Vehicle details
1Owner|6Doors|Sensors|BuyOnlin.
This 2016 Ford Transit Custom presents an exceptional ownership history, boasting only one previous owner and a remarkably low mileage of 80, 200 miles for its age. This 2.0 TDCi 310 L1 H1 5dr model is powered by an efficient 2.0 litre diesel engine, meeting Euro 6 emission standards. Its low CO2 emissions are a notable benefit, contributing to a more environmentally conscious drive.The TDCi 310 variant offers a compelling combination of performance and economy. The low mileage and single owner provenance suggest this vehicle has been well cared for and maintained. These factors indicate that this Transit Custom is likely to offer a superior ownership experience compared to other similar models on the market..
Vehicle features
- 15in Steel Wheels - 6.5x15 (215/65 R15) with Half Caps
- Anti-Lock Braking System (ABS) and Emergency Brake Assist (EBA)
- Auxiliary Connection Point - 3x60 Amp
- Located Under Driver Seat Pedestal
- Power Point Socket 2x12V
- Bluetooth Hands-Free Phone
- Bulkhead - Full Width Steel
- Unglazed with Load-Through Facility
- Day Time Running Lights
- Deadlocks
- Driver Seat Armrest
- Driver Seat Height Adjustment
- Drivers Airbag
- Electrically-Operated Front Windows with One-Touch Lowering on Drivers Side
- Electronic Brake-Force Distribution (EBD)
- Electronic Stability Control (ESC) and Roll-Over Mitigation (ROM)
- Ford Connected Audio System - Radio and AUX
- Ford Eco Mode (Driver Information System)
- Four Front Speakers
- Head Restraints - Front
- Hill Start Assist (HSA)
- Immobiliser - Safeguard Passive Anti-Theft System (PATS)
- Outside Temperature Display
- Passengers Sliding Side Load Door and Step
- Power Assisted Steering (PAS)
- Rake and Reach Adjustable Steering Wheel
- Remote Audio Controls
- Remote Control Central Locking with One Key Fob
- Steel Spare Wheel
- Third Brake Light
- Tinted Glass Complete
- Twin Facia-Mounted Cup Holder
- Tyre Inflator Kit
- USB/iPod Connectivity Port
- Upholstery - Charcoal Cloth
- Voice Control System