Best fuel-efficient cars to buy in Australia 2025? The Australian automotive landscape is shifting, with fuel efficiency taking center stage. Rising fuel prices, environmental concerns, and government incentives are all pushing consumers towards greener options. This guide explores the top contenders for 2025, examining hybrids, electric vehicles, and even surprisingly efficient petrol options. We’ll delve into specific models, highlighting their strengths and weaknesses in the Australian context, and offer practical advice to help you make an informed decision.

Choosing a fuel-efficient car isn’t just about saving money at the pump; it’s a commitment to a more sustainable future. Understanding the various technologies available – from hybrid powertrains to cutting-edge electric motors – is crucial. This guide breaks down the complexities, offering clear comparisons and expert insights to guide you towards the perfect eco-friendly ride.

Fuel Efficiency in the Australian Market 2025

Australia’s automotive landscape in 2025 is shifting towards greater fuel efficiency. Rising fuel prices, stricter emissions regulations, and growing environmental awareness are driving this change. Consumers are increasingly seeking vehicles that offer better fuel economy, not only to reduce running costs but also to minimise their environmental impact.The factors influencing Australian consumers’ fuel efficiency choices are multifaceted. Soaring petrol prices consistently impact purchasing decisions, making fuel-efficient vehicles a more financially attractive option.

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Government incentives, such as rebates or tax breaks for electric or hybrid vehicles, further encourage the adoption of greener technologies. Simultaneously, a heightened public consciousness about climate change and air quality is pushing consumers towards vehicles with lower carbon footprints. This is particularly evident in urban areas where air pollution is a significant concern.Fuel-efficient vehicles are crucial for both individual consumers and the environment.

For consumers, improved fuel economy translates directly into lower running costs, saving money on petrol expenses over the vehicle’s lifespan. From an environmental perspective, reduced fuel consumption means less greenhouse gas emissions, contributing to a healthier planet and mitigating the effects of climate change. The collective impact of many Australians choosing fuel-efficient vehicles can significantly reduce the nation’s carbon footprint.

Factors Affecting Fuel Efficiency Choices

Fuel efficiency isn’t solely determined by the vehicle itself; several factors influence a car’s real-world fuel consumption. Driving habits, such as aggressive acceleration and frequent braking, significantly impact fuel economy. Terrain and traffic conditions also play a role; navigating hilly terrain or congested city streets generally leads to lower fuel efficiency compared to driving on flat, open roads.

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Regular vehicle maintenance, including proper tire inflation and timely servicing, is essential for optimal fuel efficiency. Finally, the vehicle’s payload—carrying heavy loads reduces fuel economy. For example, a fully loaded ute will consume more fuel than an empty one.

Popular Fuel-Efficient Vehicle Types in 2025

Several vehicle types are expected to dominate the fuel-efficient market in Australia by 2025. Hybrid electric vehicles (HEVs) combine petrol engines with electric motors, offering improved fuel economy compared to traditional petrol cars. Plug-in hybrid electric vehicles (PHEVs) provide even greater fuel savings, allowing for longer distances on electric power alone, provided they are regularly charged. Battery electric vehicles (BEVs), powered entirely by electricity, offer the highest fuel efficiency (zero tailpipe emissions) but are limited by range and charging infrastructure availability.

Small, lightweight vehicles also tend to offer better fuel efficiency than larger, heavier counterparts due to reduced weight and engine size. For instance, a compact hatchback will generally consume less fuel than a large SUV.

Top Fuel-Efficient Car Categories for 2025

In 2025, the Australian market will see a continued push towards more fuel-efficient vehicles, driven by environmental concerns and government regulations. Several categories are poised to dominate, offering consumers a range of choices based on their needs and budgets. This section will examine the top three contenders, weighing their advantages and disadvantages within the unique Australian context.

Electric Vehicles (EVs)

Electric vehicles are expected to significantly increase their market share in Australia by 2025. Their rising popularity is fuelled by advancements in battery technology, increasing charging infrastructure, and government incentives.

