Marshall supercharger

Last updated

The Marshall supercharger (also known as the Godfrey supercharger) was a Roots-type supercharger based on a patent by John Wilmot Marshall in 1933 [1]

Contents

Company History

The Marshall superchargers were initially manufactured by Marshall Drew and Co Ltd in the 1930s and marketed for increasing car performance. [2] Toward the end of the 1930s Marshall superchargers were listed by Sir George Godfrey and Partners (Holdings) Ltd of Hanworth, Middlesex, made by them to the designs of J.W. Marshall. [3] Godfrey continued to list the Marshall cabin blower until about 1951, after which they listed it as the Godfrey cabin supercharger.

In 1969 Sir George Godfrey and Partners (Holdings) Ltd merged with James Howden & Company Ltd under James Howden and Godfrey Ltd. One outcome of this was the merging of compressor interests, as Howden Wade Ltd carried the rights to the Wade supercharger. [4] In 1990 Adams Ricardo Ltd purchased the rights to the Wade and Godfrey compressor ranges from Howden.

Applications

While the supercharger was initially used for increasing the performance of sports cars such as the MG and Frazer Nash, in 1939 Sir George Godfrey and Partners suggested to the Air Ministry that they could be used for cabin pressurisation in aircraft, for which purpose many were made during WW2. The cabin pressurisation increased the altitude at which aircraft could fly and so was a closely guarded secret during the war. Immediately after the war Godfrey advertised their Marshall Cabin Blowers and stated their military model had been made since 1939 and had been tested to 50,000 ft. [5] From 1951 Godfrey no longer refererred to them as Marshall cabin blowers, but rather as Godfrey cabin superchargers. Aircraft mentioned as using these in Godfrey's adverts include :

In the 1960s Godfrey continued to make the Roots-type cabin air compressors (a development of the original Marshall), but also a screw-type compressor.

Surplus stores of these cabin superchargers (Marshall cabin blowers) were repurposed after the war and used for tuning cars (mainly for racing, hill-climbing, etc.). This was started by Leslie Ballamy of L. M. Ballamy Ltd, Consulting and Experimental Engineers, who started supercharging RAF officers' cars using the surplus blowers. After a falling out between Ballamy and the company sponsor in 1946, Ballamy left and the company was reformed as North Downs Engineering Co Ltd (aka Nordec), and marketed the Marshall-Nordec supercharger kits for a wide range of cars. However key members of the Nordec company left late in 1947 to form Wade Superchargers Ltd.

Sir George Godfrey and Partners launched the K200 Marshall supercharger after the war, designed for the commercial vehicle market. [6] In 1948 Crossley produced an 8.6 litre oil engine with twin Marshall blowers which increased its output from 100 bhp to 150 bhp at 1750rpm. [7] Other manufacturers to use Marshall superchargers on at least some of their engines include Dennis [8] in 1951 and Kromhout in 1953. [9] In 1955 the huge Rotinoff GR7 Atlantic transport tractor was announced, designed for road haulage of large loads such as tank transport, this had a Rolls-Royce C6 SFL six-cylinder engine with a Godfrey Roots-type supercharger. [10] However the commercial vehicle market (and many performance cars) moved from engine driven superchargers to exhaust driven turbochargers in subsequent decades.

Related Research Articles

<span class="mw-page-title-main">Turbocharger</span> Exhaust-powered forced-induction device for engines

In an internal combustion engine, a turbocharger is a forced induction device that is powered by the flow of exhaust gases. It uses this energy to compress the intake gas, forcing more air into the engine in order to produce more power for a given displacement.

<span class="mw-page-title-main">Rolls-Royce Merlin</span> Aircraft engine family by Rolls-Royce

The Rolls-Royce Merlin is a British liquid-cooled V-12 piston aero engine of 27-litres capacity. Rolls-Royce designed the engine and first ran it in 1933 as a private venture. Initially known as the PV-12, it was later called Merlin following the company convention of naming its four-stroke piston aero engines after birds of prey.

