British Rail Class 89

89001 in GNER livery at Doncaster Works in July 2003

Type and origin
Power type	Electric
Builder	British Rail Engineering Limited Crewe Works
Serial number	875
Build date	1986
Total produced	1

Specifications
UIC class	Co'Co'
Gauge	1,435 mm (4 ft 8 ¹⁄₂ in)
Wheel diameter	1.080 m (3 ft 6 ¹⁄₂ in)
Minimum curve	80 m (4 chains)
Wheelbase	49 ft 6 ¹⁄₂ in (15.100 m)
• Bogie	14 ft 5 in (4.39 m)
Pivot centres	35 ft 9 ¹⁄₄ in (10.903 m)
Wheel spacing (Asymmetrical)	2.1 m (6 ft 11 in) (bogie outer axles) 2.3 m (7 ft 7 in) (bogie inner axles)
Length	64 ft 11 in (19.79 m)
Width	2.731 m (8 ft 11 ¹⁄₂ in)
Height:
• Pantograph	3.975 m (13 ft 0 ¹⁄₂ in)
• Body height	3.810 m (12 ft 6 in)
Axle load	17 long tons 7 cwt (17.6 t)
Loco weight	105 tonnes (103 long tons; 116 short tons)
Electric system(s)	25 kV AC catenary
Current collection	Brecknell Willis HS Pantograph
Traction motors	6 × Brush Traction TM 2201A
• Continuous	808 Amps per motor
MU working	TDM
Train heating	Electric Train Heating 510kVA at 893V AC, index: 95
Loco brake	Air & Rheostatic
Train brakes	Air
Safety systems	AWS
Couplers	Buckeye

Performance figures
Maximum speed	125 mph (201 km/h) (design) 110 mph (180 km/h) (in service)
Power output:
• Continuous	5,850 hp (4,360 kW)
Tractive effort	46,100 lb (20,900 kg) (maximum)
Loco brakeforce	50 tf (490 kN) (Rheostatic)

Career
Operators	InterCity GNER
Class	89
Numbers	89001
Nicknames	Aardvark The Badger
Axle load class	Route availability 6
Locale	WCML ECML
Delivered	2 October 1986
First run	9 February 1987
Withdrawn	July 1992 (BR) 2001 (GNER)
Preserved	89001
Current owner	AC Locomotive Group
Disposition	1 preserved

Type and origin
Power type	Electric
Builder	British Rail Engineering Limited Crewe Works
Serial number	875
Build date	1986
Total produced	1

Specifications
UIC class	Co'Co'
Gauge	1,435 mm (4 ft 8 ¹⁄₂ in)
Wheel diameter	1.080 m (3 ft 6 ¹⁄₂ in)
Minimum curve	80 m (4 chains)
Wheelbase	49 ft 6 ¹⁄₂ in (15.100 m)
• Bogie	14 ft 5 in (4.39 m)
Pivot centres	35 ft 9 ¹⁄₄ in (10.903 m)
Wheel spacing (Asymmetrical)	2.1 m (6 ft 11 in) (bogie outer axles) 2.3 m (7 ft 7 in) (bogie inner axles)
Length	64 ft 11 in (19.79 m)
Width	2.731 m (8 ft 11 ¹⁄₂ in)
Height:
• Pantograph	3.975 m (13 ft 0 ¹⁄₂ in)
• Body height	3.810 m (12 ft 6 in)
Axle load	17 long tons 7 cwt (17.6 t)
Loco weight	105 tonnes (103 long tons; 116 short tons)
Electric system(s)	25 kV AC catenary
Current collection	Brecknell Willis HS Pantograph
Traction motors	6 × Brush Traction TM 2201A
• Continuous	808 Amps per motor
MU working	TDM
Train heating	Electric Train Heating 510kVA at 893V AC, index: 95
Loco brake	Air & Rheostatic
Train brakes	Air
Safety systems	AWS
Couplers	Buckeye

Performance figures
Maximum speed	125 mph (201 km/h) (design) 110 mph (180 km/h) (in service)
Power output:
• Continuous	5,850 hp (4,360 kW)
Tractive effort	46,100 lb (20,900 kg) (maximum)
Loco brakeforce	50 tf (490 kN) (Rheostatic)

Career
Operators	InterCity GNER
Class	89
Numbers	89001
Nicknames	Aardvark The Badger
Axle load class	Route availability 6
Locale	WCML ECML
Delivered	2 October 1986
First run	9 February 1987
Withdrawn	July 1992 (BR) 2001 (GNER)
Preserved	89001
Current owner	AC Locomotive Group
Disposition	1 preserved

The Class 89 was a prototype design for an electric locomotive. Only one was built in 1986, by British Rail Engineering Limited's Crewe Works. It was used on test-trains on both the West Coast and East Coast Main Lines. It was fitted with advanced power control systems and developed over 6,000 bhp (4,500 kW). It was given the nickname Aardvark although railfans used to call it The Badger owing to its slanted front ends.

The Class 89 locomotive was designed by Brush Traction, Loughborough to meet a specification issued by British Rail, which subsequently changed the requirements, but not before Brush had already committed to build the prototype locomotive.

The locomotive had six DC traction motors. The main armature current for all the motors is fed from a common thyristor drive, whilst each motor has an independent field current controller. The field current controllers comprised a two quadrant chopper inside a thyristor bridge. The bipolar transistor based choppers provides a fast fine control of motor torque for electric braking and slip control, whilst the thyristor bridge is used to invert the field current polarity.

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