RAAF

A blue carboard cover with a linen material finish on it. Top right corner reads AAP 7191.001-100. In black reads Royal Australian Air Force with their insignia below. The rest of the information on the cover is in black ink. There is a large metal slide down the left hand side.royal australian airforce - manuals, royal australian air force, gas turbine engine starters cartridge

The ship’s communication system that was used from the late 19th century to early-to-mid-20th-century is called an Engine Order Telegraph (E.O.T.) or ship’s telegraph. The system has two parts, the Bridge Section and the Engine Room Section. The Bridge Section is usually mounted on top of a pedestal, and the Engine Room Section is often attached to a vertical surface. The standard commands printed or stamped onto the dial are the directions of AHEAD and ASTERN, and the speeds of STOP, SLOW, HALF, and FULL. The ship’s pilot on the Bridge of a vessel sends his Orders for speed and direction to the to the Engine Room with the E.O.T. He moves the lever or levers, depending on the number of engines the ship has, to change the indicator on the Bridge Section’s dial to point in the new direction and speed of travel. This change causes the Orders to be duplicated on the Engine Room Section’s dial and a bell to signal the change at the same time. The engineer then adjusts the ship’s engines and steering equipment to follow the pilot’s Order. The manufacturer, A. Robinson & Co. Ltd of Liverpool, established his business in 1780 and continued until 1968 when the business was purchased by marine products maker Chadburns, established in London in 1870.This Engine Room section is part of a ship's telegraph communication system and represents marine technology used in the late-19th to mid-20th-century. Engine Room Section of a ship’s telegraph or Engine Order Telegraph (E.O.T.). The round brass dial has inscriptions stamped around its edge and centre. Red inlaid glass plates have inscriptions in white paint on them. The inscriptions are nautical terms for direction and speed and include the maker’s details. A rotating pointer is joined to the centre of the dial. The maker is A. Robinson & Co. Ltd of Liverpool. Stamped: “FULL / HALF / SLOW / STOP / FULL / HALF / SLOW / STOP”, “AHEAD / ASTERN” Printed: “FULL / HALF / SLOW / STOP / FULL / HALF / SLOW / STOP” Stamped on the dial: “A. ROBINSON & CO. LTD / MANUFACTURERS / LIVERPOOL”flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, marine technology, marine communications, engine order telegraph, e.o.t., ship’s telegraph, bridge section, engine room section, ship’s engine telegraph section, marine telegraph, a. robinson & co. ltd, liverpool

Awarded for 4 Man Engine Y Coupling Warrnambool 1929Part of Kyneton Fire Brigade trophy collection Heavy clear glass bowl on filigreed silver metal base with two handles and four feetBOWL : 168-268 Upper rim STAND : Warrnambool 1929 4 Man Engine Y Coupling Won by KYNETONkyneton fire brigade, country fire authority, fire brigade demonstrations, trophy

This is possibly a photograph which records trips made around Victoria of the 'Flying Scotsman' engine which was brought to Australia in late 1980s.A coloured photograph of a steam engine painted blue, black and red travelling under full steam along a rail track.steam engines, the flying scotsman, railways, george evans collection

The Victorian Railways "G" class Beyer-Garratt locomotives had 2 foot 6 inch gauge engines of the 2-6-0 + 0-6-2 wheel arrangement, that is it had a tender in front of the engine and a tender behind. Two people are riding on the tender in front while a crewman is mounting the engine.B/W. Engine G42, with a crewman entering, and a NUU louvre van, in front of a pulp wood stack. Two people are mounted on the articulated section of the locomotive. Two empty tracks in front.beech forest; railway; loco g42;

Between Pratt & Whitney and numerous licensed companies, there were over 180,000 of these engines manufactured in a number of specifications. The B-24 Liberator would have been their major recipient but other famous aircraft using the same engine were the Consolidated Catalina flying boat and the Douglas DC3/C47/Dakota. Refer Wikipedia link for other aircraft that used this engine.As a result of the significant and ongoing usage of these engines in civil aircraft such as the Douglas DC3, they are by no means rare. Many parts can still be sourced new and there are several companies that have the capacity to rebuild these engines to an airworthy standard.The Pratt & Whitney R 1830 is a double row 14 cylinder air cooled radial engine with a capacity of 1830 cubic inches (30 litres), developing some 1200 horsepower at a maximum 2700 rpm.radial engine, twin wasp, r1830

