com.
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SOURCE IDTechEx
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