
This car is available to purchase now in New Zealand, with pickup from East Tamaki, Auckland City.
This vehicle is On Yard
The 2017 Nissan Serena Highway Star G is a modern and practical hybrid people-mover designed for families and group travel. It features a 2.0L petrol-hybrid engine paired with an automatic transmission, delivering a smooth and fuel-efficient drive of around 6.8L/100km.
This model stands out with its spacious 8-seat interior, dual sliding doors for easy access, and a comfortable, well-equipped cabin. It also includes advanced features such as ProPILOT driver assistance, adaptive cruise control, and a 360 degrees reversing camera, enhancing both safety and convenience.
With a sleek Highway Star body styling, modern technology, and strong safety features, the 2017 Serena Highway Star G is a versatile and economical choice for those needing a reliable family van or people mover.
2.5Motive Power: Petrol Hybrid
Fuel economy of 6.8L per 100km
Annual fuel cost of $2,670
Cost per year is an estimate based on petrol price of $2.80 per litre and an average distance of 14000 km. Emissions and Energy Economy figures standardised to 3P WLTP.
Disclaimer: The Fuel Saver Information displayed here is provided for comparative purposes. Your actual cost per year and fuel consumption will vary from that shown, depending on factors such as vehicle condition and any vehicle modifications, driving style, traffic conditions, distance travelled and fuel price variations. You should not expect to meet exactly what this information says. Visit the EECA website to find out more about this information and fuel saver labels.
Information unavailable/unknown.
Unfortunately we are unable to determine if a Clean Car fee or rebate applies to this vehicle. This usually occurs when a vehicle is still awaiting classification or is yet to arrive in New Zealand. We suggest contacting the seller directly to try and determine the fee/rebate that may apply to this vehicle (if any).
Based on 2025 VSRR rating
These ratings are based on real-world crash data and indicate how likely a vehicle is to protect the driver and its occupants in a crash.