The Drawings were to be used for manufacture of all the components of the Pikrose engine.Some of the Pikrose Engine was manufactured by Austin Hopkinson and Co. Ltd. The drawings belonged to the SECV and were created in the 1950s. The engine was used in tunnel construction.These drawings were used in the workshop of the SECV during the construction of the Kiewa Hydro Electric Scheme. The engine was used in the tunnel and powered by compressed air.KVHS has the drawings only. Workshop drawings consisting of about 20 paper sheets. Size 2 Pikrose engines powered by compressed air and a winch used to operate a scraper. Used in tunnels of shaft.pikrose engine drawings, compressed air engine, austin hopkinson co. ltd., workshop drawings

Photograph of of the North Melbourne engine house, or power house or winding house on the corner of Abbotsford St and Queensberry St. Dated 1934 on the rear of the photo. Shows the chimney. This building remains intact other than for the chimney.Yields information about cable trams engine houses.Black & White Photograph - two copies held.Has the TMSV Sales stamp on the rear and a date "Nth Melb Engine House 1934" in pencil on the rear.trams, tramways, cable trams, abbotsford st, engine houses, power house, winding houses, queensberry st

Map showing the Melbourne cable tram system, with a list of opening and closing dates for the various lines, opened by the Melbourne Tramways Trust. Shows engine houses and car houses (or depots), location names, railways, and a scale. Includes notes on other dates tracks were changed and the Northcote to Clifton Hill line. No marks as to who prepared the map.Yields information about the Melbourne Cable Tram system.Foolscap sheet - Map - Melbourne cable tram system showing tracks, car houses and engine houses.Has a date stamp 22 Apr 1971 in bottom right hand corner.tramways, cable trams, trams, map, melbourne tramways trust, mtt, engine houses, depots, car houses

Allen Twin Cylinder Engine Driving A Brush Electrical Generator Built by W. H. Allen & Co, Ltd ., Bedford, England ( serial Number R1/14738/4) it was used at Kodak Australia, Abbotsford plant , to provide power through the attached Brush Electrical Generator ( serial 21177 of 1929 ) for the photographic plant. Donated by Kodak ( Australia ) Ltd. in 1966Historic - Industrial Twin Cylinder Engine Driving A Brush Electrical Generator used by Kodak Australia, at their Abbotsford plant, Abbotsford, Victoria, AustraliaTwin Cylinder Engine Driving A Brush Electrical Generator made of steel , iron, wrought iron, brassBuilt by W. H. Allen & Co, Ltd ., Bedford, England ( serial Number R1/14738/4)puffing billy, twin cylinder engine, brush electrical generator, w. h. allen & co, ltd

Clear Creek Tin Mine, c.1931mines, mining, tin, tin mining, steam, engine, men, miners, machinery, clear creek, el dorado, eldorado

The steam engine indicator, or dynamometer, is an instrument used on a steam engine (such as that of a vessel or train) to measure and record the change in the pressures of the engine’s cylinders during their operating cycle. The engineer would use it to identify problems or defects such as bad valve settings or constricted steam pipes. It could indicate the difference in efficiency caused by adjustments made to the engine, being able to instantly measure the variation of pressure from the engine stroke at any given time. This force of power would be registered by a pencil, fitted to the adjustable arm, which would trace a line on paper wound around the cylinder. The recorded information could be used in conjunction with mathematical tables. This particular instrument was made by T.S. Mc Innes, one of the better manufacturers of engine indicators. Mc Innes engine indicators were still being used in the mid 1900’s. This specific instrument was used by Mark Forsythe of North Berwial, Scotland and late of Ararat, Victoria when he was chief engineer on the “SS Talawena” in 1892. The Port of Warrnambool, in Victoria, harboured steam ships that carried both passengers and cargo along the south west coast in the late 1800’s and into the 1900’s. The engineer of a steam ship was responsible for reaching and maintaining the optimum level of steam energy to serve the locomotion and efficiency of the steam ship. The engineer would use a steam engine indicator to measure and record information to achieve this purpose. Engine Dynamometer or Steam Engine Indicator in square, fitted oak case. This brass instrument is used to measure and record steam pressure for setting up and adjusting valves on a steam engine. It has an oscillating recording drum with vertical, silver clip attached for holding paper in place around the drum. The drum oscillates left to right. There is a pulley attached to a length of cord, which is attached to the drum. Beside the drum is a fine metal arm, vertically adjustable, small hole in the end to hold a pencil. Inscription stamped into bracket of the arm. The engine indicator is mounted on a hinged side of the case that swings out ready for use. Attached chains prevent the side from opening past vertical. There is storage for other accessories and an empty compartment in the base (where a scale or ruler may have been located). The case has a collapsible wooden handle, brass hinges and two brass, hook-shaped catches. There is a code stamped inside the lid. It contains a brass, ‘T’ shaped steam-cock (or stop cock) with two open ends made of metal pipe with different sized threads. (Turning the handle on top opens and closes the space in the pipe and would close off the flow of steam from one end to the other.) Also inside the case are three different spiral springs, each with a threaded nut on the end that has a threaded hole inside it. Used by Mr Mark Forsythe when chief engineer on the SS Talawena in 1892 “T.S. MC INNES PATENT” and “522 _ _” (last 2 digits are unreadable) pressed into the arm of the brass indicator. “[ ] X ’ stamped inside the lid of the case. The 3 springs all have a number stamped into them: (1) “32” and “12” (2) “12” and “16” [above] “12” (3) “64” and “150” Card that came with instrument “This instrument was used by Mark Forsythe of North Berwial Scotland and late of Ararat, Victoria when chief engineer on the SS Talawena in 1892" dynamometer, steam engine indicator, t.s. mcinnes, glasgow, dobbie mcinnes, port of warrnambool, warrnambool, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, maritime museum, shipwreck coast, great ocean road

