Buyer's Guide 2024
Nissan Leaf
Electric Vehicle Datasheet
Nissan Leaf Overview
The Nissan Leaf represents the forefront of electric vehicle (EV) technology, combining impressive performance with environmental sustainability. As the world shifts towards greener alternatives, the synergy between EVs and solar power has emerged as a powerful solution to reduce carbon footprints and embrace renewable energy sources. This guide explores how to power the Nissan Leaf using solar panels, ensuring your drive is not just efficient but also eco-friendly.
The Nissan Leaf e+ 62 kWh stands out with its remarkable efficiency of 27 kWh/100 miles kWh/100 miles and a substantial range of 226 miles (364 km) miles on a single charge. Manufactured in Japan, USA, UK (Nissan), this Hatchback features a AC-induction motor, delivering 215 hp (160 kW) of power and 251 lb-ft (340 Nm) of torque. Its acceleration from 0-60 mph in just 7.1 s seconds and a top speed of 99 mph (160 km/h) highlight the Nissan Leaf's exceptional performance capabilities.
Here are the full specifications for the Nissan Leaf e+ 62 kWh:
- Model
- Nissan Leaf
- Trim
- e+ 62 kWh
- Brand
- Tesla
- Year
- 2019 - ...
- Range EPA
- 226 miles (364 km)
- Vehicle Efficiency
- 27 kWh/100 miles
- Manufactured
- Japan, USA, UK (Nissan)
Find out how many solar panels you need to power the Nissan Leaf
Vehicle Performance
- Vehicle Accleration (0-60 mph)
- 7.1 s
- Top Speed
- 99 mph (160 km/h)
- Engine Power
- 215 hp (160 kW)
- Total Torque
- 251 lb-ft (340 Nm)
- Drive Type
- FWD
- Vehicle Efficiency
- 27 kWh/100 miles
- Motor Type
- AC-induction
Battery
- Capacity
- 62 kWh
- Range EPA
- 226 miles (364 km)
The Role of Solar Power in EV Charging
Integrating solar power with electric vehicle charging presents a sustainable path forward. Solar panels convert sunlight into electricity, offering a clean, renewable source that can significantly reduce reliance on fossil fuels. For EV owners, particularly those with a Nissan Leaf, solar energy can provide a cost-effective, eco-friendly way to charge their vehicles, contributing to reduced electricity bills and a smaller carbon footprint.
Charging info for Nissan Leaf
- Charge Port Type
- Chademo|Type2
- Max charging power (AC)
- 6.6 kW
- Average charging speed (DC)
- ~255 mph
Calculating Solar Panel Needs for the Nissan Leaf
To determine the number of solar panels required to power the Nissan Leaf, consider its energy consumption of 27 kWh/100 miles kWh/100 miles and a 62 kWh kWh battery capacity. The calculation involves assessing your daily or monthly mileage, the efficiency of the solar panels you intend to install, and the average sunlight hours your location receives. You can check how many panel using our EV solar charging calculator.
Installation and Cost Considerations
Installing solar panels to power your Nissan Leaf involves several considerations, including the choice of panels, the capacity of your solar system, and the specifics of your installation site. Costs can vary based on these factors, but solar incentives and rebates can make the investment more affordable. Financing options, such as $0 down leases, are available to help manage upfront costs, making solar power accessible to a broader audience.
Getting an EV? We'll help you power your car and home.
Technical Specifications
- Body Type
- Hatchback
- Weight
- 3871 lb
- Dimensions
- 176.8 x 70.4 x 60.8 in
- Cargo Volume
- 14.8 ft3
- Wheelbase
- 106.3 in
- Number of seats
- 5
- Towing Capacity
- N/A
Get a free quote
and EnergyPal offers.
Call (800) 990-3725 or complete the questions and an EnergyPal Advisor will contact you with comparative quotes.