Latest news with #SustainableTransport
Yahoo
15 hours ago
- Automotive
- Yahoo
Researchers explore next-gen twin batteries that could solve concerning problem with EVs: 'A promising approach'
Electric vehicles are transforming transportation for the better, but producing their batteries comes with high costs — a trade-off that researchers at engineering firm IAV may have found a solution for. IAV, a firm focused on the future of mobility, has developed a twin-battery design that pairs two different but complementary chemistries to reduce the cost and environmental impact of manufacturing EV batteries, reported. Instead of relying on lithium-ion cells, the design combines sodium-ion (SIB) and lithium iron phosphate solid-state (LFP-SSB) batteries. SIBs are low-cost and easier to recycle, while LFP-SSBs offer long cycle life and strong energy density. The system reuses waste heat from one battery to optimize the performance of the other. Combining the two types creates an energy-saving system that could boost range and efficiency without the high costs of cooling, heating, or mining for lithium-ion batteries, according to IAV also designed and developed the new battery with minimal waste. Using COMSOL Multiphysics, IAV engineers were able to tweak parameters and simulate the batteries' real-world thermal, chemical, and mechanical behavior. This validated the effectiveness and efficiency of the battery system without the need for multiple prototypes, per which sped up development while slashing costs and resource waste. Jakob Hilgert, a technical consultant at IAV, considers the use of diverse cell chemistries "a promising approach to respond to market fluctuations and at the same time minimize system costs," per IAV is also exploring other innovations, like the use of bipolar technology to maximize volume utilization of lithium-ion batteries. There are also other companies pursuing similar breakthroughs. For instance, Watt Electric Vehicle Company is developing a solar-powered closed-loop production system. Other automakers are also investing in research and development for better EV chargers and infrastructure. If you were going to purchase an EV, which of these factors would be most important to you? Cost Battery range Power and speed The way it looks Click your choice to see results and speak your mind. Energy solutions like these can make EVs more affordable. They could help drive EV adoption, going far beyond the 17.3 million electric cars produced in 2024 alone. For drivers looking to save even more, pairing an EV with home solar can drastically reduce charging costs. Platforms like EnergySage make it easy to compare quotes from vetted vendors, and can help you save up to $10,000 while minimizing environmental impact. While there's no firm rollout date yet, IAV's approach could contribute to a smarter, cleaner, and more accessible EV future. Join our free newsletter for weekly updates on the latest innovations improving our lives and shaping our future, and don't miss this cool list of easy ways to help yourself while helping the planet.
BBC News
6 days ago
- Business
- BBC News
City of York Council 'rules out' congestion charge
Congestion charges have been ruled out as a method of cutting city centre traffic in York, transport leaders Ravilious, City of York council's executive member for transport, said the measure was not among those being considered, though said "everything else is part of the toolbox".Speaking at Active City York 2025, Ravilious said other schemes being considered include the creation of a "Sustainable Transport Corridor" from York Station to Tower she said it was important to "get the framing right" after the recent backlash to increased parking charges in the city. Ravilious spoke to attendees at the event alongside Public Health Director Peter Roderick about the council's efforts to promote walking, cycling and public transport council's Local Transport Strategy, which is guiding the work, aims to cut car use in York by a fifth by 2030, according to the Local Democracy Reporting told the event plans to achieve the goal include the creation of a Sustainable Transport Corridor, to give buses priority along a route from York Station to Tower Street via the Ouse Bridge, over all but essential private car said the authority had also tried to use hikes in parking charges at council-run car parks to try and discourage car she acknowledged the reaction from residents, traders and opposition councillors highlighted the importance of taking people with them when enacting transport changes. "We raised parking charges to reduce congestion by making a family bus ticket cheaper than the first two hours," she said."But we didn't get the framing right and it's not gone down well, it's very difficult because it came as part of our budget so we couldn't do it with the positives."It's been very difficult and painful, it's been a lesson for us to have the carrot alongside the stick."We've ruled out a congestion charge for York, but everything else is part of the toolbox, parking is an important tool and we all have to address it." Listen to highlights from North Yorkshire on BBC Sounds, catch up with the latest episode of Look North.