Another excursion train travels to Beech Forest in 1960. At Gellibrand railway yards engine G42 leads the train with driver L. Moore and fireman, Les Ogden.B/W. Locomotive G42 and an excursion train to Beech Forest, on track number one, in 1960. The fireman, Les Ogden, hangs from the engine. The other tracks are empty.gellibrand; railway; loco g42;

Louis Heinrici, Germany, circa 1900 a small Stirling type hot air engine in which a body of air is worked constantly, being alternately heated and cooled during each revolution of the crankshaft. Heinrici hot air engines are of the valveless, closed cycle type, generally called Stirling cycle engines, after Robert Stirling, the Scottish Presbyterian minister who pioneered their development in the early 1800's. They operate by alternately heating and cooling a quantity of air, called the working fluid, contained in the engine's internal spaces. Heat is applied externally and passes through the cylinder wall, heating the working fluid, which is then expanded against a piston to do mechanical work. After heating and expanding, the working fluid is moved to a cool space where it cools and contracts before being returned to the hot space for the cycle to repeat. It has a displacer (just a loose piston), below and in the same cylinder as the power piston to which it is connected via cranks and linkages so as to lead by 90degrees of crankshaft angle. The displacer space and the piston space are connected by the annular gap around the loose fitting displacer so that the working fluid moves between these spaces and changes volume by the appropriate ratio as the engine rotates. Because they have no valves and experience no sudden pressure changes, Stirling engines are noted for quietness and reliability. Heinricis use air at atmospheric pressure for their working fluid, but for higher specific output (power for size) and better efficiency, modern Stirling cycle engines use pressurised gas- air, nitrogen, helium or hydrogen.Historic - Hot Air Engine - MotorHot Air Motor made of Steel with two drive wheels. a small Stirling type hot air engine in which a body of air is worked constantly, being alternately heated and cooled during each revolution of the crankshaft. Heinrici Motorheinrici hot air motor, puffing billy

Acquired when "Classweave Industries" closed down.ENGINE/ DEFS??textile mills woollen mills, classweave industries pty ltd federal woollen mills ltd, textile mills, woollen mills

Single cylinder horizontal petrol engine mounted on a 4 wheeled trolley. Two flywheels, one either side, no pulley. Galvanised cylindrical fuel tank mounted on a wooden box in front. Box contains a battery and ignition coil. Trolley has cast iron wheels and is designed for pulling by hand. Painted red and grey. Probably a power source for farm machinery. On a brass plate fixed to the cylinder. "Waterloo Boy Gasoline Engine / No. 81491, HP 4 / Waterloo Gasoline Engine Co. / Waterloo Iowa / Patented / August 7 1900, Dec 3 1901, Oct 7 1907 / Other patents pending / Sold by Waterloo Gasoline Engine Co." On each side of the water tank is an oval white transfer with "Waterloo Boy" above an illustration of a small boy wearing a wide brimmed hat.machinery ... engine ... petrol ... metalwork

The engine was being transported because it had broken a coupling in transit. Windsor Crescent is in the background. We have an original copy donated by Ian Barkla and a larger one copied by Ken Hall. The Barkla original has a sticker with his reference details on the back.A black and white photocopy of a steam engine. There are some local kinder children and an adult inspecting the train and climbing on the picket fence. The house in the background is in Windsor Crescent.surrey hills railway station, goods yard, steam train, transporter wagon, 1950, children, clothing and dress