Category	Advantages	Disadvantages	Example Models
Electric Vehicles (EVs)	Zero tailpipe emissions, lower running costs (electricity cheaper than petrol), potential government incentives, quiet operation.	Limited driving range on a single charge (range anxiety), longer refuelling times compared to petrol, higher initial purchase price, reliance on charging infrastructure availability, particularly in regional areas.	Tesla Model 3, Hyundai Ioniq 5, Nissan Leaf

Hybrid Vehicles (HEVs)

Hybrid vehicles, combining petrol engines with electric motors, offer a compelling blend of fuel efficiency and practicality. They provide a transitional step towards full electrification, addressing some of the limitations of pure EVs.

Category	Advantages	Disadvantages	Example Models
Hybrid Vehicles (HEVs)	Improved fuel economy compared to petrol-only vehicles, reduced emissions compared to petrol-only vehicles, familiar driving experience, no need for extensive charging infrastructure.	Higher initial purchase price compared to petrol-only vehicles, fuel efficiency gains may be less significant than EVs, still relies on petrol, slightly lower performance than petrol-only equivalents in some cases.	Toyota Corolla Hybrid, Mazda 3 Hybrid, Kia Niro Hybrid

Small Petrol Vehicles with Advanced Engine Technology

While EVs and hybrids are gaining traction, small petrol cars equipped with advanced engine technologies remain a viable option for fuel efficiency. Improvements in engine design and fuel injection systems continue to enhance their performance and economy.

Category	Advantages	Disadvantages	Example Models
Small Petrol Vehicles (Advanced Technology)	Lower initial purchase price compared to EVs and hybrids, readily available fuel infrastructure, generally good resale value, familiar driving experience.	Higher fuel consumption compared to EVs and hybrids, higher emissions compared to EVs and hybrids, less environmentally friendly than EVs and hybrids.	Toyota Yaris, Mazda 2, Hyundai i20

Specific Model Recommendations

Choosing a fuel-efficient hybrid vehicle in Australia in 2025 will offer significant savings and environmental benefits. The market is rapidly evolving, with manufacturers constantly improving hybrid technology. The following models represent strong contenders for top fuel efficiency, based on current trends and projected advancements. Remember that specific fuel economy figures can vary depending on driving style and conditions.

Toyota Prius

The Toyota Prius has long been a benchmark for hybrid technology, and its 2025 iteration is expected to continue this legacy. We can anticipate further refinements in its hybrid system, leading to improved fuel efficiency and performance.

Fuel Economy (L/100km): Projected to achieve an average of under 4.0 L/100km, potentially even closer to 3.5 L/100km with optimal driving. This is based on the continuous improvements Toyota has shown in previous models and their stated commitment to enhanced fuel efficiency.
Engine Specifications: A likely combination of a more efficient petrol engine and a powerful electric motor. Expect advancements in battery technology resulting in a larger capacity and improved energy density, contributing to the enhanced fuel economy.
Key Features Impacting Fuel Efficiency: Regenerative braking, improved aerodynamics, and optimized engine management systems will all contribute to the Prius’s impressive fuel efficiency. Toyota’s ongoing research into lightweight materials will also play a crucial role.

Hyundai Ioniq Hybrid

Hyundai has made significant strides in the hybrid market, and the Ioniq Hybrid is expected to be a strong competitor in 2025. Its combination of style, technology, and fuel efficiency makes it a compelling choice.

Fuel Economy (L/100km): A projected average fuel consumption of under 4.0 L/100km is anticipated, potentially rivaling or even surpassing the Prius in specific driving conditions. This is supported by Hyundai’s consistent focus on developing efficient powertrains.
Engine Specifications: A refined petrol engine coupled with an advanced electric motor, likely incorporating improvements in battery technology similar to the advancements expected in the Prius. We can expect increased power output without compromising fuel economy.
Key Features Impacting Fuel Efficiency: Similar to the Prius, features like regenerative braking, aerodynamic design, and intelligent engine management systems will be key to the Ioniq’s fuel efficiency. Hyundai’s focus on lightweight materials will also contribute.

Kia Niro Hybrid

The Kia Niro Hybrid offers a stylish and practical option for those seeking fuel efficiency. Kia’s commitment to innovation suggests the 2025 model will build on the success of its predecessors.

