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Tuesday, February 1, 2011

Land Rover Freelander 2 TD4 e, 2009

Land Rover Freelander 2 TD4 e, 2009

 
 


The new Land Rover Freelander 2 TD4_e is Land Rover's most fuel-efficient vehicle to date. Featuring a new intelligent Stop/Start system, it is the first production vehicle to incorporate technologies from the company's programme of sustainable engineering initiatives, collectively named 'e_TERRAIN TECHNOLOGIES'.

On the standard EU4 cycle, the CO2 emissions of the Land Rover Freelander 2 TD4_e are reduced by 8 per cent, compared with the outgoing manual diesel Land Rover Freelander 2. Moreover, in additional tests, Land Rover engineers have measured fuel savings approaching 20 per cent in heavy urban traffic.

The 8 per cent improvement equates to a CO2 emissions reduction of 15 g/km compared with the standard Freelander 2 TD4 manual (from 194 g/km to 179 g/km). In terms of fuel efficiency, consumption is reduced from 7.5 l/100 km to 6.8 l/100 km, a saving of 0.7 litres of fuel every 100 km (62 miles).

These gains, coupled with the added benefits of the gearshift indicator light, software developments and efficiencies from low-rolling-resistance tyres, make the Land Rover Freelander 2 TD4_e the most fuel-efficient production Land Rover ever built.
 
Added fuel economy benefits
Along with the intelligent Stop/Start system, the Land Rover Freelander 2 TD4_e includes a series of additional enhancements that help to deliver fuel economy and CO2 benefits.

A new gearshift indicator light in the instrument pack advises the driver when to change gear if a higher gear will allow the vehicle to operate more fuel-efficiently. This is calculated by the Land Rover Freelander 2 TD4_e's fully mapped engine.

Software developments to the driveline systems on the Land Rover Freelander 2 TD4_e generate CO2 benefits without reducing Land Rover's renowned capability.

Refined Stop/Start operation
Land Rover engineers have invested considerable effort in safeguarding levels of engine refinement. To reduce the engine shake associated with some diesel engines when stopping, the Land Rover Freelander 2 TD4_e features controlled throttle closing and ramps down fuel in a smooth fashion, while the alternator is also turned off during the shut-down procedure, reducing load on the engine. A software feature change and revised engine calibration further aid smooth shut-off, while engine shake on start-up is reduced by the Freelander 2's optimised engine-mounting strategy and inherent tuning.

Uncompromised durability
The increased frequency of stop-start cycles over the lifetime of the Land Rover Freelander 2 TD4_e will lead to increased use of the vehicle's affected components, so enhanced durability of these components was a priority for the Freelander 2's engineering team. They developed a new heavy-duty starter motor, a new ring gear, a new dual mass flywheel friction control plate and an absorption glass mat battery. These new features ensure that the Land Rover Freelander 2 TD4_e delivers characteristic Land Rover all-terrain performance and that the system's operation is always rapid and reliable.

Enhanced starter motor
The more frequent stop and start activity means that demands on the starter motor are forecast to increase up to threefold during the lifetime of the Land Rover Freelander 2 TD4_e. To accommodate the durability demands on the vehicle's 2 kW starter motor, a number of changes have been made.

The grease seals have been enhanced significantly and new hard-wearing copper contact material has been sourced and specified across the TD4_e range to enhance wear resistance within the starter solenoid.

New ring gear
An all-new ring gear is specified for all TD4_e models to cope with the increased frequency of starts. The ring gear is attached to the engine flywheel and comes into contact with the starter motor each time the engine is started. The new ring gear is manufactured from a harder grade of steel and contains over 25 per cent more carbon to improve durability.

Dual mass flywheel friction plate
Diesel-powered Freelanders with manual gearboxes have always featured a dual mass flywheel to ensure engine refinement at start, stop and low speeds. A new Polyetheretherketone friction control plate has been developed for the Land Rover Freelander TD4_e. This is able to withstand seven times the pressure of the outgoing plate, to ensure greater levels of refinement under even greater start and stop demands.

Absorption glass mat battery
New absorption glass mat technology has been developed, which offers deeper discharge and recharge characteristics and reduces battery deterioration under much heavier usage. Fine glassfibre matting has been introduced to sit pressurised between the new absorption glass mat battery plates. This aids the battery's longevity in two ways: by allowing the electrolyte to function normally under greater pressure and by providing mechanical support for the plates, reducing battery degradation.

Intelligent technologies
Land Rover engineers focus on the introduction of intelligent, appropriate technologies, and the Land Rover Freelander 2 TD4_e is no exception. In congested traffic, when the Stop/Start technology will shut down the engine frequently, other features and technologies will not be compromised, so in-car entertainment, climate control, Bluetooth, driver information and other electronic systems will continue to function.

Technologies such as the new voltage quality module, the battery monitoring system, the brake vacuum sensor and the enhanced climate control system have been developed to ensure that such services continue uninterrupted in a stop situation.

Voltage quality module
The voltage quality module maintains critical vehicle systems, safety and occupant comfort. It supplies a constant voltage around the vehicle's electronic components during a stop-start, ensuring that key services continue uninterrupted by the sudden outrush of amps from the battery.
The technology is effectively a direct current converter, which can convert low voltages, such as that experienced during a stop, to a stable higher level for short but crucial boosts, ranging from one to five seconds in duration.

Battery monitoring system
If any of these factors show a low measurement, the Stop/Start feature is overridden and the engine will continue running until more battery power is available.

Brake vacuum sensor
The Freelander 2's brake system is specified with significant vacuum reserves, but these reserves can become depleted for a number of reasons, such as use of the brake pedal when the engine is switched off. Ultimately this would lead to vacuum reserves becoming exhausted, which would affect the brake servo's operation and pedal loads, in some cases causing them to rise substantially.

To mitigate this, the brake vacuum sensor is specified on all Land Rover Freelander 2 TD4_e models, and if vacuum reserves fall to a level that will affect brake pedal loads, the system overrides the Stop/Start function until the brake vacuum is replenished - ensuring brake pedal loads are maintained.

Enhanced climate control system
A number of changes have been made to the Land Rover Freelander 2 TD4_e's climate control system to help ensure occupant comfort and reduce misting during stop-start situations.

One significant change is the introduction of an auxiliary water pump. On conventional vehicles, the water pump shuts down with the engine, but on TD4_e models, the introduction of the auxiliary water pump maintains the flow of coolant during engine shutdown, keeping a steady cabin temperature.

The climate control system monitors cabin temperature and maintains fan speed at a level that will protect the battery's state of charge when the engine is shut down. In extreme hot or cold conditions, extended stops, or if an occupant selects a higher fan speed during a stop, the engine will re-start if necessary to preserve occupant comfort.

LAND ROVER e_TERRAIN TECHNOLOGIES
The Freelander 2 TD4_e is just one element of Land Rover's comprehensive green technology roadmap, which will drive the company to increasingly lower emissions and more sustainable technologies in the coming years. This is a key part of the £700 million investment in sustainable technologies being made by Jaguar and Land Rover.

Land Rover engineers are working on a series of advanced propulsion technologies and lightweight structures aimed at bringing CO2 emissions down to class-leading levels. This doesn't mean sacrificing core Land Rover values: the renowned all-terrain capabilities of its future vehicles could actually be improved by some of the exciting new powertrain technologies, such as the Electric Rear Axle Drive (ERAD) announced at the British International Motor Show in London earlier this year.

The company's ambitious programme for continuing CO2 reduction stretches well into the future. For example, Land Rover is developing future hybrid and other green technologies in conjunction with the UK Government's Technology Strategy Board (TSB).

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