<span class="mw-page-title-main">Avro</span> British aircraft manufacturer

Avro was a British aircraft manufacturer. Its designs include the Avro 504, used as a trainer in the First World War, the Avro Lancaster, one of the pre-eminent bombers of the Second World War, and the delta wing Avro Vulcan, a stalwart of the Cold War.

<span class="mw-page-title-main">Napier Nomad</span> British diesel aircraft engine

The Napier Nomad is a British diesel aircraft engine designed and built by Napier & Son in 1949. They combined a piston engine with a turbine to recover energy from the exhaust and thereby improve fuel economy. Two versions were tested, the complex Nomad I which used two propellers, each driven by the mechanically independent stages, and the Nomad II, using the turbo-compound principle, coupled the two parts to drive a single propeller. The Nomad II had the lowest specific fuel consumption figures seen up to that time. Despite this the Nomad project was cancelled in 1955 having spent £5.1 million on development, as most interest had passed to turboprop designs.

<span class="mw-page-title-main">Roots-type supercharger</span> A positive displacement lobe pump

The Roots-type blower is a positive displacement lobe pump which operates by pumping a fluid with a pair of meshing lobes resembling a set of stretched gears. Fluid is trapped in pockets surrounding the lobes and carried from the intake side to the exhaust. The most common application of the Roots-type blower has been the induction device on two-stroke diesel engines, such as those produced by Detroit Diesel and Electro-Motive Diesel. Roots-type blowers are also used to supercharge four-stroke Otto cycle engines, with the blower being driven from the engine's crankshaft via a toothed or V-belt, a roller chain or a gear train.

A centrifugal supercharger is a specialized type of supercharger that makes use of centrifugal force in order to increase the manifold air pressure, MAP. An increased MAP allows the engine to burn more fuel, which results in an increased power output. Centrifugal superchargers are generally attached to the front of the engine via a belt-drive or gear-drive from the engine's crankshaft.

<span class="mw-page-title-main">Bristol Proteus</span> 1940s British turboprop aircraft engine

The Bristol Proteus was the Bristol Engine Company's first mass-produced gas turbine engine design, a turboprop that delivered just over 4,000 hp (3,000 kW). The Proteus was a reverse-flow gas turbine. Because the second turbine drove no compressor stages, but only the propeller, this engine was classified as a free-turbine. It powered the Bristol Britannia airliner, small naval patrol craft, hovercraft and electrical generating sets. It was also used to power a land-speed record car, the Bluebird-Proteus CN7. After the merger of Bristol with Armstrong Siddeley the engine became the Bristol Siddeley Proteus, and later the Rolls-Royce Proteus. The Proteus was to have been superseded by the Bristol Orion which would have given a Britannia a 75% increase in power for cruising faster.

<span class="mw-page-title-main">Naturally aspirated engine</span> Type of internal combustion engine

A naturally aspirated engine, also known as a normally aspirated engine, and abbreviated to N/A or NA, is an internal combustion engine in which air intake depends solely on atmospheric pressure and does not have forced induction through a turbocharger or a supercharger.

Coventry Victor was a British motorcycle and car manufacturer. Originally Morton & Weaver, a proprietary engine manufacturer in Hillfields, Coventry, founded in 1904, the company changed its name to Coventry Victor Motors in 1911. The company closed in 1971.

<span class="mw-page-title-main">Ford Sidevalve engine</span> Motor vehicle engine

The Ford Sidevalve is a side valve from the British arm of the Ford Motor Company, often also referred to as the "English Sidevalve". The engine had its origins in the 1930s Ford Model Y, and was made in two sizes, 933 cc (56.9 cu in) or "8 HP", and 1,172 cc (71.5 cu in) or "10 HP". The early engines did not have a water pump as standard, instead relying on thermosiphon cooling as the Model T engine had. A water pump was added in 1953 for the 100E models when the engine was re-engineered to the point that few specifications are identical between the early and the later series. The Sidevalve engine was used in many smaller Fords as well as farm vehicles, commercial vehicles and a marine version in boats. Production of the engine was stopped in 1962. Windscreen wipers were often driven by the vacuum generated in the inlet manifold.