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Fuel Economy (L/100km): A projected fuel consumption figure of under 4.2 L/100km is reasonable, based on the current model’s performance and Kia’s stated goals for improved efficiency across its range. This figure might even be lower depending on specific trim levels and driving conditions.
Engine Specifications: We anticipate a further optimized hybrid powertrain, with improvements in both the petrol engine and electric motor. Expect advancements in battery technology to increase range and improve overall performance.
Key Features Impacting Fuel Efficiency: Aerodynamic design improvements, enhanced regenerative braking, and optimized engine management will be crucial factors in achieving the projected fuel economy. Kia’s focus on efficient power delivery will also play a key role.

Specific Model Recommendations

Choosing an electric vehicle (EV) in 2025 will offer significant fuel efficiency advantages compared to petrol or diesel cars. The Australian market is expected to see a wider range of models with improved battery technology and charging infrastructure by then. This section focuses on three specific EVs predicted to be top contenders for fuel efficiency. These predictions are based on current trends in EV technology and anticipated advancements.

Electric Vehicle Model Predictions for 2025

The following table details three electric vehicle models anticipated to be leading choices in the Australian market in 2025, highlighting their projected range, charging times, and key efficiency-boosting features. These predictions are based on current model releases and expected technological improvements in battery technology and energy management systems. It’s important to note that specifications may vary slightly depending on the final production models.

Model	Range (km)	Charging Time (approx.)	Key Efficiency Features
Tesla Model 3 (projected 2025 upgrade)	650-700	20-30 minutes (DC fast charging)	Improved battery chemistry for increased energy density, regenerative braking system, aerodynamic design optimized for minimal drag, advanced thermal management system. This builds on the already impressive efficiency of current models and incorporates predicted advancements.
Hyundai Ioniq 6	500-550	30-40 minutes (DC fast charging)	Streamlined aerodynamic design (drag coefficient of 0.21), highly efficient electric motor, heat pump system for improved efficiency in varying climates, smart regenerative braking. The Ioniq 6’s current performance provides a strong base for these projections.
BYD Atto 3 (projected 2025 upgrade)	450-500	30-45 minutes (DC fast charging)	Blade Battery technology for improved energy density and safety, efficient motor and power electronics, heat pump system for optimal climate control, intelligent energy management system. BYD’s continued investment in battery technology suggests further improvements are likely.

Specific Model Recommendations

Choosing a fuel-efficient small petrol car in Australia in 2025 requires careful consideration of engine technology and design. Several models are expected to stand out for their impressive fuel economy, balancing performance with environmental responsibility. This section highlights three such vehicles, detailing their key features and predicted fuel consumption figures.This analysis considers factors such as engine size, transmission type, weight, and aerodynamic design, all of which significantly impact fuel efficiency.

While precise fuel consumption figures can vary depending on driving style and conditions, we will provide estimated averages based on manufacturer specifications and independent testing data where available.

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Toyota Yaris Hybrid

The Toyota Yaris Hybrid is anticipated to remain a strong contender in the fuel-efficient small car segment in 2025. Its hybrid powertrain combines a petrol engine with an electric motor, providing optimal fuel economy in various driving situations. The regenerative braking system further enhances efficiency by recovering energy during deceleration.

Estimated Fuel Consumption: Around 3.5L/100km (combined cycle). This figure is an estimate based on current models and projected improvements in technology. Real-world results may vary.
Engine Technology: Hybrid powertrain combining a small petrol engine with an electric motor. Toyota’s hybrid technology is well-established and known for its efficiency.
Key Features: Lightweight design, advanced aerodynamics, efficient transmission, regenerative braking system, and available advanced safety features.

Mazda2

The Mazda2, known for its sleek design and responsive handling, is expected to continue offering good fuel economy in 2025. While not a hybrid, its lightweight construction and efficient petrol engine contribute to its relatively low fuel consumption. Mazda’s focus on improving engine efficiency through advancements in combustion technology should maintain its competitive edge.

Estimated Fuel Consumption: Approximately 4.5L/100km (combined cycle). This estimate is based on current model performance and anticipated minor improvements.
Engine Technology: A refined petrol engine with advanced combustion technology designed to maximize fuel efficiency and reduce emissions. Specific engine details may vary by model year.
Key Features: Lightweight chassis, improved aerodynamics, efficient transmission, and a focus on driver engagement.