Globe and Mail
03-07-2025
- Automotive
- Globe and Mail
Electric Truck Market worth $32,133.4 million by 2032, at a CAGR of 29.5%
Electric Truck Market by Propulsion (BEV, PHEV, FCEV), Type (Light-duty Trucks, Medium-duty Trucks, Heavy-duty Trucks), Range, Battery Type, Battery Capacity, Level of Automation, End User, Payload Capacity, and Region - Global Forecast to 2032 The electric truck market is estimated at USD 5,247.2 million in 2025. It is projected to grow at a CAGR of 29.5%, reaching USD 32,133.4 million by 2032. The electric truck market is swiftly evolving as governments and fleets push for cleaner freight solutions. With prominent players such as AB Volvo and BYD rolling out models for urban delivery and long-haul routes, adoption is accelerating. For instance, in September 2024, AB Volvo launched a new electric truck with a 372-mile range per charge designed for long-haul transport. The model uses advanced battery technology to improve operational efficiency and reduce emissions. Incentives, emission targets, and expanding charging networks are further making electric trucks more practical. Light-duty models are leading adoption in cities, while medium- and heavy-duty segments are gaining momentum. As infrastructure and battery technology improve, electric trucks are poised to reshape global commercial transport. 'Lithium-Nickel-Manganese-Cobalt Oxide is expected to be the largest and fastest growing segment.' The electric truck market, by battery type, is dominated by the Lithium-Nickel-Manganese-Cobalt Oxide (NMC) battery. Leading manufacturers such as Ford, Scania, and Rivian integrate NMC batteries into their vehicles to optimize performance and range. These batteries have a higher energy density than Lithium Iron Phosphate (LFP) batteries. Additionally, the declining cost of NMC batteries has brought them closer to price parity with LFP batteries, enhancing their market appeal. While LFP batteries are gaining traction, mainly due to their longer lifecycle, the adoption of NMC batteries is expected to rise significantly, particularly across European and North American markets, driven by performance requirements and energy density advantages. As OEMs expand electric truck offerings across various duty cycles, battery chemistry selection is becoming increasingly application specific. NMC batteries, with their compact size and high-power output, are well-suited for long-haul and heavy-duty operations where space and energy demands are critical. Conversely, LFP batteries are preferred in short-haul, urban, and light-duty applications due to their lower thermal risk and extended cycle life. Manufacturers are also investing in flexible battery platforms to accommodate both chemistries, ensuring adaptability across diverse fleet requirements. This dual-chemistry strategy is expected to drive innovation and competitiveness in the electric truck battery ecosystem. Download PDF Brochure @ 'Heavy-duty trucks are anticipated to secure a leading market position. ' By type, heavy-duty trucks are emerging as the most influential segment in the electric truck market, driven by the global push to decarbonize long-haul and high-load freight transportation. These trucks are central to logistics and industrial operations, which contribute disproportionately to carbon emissions. Despite accounting for less than 20% of vehicle sales, medium- and heavy-duty trucks contribute nearly 40% of transport-related greenhouse gas emissions. This imbalance has compelled policymakers, particularly in North America and Europe, to mandate electrification across high-emission commercial fleets. Government frameworks like California's Advanced Clean Trucks (ACT) regulation and Canada's 2040 zero-emission target for MHDVs have fueled OEM investment, accelerated innovation, and increased deployment of electric heavy-duty trucks. Modern heavy-duty electric