<span class="mw-page-title-main">Rotary-screw compressor</span> Gas compressor using a rotary positive-displacement mechanism

A rotary-screw compressor is a type of gas compressor, such as an air compressor, that uses a rotary-type positive-displacement mechanism. These compressors are common in industrial applications and replace more traditional piston compressors where larger volumes of compressed gas are needed, e.g. for large refrigeration cycles such as chillers, or for compressed air systems to operate air-driven tools such as jackhammers and impact wrenches. For smaller rotor sizes the inherent leakage in the rotors becomes much more significant, leading to this type of mechanism being less suitable for smaller compressors than piston compressors.

<span class="mw-page-title-main">Supercharger</span> Air compressor for an internal combustion engine

In an internal combustion engine, a supercharger compresses the intake gas, forcing more air into the engine in order to produce more power for a given displacement.

The Avro 684 was a proposed British high altitude heavy bomber of the Second World War, based on Avro's successful Lancaster.

An electric supercharger is a specific type of supercharger for internal combustion engines that uses an electrically powered forced-air system that contains an electric motor to pressurize the intake air. By pressurizing the air available to the engine intake system, the air becomes more dense, and is matched with more fuel, producing the increased horsepower to the wheels.

<span class="mw-page-title-main">Automobile air conditioning</span> System to cool the air in a vehicle

Automobile air conditioning systems use air conditioning to cool the air in a vehicle.

<span class="mw-page-title-main">Clive Gallop</span> British WWI veteran and automotive engineer (1892–1960)

Colonel Reginald Clive Gallop was an engineer, racing driver and First World War pilot. He was one of the team which developed their first engine for Bentley Motors.

<span class="mw-page-title-main">Roots Blower Company</span> Defunct American engineering company

The Roots Blower Company was an American engineering company based in Connersville, Indiana. It was founded in 1859 by the inventors Philander Higley Roots and Francis Marion Roots. It is notable for the Roots blower, a type of pump. Today, Roots blowers are mainly used as air pumps in superchargers for internal combustion engines; they were first used in blast furnaces to blow combustion air to melt iron.

The Shorrock supercharger was an eccentric sliding-vane type engine supercharger patented by James Haydock and Christopher Shorrock in 1933. Originally known as the Centric supercharger, it was widely used by engine tuners in the UK in the 1930s and in the 1950 and 1960s.

The Wade supercharger was a Roots-type supercharger designed for internal combustion engines and produced from 1947 by the newly formed Wade Engineering Ltd, of Gatwick Airport, Horley, Surrey. The name 'WADE' comes from Winslett And DEnsham, after Bryan Winslett and Costin Densham.

<span class="mw-page-title-main">Zoller supercharger</span> Iamravi Odich

The Zoller supercharger was a vane-type supercharger created by Arnold Zoller (1882-1934) who had patents regarding supercharging engines before WW1. The Zoller supercharger was popular in the 1920s and 1930s.

References

  1. GB 421047,John Wilmot Marshall,"Improvements in or relating to superchargers for use in internal combustion engines",published 13 Dec 1934
  2. "Marshall Drew advert". The Sports Car. March 1936. p. 68.
  3. "Commercial-Vehicle Superchargers and what they can do". Commercial Motor. 4 July 1939. p. 748.
  4. "James Howden & Godfrey". Birmingham Daily Post. 23 October 1969. p. 4.
  5. "Marshall Cabin Blowers (advert)". Flight. 15 November 1945.
  6. "Why not blowers on Commercial Vehicle engines". Commercial Motor. 4 October 1946. pp. 220–221.
  7. "British Engine Design". Commercial Motor. 30 April 1948. pp. 361–364.
  8. "Bus Driving Becomes an Armchair Job". Commercial Motor. 2 February 1951. pp. 14–17.
  9. "Brussels Background". Commercial Motor. 23 January 1953. pp. 772–775.
  10. "A New Vehicle for 40-ton loads". Commercial Motor. 23 December 1955. pp. 624–627.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.