Kia Picanto

The Kia Picanto, a popular choice in the city car segment, is likely to maintain its position as a fuel-efficient option in 2025. Its small engine size and lightweight design contribute significantly to its fuel economy. Continual improvements in engine technology from Kia are also expected to further enhance its efficiency.

Estimated Fuel Consumption: Around 4.8L/100km (combined cycle). This estimate accounts for potential engine refinements and is subject to variation depending on the specific model and driving conditions.
Engine Technology: Small-capacity petrol engine optimized for fuel efficiency. Kia’s focus on affordability and efficiency is expected to continue driving innovation in this area.
Key Features: Compact size, lightweight build, and generally affordable pricing make it a practical choice.

Factors Affecting Real-World Fuel Efficiency

Best fuel-efficient cars to buy in australia 2025

Source: dmarge.com

The fuel efficiency figures quoted by manufacturers represent ideal laboratory conditions. Real-world driving, however, presents a much more variable picture, influenced by a range of factors that can significantly impact your fuel consumption. Understanding these factors and adjusting your driving habits accordingly can lead to substantial savings at the pump and a reduced carbon footprint.Understanding the discrepancy between advertised fuel economy and real-world performance is crucial for making informed purchasing decisions and managing fuel costs effectively.

Several key factors contribute to this difference, ranging from individual driving styles to environmental conditions and vehicle maintenance. By acknowledging these influences and adopting fuel-efficient driving practices, drivers can significantly improve their vehicle’s real-world fuel economy.

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Driving Style and Habits

Driving style significantly impacts fuel consumption. Aggressive acceleration, frequent braking, and high speeds dramatically increase fuel use. Gentle acceleration, maintaining a consistent speed, and anticipating traffic flow to minimize braking all contribute to better fuel efficiency. For example, consistently accelerating hard from a standstill, compared to smoothly accelerating, can easily increase fuel consumption by 15-20%. Similarly, excessive idling wastes fuel unnecessarily.

Consider the example of idling for 10 minutes while waiting to pick someone up – this consumes a significant amount of fuel compared to switching off the engine.

Terrain and Road Conditions

The terrain significantly influences fuel consumption. Driving uphill requires more power, leading to increased fuel use, while downhill driving can improve efficiency. Similarly, driving on rough or unpaved roads increases rolling resistance, resulting in higher fuel consumption compared to smooth highways. For instance, driving a similar distance on a mountain road versus a flat highway will demonstrate a noticeable difference in fuel economy, with the mountain road significantly reducing efficiency.

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Additionally, headwinds and strong crosswinds also increase the car’s energy needs and decrease fuel economy.

Vehicle Maintenance

Regular vehicle maintenance is essential for optimal fuel efficiency. Underinflated tires increase rolling resistance, leading to higher fuel consumption. A well-maintained engine, with properly functioning components, operates more efficiently. For example, neglecting regular tire pressure checks can easily reduce fuel economy by up to 3%. Similarly, a poorly tuned engine can significantly reduce fuel efficiency, potentially by 10% or more.

Regular servicing, including oil changes and filter replacements, ensures optimal engine performance and contributes to better fuel economy.

Vehicle Load and Passenger Weight

Carrying extra weight in your vehicle, whether passengers or cargo, increases fuel consumption. The heavier the vehicle, the more energy is required to accelerate and maintain speed. A fully loaded car will naturally consume more fuel than an empty one. Consider a family car carrying five passengers and luggage versus the same car with only the driver; the difference in fuel consumption would be measurable.

Environmental Conditions

Environmental factors such as temperature and altitude can affect fuel efficiency. Extreme temperatures (both hot and cold) can impact engine performance and increase fuel consumption. High altitudes also reduce engine efficiency. For example, driving in extreme heat can require the air conditioning to run more frequently, consuming extra fuel, while driving at high altitude will lead to lower engine power and reduced efficiency due to lower air density.

Technology and Features

Modern vehicles often incorporate fuel-efficient technologies such as start-stop systems, regenerative braking, and aerodynamic design. These features can significantly improve fuel economy, but their effectiveness can vary depending on driving conditions and usage. For example, a start-stop system can significantly reduce fuel consumption in stop-and-go traffic, but its impact might be less noticeable on long highway drives.