trucks now rival diesel counterparts in both performance and range. For instance, the Tesla Semi, with a battery capacity of 900–1000 kWh, offers a range of up to 500 miles and supports Class 8 logistics applications. Similarly, Freightliner's eCascadia, launched by Daimler Truck North America, provides a 200–250 mile range and is used for regional haul and intermodal operations. Volvo's VNR Electric, with a 565 kWh battery pack, offers a range of up to 270 miles and targets heavy-duty urban distribution. These models illustrate how manufacturers are integrating high-capacity batteries and advanced propulsion to serve long-haul, last-mile, and intercity freight demand. Fleet operators increasingly favor these trucks due to the reduced total cost of ownership (TCO), resulting from savings in fuel, maintenance, and emissions compliance. PepsiCo, for example, began deploying the Tesla Semi to fulfill long-haul logistics in the US, helping the company meet its sustainability commitments with zero tailpipe emissions. As infrastructure scales and regulations tighten, heavy-duty trucks are set to remain pivotal to commercial EV adoption globally. ''The European electric market is projected to grow significantly.'' France, Germany, the Netherlands, Norway, Sweden, and the UK are core markets under the European electric truck landscape. The region is governed by stringent emission regulations, with national governments actively incentivizing the electrification of transport. Policies such as tax exemptions, vehicle purchase subsidies, and infrastructure funding have collectively accelerated the shift toward electric trucks. Countries like Germany and the Netherlands have also introduced aggressive clean mobility programs that align with the EU Green Deal and Fit for 55 climate targets, impacting transport emissions and market expansion. In 2024, Daimler Truck AG announced a substantial investment into its European e-mobility segment, launching next-generation electric variants such as the Mercedes-Benz eActros 600, which offers over 300 miles of real-world range. Similarly, Volvo Trucks scaled production of its FH Electric and FM Electric models across its Gothenburg and Ghent plants, with confirmed orders from logistics giants such as DFDS and DHL. Furthermore, Europe is home to the world's leading electric truck manufacturers, including AB Volvo, Mercedes Benz Group AG, and Scania AB. These OEMs are driving innovation in electric powertrain technologies, battery integration, and range performance, positioning the region at the forefront of electric truck production. As manufacturers expand their electric truck portfolios to include light, medium, and heavy-duty variants, fleet operators across logistics, construction, and municipal sectors are increasingly adopting battery-electric alternatives. This well-established industrial base provides the technological foundation and supply chain efficiency needed to scale adoption. To ensure a smooth transition, European governments are heavily investing in public and private charging infrastructure while continuing to offer long-term support for vehicle electrification. Funding mechanisms under the EU Recovery and Resilience Facility, as well as national climate programs, are prioritizing clean transport projects. With policy alignment, OEM leadership, and improved environmental awareness, the electric truck market in Europe is set for sustained and robust growth. Key Players The electric truck market is dominated by global players such as BYD (China), AB Volvo (Sweden), Ford Motor Company (US), Dongfeng Motor Corporation (China), and Rivian (US). These companies have been adopting various strategies to sustain their positions in the market. Major strategies adopted are product launches and deals. These strategies have been analyzed to understand the positions of these companies in the market.
Yahoo
01-07-2025
- Automotive
- Yahoo
Fuel Cell Electric Vehicle Market Trends 2025: Over 100 Hydrogen Stations in Germany, USD 7 Billion Hydrogen Plan in France
According to Towards Automotive consultants, the global fuel cell electric vehicle market size is calculated at USD 3.09 billion in 2025 and is expected to reach around USD 17.73 billion by 2034, growing at a CAGR of 21.40% from 2024 to 2034. Ottawa, July 01, 2025 (GLOBE NEWSWIRE) -- The global fuel cell electric vehicle market size was valued at USD 2.55 billion in 2024 and is predicted to hit around USD 17.73 billion by 2034, a study published by Towards Automotive a sister firm of Precedence Research. Get All the Details in Our Solutions - Access Report Preview: Market Overview & Potential: Fuel Cell Electric Vehicles (FCEV) are vehicles that utilize hydrogen energy for operating vehicles resulting in by-products such as electricity, heat, and water. Hence, such vehicles are sustainable and helpful for cleaner environments. After the global pandemic consumer awareness has been observed in different types of domains. Hence, sustainable practices have helped the automobile industry to bring environmental-friendly changes as well. The fuel cell electric vehicle market is expanding at a huge pace after COVID-19 due to the resumed flow of money and resumed investments in the automobile industry. It has helped the hydrogen vehicle manufacturing industry to resume the manufacturing procedure and aid in maintaining a sustainable environment. What are Advantages of Fuel Cell Electric Vehicles? There are multiple advantages of using fuel cell electric vehicles compared to battery electric vehicles giving a reason for people to switch to sustainable choices. Fuel cell electric vehicles by-products result in heat, electricity, and water resulting in zero emission. Hence, they are one of the most sustainable choices for the environment. They require less refueling time compared to battery electric vehicles and can be easily refueled at hydrogen gas stations similar to fuel engine stations. Fuel cell electric vehicles also provide longer driving ranges compared to battery electric vehicles. What are the Major Trends of the Fuel Cell Electric Vehicle Market? Technological Advancements- Technological advancement in the manufacturing of fuel cell electric vehicles is helping in the expansion of the fuel cell electric vehicle market. Technological advancements help in better performance of the vehicle along with better efficiency helping people to adapt to it at a higher pace. Such advancements also help in better fuel cell durability positively impacting the performance. It also helps in providing a longer drive range compared to battery electric vehicles. Enhancement in Commercial Vehicle Industry- Due to its longer driving range, fuel cell electric vehicles are highly adopted by the commercial transport industry. It helps in enhancing the fuel cell electric vehicle market as well. Different types of vehicles such as buses and trucks are included in the commercial fuel cell vehicle industry for easy transportation facilities. Easy refueling facility of fuel cell electric vehicles is also one of the major reasons for the high inclination towards the industry. The commercial transportation industry is also inclining towards incorporating fuel cell electric vehicles due to their zero-carbon emission for a sustainable environment. Maintaining Sustainability- One of the major benefits of using fuel cell electric vehicles is zero carbon emission. It helps in maintaining sustainability. Hence, the promotion of such vehicles helps in enhancing the fuel cell electric vehicle market. Due to its eco-friendly nature such vehicles are also highly used in the commercial transport industry as gasoline vehicles create higher carbon emissions due to their continuous movement. You can place an order or ask any questions, please feel free to contact us at sales@ What is the Role of AI in the Growth of Fuel Cell Electric Vehicle Market? Optimized Performance- One of the major benefits of AI involvement in the fuel cell electric vehicle industry is improved performance. The advanced technology helps in analyzing the data from the sensors fitted in the fuel cell system of the vehicle and adjusting various settings for improved performance of a vehicle. AI helps in efficient fuel management and efficient driving range by studying the algorithm of the vehicle. Reducing Downtime- Another major benefit of AI for the fuel cell electric vehicle market is it helps in early detection of potential failures of the vehicle or the fuel cell system. Hence, one can stay alert and lower the chances of downtime. The technology is extremely beneficial for the commercial transportation industry as the vehicle involved in the industry needs timely