Driving Style: Aggressive driving (rapid acceleration, hard braking) significantly reduces fuel efficiency.
Terrain: Hilly terrain and rough roads increase fuel consumption due to increased resistance.
Vehicle Maintenance: Underinflated tires, a poorly tuned engine, and neglected maintenance reduce efficiency.
Vehicle Load: Carrying extra weight (passengers, cargo) increases fuel consumption.
Environmental Conditions: Extreme temperatures and high altitudes negatively impact fuel efficiency.
Technology: Fuel-efficient technologies (start-stop, regenerative braking) can improve efficiency, but their impact varies.

Government Incentives and Policies

Australia’s government has implemented various policies to promote the uptake of fuel-efficient vehicles, aiming to reduce carbon emissions and improve air quality. These incentives are constantly evolving, so it’s crucial to check the latest information from official government sources before making a purchase. The effectiveness of these policies hinges on their design and the broader economic context.The primary approach involves offering financial incentives directly to consumers.

These might include rebates, tax breaks, or subsidies for purchasing electric vehicles (EVs) or plug-in hybrid electric vehicles (PHEVs). Some programs may also provide incentives for the installation of home charging stations. These direct incentives directly lower the upfront cost of purchasing a fuel-efficient vehicle, making them more competitive with petrol or diesel alternatives. Indirect policies, such as fuel efficiency standards for manufacturers, also play a significant role.

These standards compel car companies to offer more fuel-efficient models within their Australian lineups, increasing consumer choice. Furthermore, government investment in charging infrastructure can significantly impact consumer confidence and reduce range anxiety, a key barrier to EV adoption.

Fuel Efficiency Standards and Their Impact

Australia’s fuel efficiency standards, while not as stringent as some other countries, are gradually tightening. These standards set minimum fuel consumption targets for vehicle manufacturers, influencing the types of vehicles they import or produce for the Australian market. The impact is a gradual increase in the availability of more fuel-efficient models, driving down average fleet emissions and giving consumers a wider range of options.

For example, a manufacturer facing penalties for failing to meet the standards might choose to import more hybrid or electric models, thereby increasing consumer access to those vehicles. This indirectly shapes consumer choices by influencing what is readily available on the market.

Financial Incentives for Fuel-Efficient Vehicle Purchases

Several government programs have offered or are planned to offer financial incentives for purchasing fuel-efficient vehicles. These might include rebates directly reducing the purchase price, or tax concessions lowering the overall cost of ownership. The specifics of these programs change frequently, so consulting government websites for the most up-to-date information is essential. For instance, a state-level program might offer a $3,000 rebate for the purchase of a new electric vehicle, significantly reducing the initial investment required by the consumer.

These incentives make fuel-efficient vehicles more financially appealing, leading to increased consumer demand and boosting the market share of these vehicles.

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Impact of Government Incentives on Consumer Choice and Market

The combined effect of these policies is a gradual shift in the Australian automotive market towards fuel efficiency. While the transition isn’t immediate, the financial incentives and stricter standards are creating a more favorable environment for fuel-efficient vehicles. Consumers are increasingly presented with a wider range of choices, and the relative cost of fuel-efficient options is declining. This creates a positive feedback loop, as greater consumer demand encourages manufacturers to bring even more fuel-efficient models to the market, leading to further emissions reductions and improved air quality.

The overall impact is a more sustainable and environmentally responsible automotive landscape.

Future Trends in Fuel-Efficient Vehicle Technology: Best Fuel-efficient Cars To Buy In Australia 2025

The Australian automotive landscape is poised for significant change in the coming years, driven by advancements in fuel-efficient vehicle technology. Beyond the current focus on hybrid and electric vehicles, several emerging technologies promise even greater improvements in fuel economy and reduced emissions, impacting both consumer choices and the overall market. These innovations will shape the future of driving in Australia, offering drivers a wider range of options and potentially influencing government policies further.The next generation of fuel-efficient vehicles will likely integrate a combination of technologies to achieve optimal performance.

This will go beyond simply improving battery technology in EVs or increasing the efficiency of internal combustion engines (ICE) in hybrids. We can expect to see a greater emphasis on lightweight materials in vehicle construction, reducing overall weight and therefore improving fuel efficiency. Advanced aerodynamics, designed to minimize drag, will also play a crucial role. Furthermore, advancements in regenerative braking systems will recapture energy during deceleration, extending the range of electric vehicles and improving fuel economy in hybrids.