maintenance for hassle-free long journeys. The technology also helps in avoiding big technical issues with the help of timely alerts due to AI. It helps in the proper maintenance of vehicles and avoids major expenditures required for vehicle maintenance. Autonomous Driving- The involvement of autonomous driving options in fuel-cell electric cars is in progress in many nations. The main purpose of the advanced feature is to help a driver with aspects such as lane keeping, adaptive cruise control, and complete autonomous driving for enhanced safety of the driver. It will help the industry to boom in the forecast period and allow the market to spike as well. What are the Major Government Initiatives Observed for the Growth of the Fuel Cell Electric Vehicle Market? Government initiatives to promote the use of fuel cell electric vehicles have been observed highly in recent years in many nations. The initiative helps in promoting eco-friendly vehicles helping in maintaining the sustainability of the environment. Let us put the limelight on some of the major government initiatives aiding in the growth of fuel cell electric vehicle market: FAME II Scheme- The scheme introduced by the Indian Government provides incentives to people to purchase battery electric vehicles and fuel cell electric vehicles. The scheme helps lower the upfront cost and promote the use of electric vehicles for zero carbon emission for a healthier environment. PM-E-DRIVE Scheme- The scheme involves providing incentives for the purchase of electric and fuel cell electric vehicles. The scheme also helps in providing funds for the development of charging infrastructure for such vehicles. It helps in increasing the inclination of people to use sustainable vehicles and low carbon emissions. Scheme to Promote Manufacturing of Electric Passenger Cars in India (SPMEPCI)- The scheme helps to attract local electric vehicle manufacturers to set up multiple EV units along with fuel cell electric vehicle manufacturers to set up vehicles as well as their components manufacturing units. Infrastructure Funds- Government initiatives for investing in the development of hydrogen refueling stations have helped the market to evolve. It helps in increasing the number of refueling stations and making it convenient for people to adapt to switching to sustainable vehicles to lower carbon emissions caused due to gasoline vehicles. All the Stats, Charts & Insights You Need – Get the Databook Now: What are the Limitations and Challenges Faced by the Fuel Cell Electric Vehicle Market? High Initial Costs- One of the major barriers faced by the fuel cell electric vehicle market is the high initial cost required for the setup and manufacturing of fuel cell electric vehicle units. Hence, many automobile industries aren't able to initiate the thought process of stepping into the manufacturing of electric vehicles and stay reliant on the manufacturing of gasoline vehicles. Though subsidies help to manage the costs to a small extent it isn't sufficient to suffice the price gap completely. Limited Infrastructure- The limited number of hydrogen refueling stations leading to low purchase of fuel cell electric vehicles is another barrier to the growth of the market. Hydrogen production is a process that relies on fossil fuels and hence is not a completely sustainable option. Hence, sustainable hydrogen extraction practices are still under development procedure leading to slow growth of the fuel cell electric vehicle market. Also, hydrogen storage and its transportation to hydrogen refueling stations is a risky procedure that needs to be carried out with utmost care and safety. Regional Analysis How Does Asian Countries Hold Large Share in Fuel Cell Electric Vehicle Market? Asia Pacific dominated the fuel cell electric vehicle market in 2024 due to multiple contributing factors to the growth of the market. The region had a major revenue share in the market marking itself as the dominating region. South Korea and Japan had the major share of passenger car manufacturing units helping the market growth in Asia Pacific. Japan's government providing subsidies to their residents for the purchase of fuel cell electric vehicles market is helping the expansion of the market in the region. Also, the growth of the market is aided by to use of fuel cell electric vehicles in the region in the form of public vehicles and in the commercial transport industry. China & India: Largest Contributor to the Market's Expansion China and India are emerging as significant players in the global Fuel Cell Electric Vehicle (FCEV) market, each contributing in distinct but impactful ways. China is currently the global leader, with a deeply integrated national strategy aimed at scaling hydrogen infrastructure and FCEV deployment. Through its Medium- and Long-Term Plan for Hydrogen Energy, China aims to have 100,000 to 200,000 FCEVs and 1,000 hydrogen refueling stations by 2030. The country already accounts for over 90% of global FCEV buses and has made substantial progress in heavy-duty truck deployment. Key cities and provinces, like Shanghai and Guangdong, are acting as FCEV innovation hubs, supported by public and private sector champions such as REFIRE, Changan, and Sinopec. In contrast, India is at an earlier stage but is moving quickly, catalyzed by the National Green Hydrogen Mission and Production Linked Incentive (PLI) schemes that promote clean mobility and hydrogen production. Recent milestones include the launch of India's first fleet of hydrogen fuel cell buses in Ladakh and growing participation from major corporations like Tata Motors, Adani, NTPC, and Mahindra. What to Expect from Europe's Fuel Cell Electric Vehicle Market? Europe has observed a notable growth with the largest revenue share in the forecast period. The government is pushing the manufacturing industries for the development of fuel cell electric vehicles leading to the growth of the market. The government of France also announced the use of fuel cell electric vehicles for public transportation and government use helping to hike the market in the forecast period. Several leading economies, including Germany, France, and the Netherlands, are investing heavily in hydrogen infrastructure. Germany, for instance, is spearheading the H2 Mobility initiative and already operates over 100 hydrogen refueling stations, aiming for a nationwide network to support both passenger and freight vehicles. France has launched a €7 billion hydrogen plan and is promoting hydrogen-powered buses and light commercial vehicles. Fuel Cell Electric Vehicle Market Segmentation Vehicle Insights: Heavy duty vehicle segment led the market in 2024. The heavy-duty vehicle segment—which includes buses, trucks, and other commercial vehicles, clearly led the FCEV market in 2024, capturing the lion's share of revenue and momentum. This dominance is largely due to hydrogen fuel cells' ability to deliver high energy density, rapid refueling, and long operational ranges—attributes especially valued in heavy-duty applications. According to Mordor Intelligence, commercial vehicles, particularly heavy-duty ones, are projected to register the highest CAGR (49.34%) through 2030, reflecting accelerating adoption in this category. Distance Insights: Short distance segment held a significant share of fuel cell electric vehicle market in 2024. Governments and city planners in regions like Europe, China, Japan, and South Korea have prioritized hydrogen for urban decarbonization. Many pilot programs and subsidies have targeted short-range use, boosting early adoption. Their dominance is expected to continue until hydrogen refueling networks expand enough to support long-range vehicles like trucks and intercity buses on a larger scale. Hydrogen refueling stations are still limited and mostly concentrated in urban areas. Short-distance FCEVs, such as city buses, passenger cars, and delivery vans, can easily access these refueling points without relying on a widespread national network. Long distance segment is seen to grow at a notable period in the forecast period. The long-distance segment of the Fuel Cell Electric Vehicle (FCEV) market is projected to witness notable growth during the forecast period, driven by increasing demand for zero-emission solutions in heavy-duty transportation and long-haul logistics. As hydrogen infrastructure expands beyond urban centers, FCEVs are becoming a viable alternative to diesel-powered trucks and buses for covering extended distances. Fuel cells offer key advantages for long-range applications, including fast refueling times, longer operational ranges, and higher payload efficiency compared to battery electric vehicles. Get the latest insights on automotive industry segmentation with our Annual Membership: Top Companies of the Fuel Cell Electric Vehicle Market Daimler AG Honda Motor Co., Ltd. Nikola Corporation TOYOTA MOTOR CORPORATION HYUNDAI MOTOR GROUP Ballard Power System Inc. AB Volvo General Motors BMW AG AUDI AG Recent Developments in the Fuel Cell Electric Vehicle Market In April 2025, Hyundai launched its all-new-NEXO, mid-size SUV at Seoul Mobility Show in Korea 2025. The company claims that the passenger car can run up to 700km in just 5 minutes of charging making it a powerful vehicle in the fuel cell electric vehicle industry. In June 2025, Toyota launched its fuel cell trucks marking its step in sustainable logistics. In partnership with VDL Groep, Toyota Motor Europe launched its fuel cell trucks which are operational on the logistical routes of Belgium, France, Germany, and the Netherlands. In March 2025, Tata Motors launched India's