Finally, the integration of sophisticated predictive algorithms and driver assistance systems could optimize driving styles, contributing to further fuel savings. The interplay of these factors will significantly shape the market, influencing consumer preference towards vehicles that offer a balance of performance, affordability, and environmental responsibility.

Lightweight Materials and Advanced Manufacturing Techniques

The use of lightweight materials such as advanced high-strength steels, aluminum alloys, carbon fiber composites, and even bio-based materials is expected to become increasingly prevalent in vehicle construction. These materials offer significant weight reductions compared to traditional steel, leading to improved fuel efficiency and enhanced vehicle performance. For example, the adoption of aluminum body panels in many modern vehicles has already demonstrated the effectiveness of this approach.

Furthermore, advancements in manufacturing techniques, such as 3D printing and additive manufacturing, could allow for the creation of more complex and lightweight vehicle components, further optimizing fuel efficiency. The widespread adoption of these technologies could lead to a significant reduction in the overall weight of vehicles, leading to a noticeable improvement in fuel consumption. This is particularly relevant for electric vehicles, where reducing weight directly translates to an increased driving range.

Improved Aerodynamics and Drag Reduction, Best fuel-efficient cars to buy in australia 2025

Aerodynamic design plays a critical role in fuel efficiency, particularly at higher speeds. Future vehicles are likely to incorporate more sophisticated aerodynamic features, such as active aerodynamic elements (e.g., adjustable spoilers and air deflectors) that optimize airflow based on driving conditions. Advanced computational fluid dynamics (CFD) simulations will continue to play a key role in designing vehicles with minimal drag.

Examples of this already exist in the market, with many manufacturers incorporating features such as underbody panels and carefully designed body shapes to reduce drag. The ongoing refinement of these techniques will lead to vehicles that require less energy to overcome air resistance, resulting in noticeable improvements in fuel efficiency, especially on highways.

Advanced Regenerative Braking Systems and Energy Recovery

Regenerative braking systems, already common in hybrid and electric vehicles, are expected to become even more efficient in the coming years. Advancements in battery technology and power electronics will allow for more effective energy capture during deceleration. Furthermore, the integration of advanced control algorithms could optimize the energy recovery process, maximizing the amount of energy that is recaptured and stored.

This technology is crucial for extending the range of electric vehicles and improving fuel economy in hybrids. For instance, the implementation of more sophisticated algorithms in existing systems could improve energy recapture by 10-15%, leading to a significant impact on overall range and efficiency. The continued development and refinement of regenerative braking will be crucial for enhancing the performance and appeal of electric and hybrid vehicles.

Last Word

Ultimately, the best fuel-efficient car for you in 2025 will depend on your individual needs and driving habits. Whether you opt for a hybrid, electric, or a highly efficient petrol model, remember that responsible driving practices, regular maintenance, and awareness of factors like terrain and driving style all play a significant role in maximizing fuel economy. By considering the information presented here, you can make a well-informed choice that aligns with both your budget and your commitment to environmental responsibility.

Happy driving!

Questions and Answers

What are the current government incentives for buying fuel-efficient cars in Australia?

Incentives vary by state and year, so it’s best to check your state’s government website for the most up-to-date information. Generally, incentives might include tax breaks, rebates, or grants for purchasing electric or hybrid vehicles.

How much does charging an electric car cost compared to filling a petrol car?

The cost varies depending on electricity prices and your car’s energy consumption. However, generally, charging an electric car is significantly cheaper than filling a petrol car with equivalent range.

What’s the difference between a hybrid and a plug-in hybrid?

A hybrid car’s battery recharges through regenerative braking and the petrol engine. A plug-in hybrid can also be charged externally, providing a longer electric-only range.

How does driving style affect fuel efficiency?

Aggressive acceleration, hard braking, and excessive idling significantly reduce fuel economy. Smooth, consistent driving is key to maximizing efficiency.

Where can I find reliable information on fuel consumption ratings?

The Australian Government’s Green Vehicle Guide provides fuel consumption and emissions data for many vehicles sold in Australia.