First Commercial Hydrogen Truck Trials with the motive of net zero-emission in the future. The initiative was flagged off by Shri Nitin Gadkari, Hon'ble Union Minister of Road Transport & Highways, Shri Pralhad Joshi, Hon'ble Union Minister of New and Renewable Energy along with Mr. Girish Wagh, Executive Director, and Tata Motors. More Insights into Automotive: Automotive Fuel Feed Pumps Market: Automotive Fuel Transfer Pumps Market: Flex Fuel Vehicle Market: Hydrogen Fuel Cell Vehicle Market: Fuel Injection System Market: Fuel and Lube Trucks Market: Automotive Fuel Tank Market: Automotive Fuel Filter Market: Automotive Fuel Cell System Market: EV Battery Cell and Pack Materials Market: Segments Covered in the Report By Vehicle Heavy Duty Vehicle Agriculture Buses Port Vehicles/ Container Handling or Transport Automotive Class 8/ Long Haul Forklift E-bikes By Distance Short Long By Geography North America U.S. Canada Europe U.K. Germany France Asia-Pacific China India Japan South Korea Malaysia Philippines Latin America Brazil Rest of Latin America Middle East & Africa (MEA) GCC North Africa South Africa Rest of the Middle East & Africa For pricing details and customized market report options, click here: You can place an order or ask any questions, please feel free to contact us at sales@ Subscribe to our Annual Membership and gain access to the latest insights and statistics in the automotive industry. Stay updated on automotive industry segmentation with detailed reports, market trends, and expert analysis tailored to your needs. Stay ahead of the competition with valuable resources and strategic recommendations. Join today to unlock a wealth of knowledge and opportunities in the dynamic world of automotive: Get a Subscription About Us Towards Automotive is a premier research firm specializing in the automotive industry. Our experienced team provides comprehensive reports on market trends, technology, and consumer behaviour. We offer tailored research services for global corporations and start-ups, helping them navigate the complex automotive landscape. With a focus on accuracy and integrity, we empower clients with data-driven insights to make informed decisions and stay competitive. Join us on this revolutionary journey as we work together as a strategic partner to reinvent your success in this ever-changing automotive world. 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Arab News
22-06-2025
- Automotive
- Arab News
Pakistan's new electric vehicle policy targets 30% green cars by 2030
ISLAMABAD: Pakistan has unveiled an ambitious New Electric Vehicle Policy (NEVP) 2025–2030 that targets 30% of all new vehicle sales to be electric by 2030, Pakistani state media reported on Sunday. The policy, which covers cars, buses, motorcycles and rickshaws, aims to accelerate the country's shift toward sustainable transport, reduce fossil fuel dependence, and curb climate-warming emissions, the state-run APP news agency reported. Pakistan imports most of its energy needs and the country's urban areas exhibit some of the world's highest levels of air pollution, primarily due to sub-2.5 μm particulate emissions. This issue significantly impairs both the country's economy and the quality of life of its residents. 'Transitioning to electric vehicles (EVs) is critical for a healthier, greener and economically stable future,' Muhammad Saleem Shaikh, a spokesperson for the Climate Change Ministry, told APP, contending that transport sector was a major contributor to air pollution and greenhouse gas emissions in Pakistan. With the NEVP now in effect, Pakistan, which has seen erratic changes in its weather patterns which experts blame on climate change, joins a growing list of nations pushing for zero-emission mobility to combat climate change and urban pollution. Mohammad Asif Sahibzada, director-general of the Climate Change Ministry, highlighted that EVs produce zero tailpipe emissions, which will significantly reduce urban smog and help Pakistan meet its international commitments. 'This shift will also lower respiratory and cardiovascular diseases, particularly benefiting children and the elderly,' he added. The policy aims to cut Pakistan's reliance on imported fossil fuels, shielding the economy from global oil price fluctuations. EVs are also expected to offer long-term savings for consumers through reduced fuel and maintenance costs. The government plans to incentivize EV adoption through tax breaks, subsidies, and infrastructure development, including nationwide charging stations. 'Electric vehicles are not just about transport; they are central to Pakistan's climate action strategy,' Muhammad Azeem Khoso, the ministry's director for urban affairs, was quoted as saying by the APP. 'This policy marks a decisive step toward a cleaner, more resilient future.'
