This kerosene iron was used before electricity was available. The iron was self heating and required a pump to pressurise it. It came with instructions, full measuring can and a wrench / key. Used by a resident in the Kiewa Valley.Small brass pump for pressurising cylinder on Coleman Iron. Brass with a wooden handle knob. Used with a bike pump action.iron, laundry, household, domestic, kerosene, pump for iron

The two hand-held, portable kerosene lamps each have green enamel caps over the glass. They were used from around the 1930s until 1993, and one is now located on the groundfloor level of the lighthouse and the other is in the assistant lightkeeper’s quarters. The brand name of the Point Hicks lamp, while not stated is probably Coleman, Tilley or Austramax, which were all similarly made, portable pressurised kerosene lamps. Coleman brand pressure lamps and lanterns were first made in about 1905 by American, William Coleman, and their English competitor was the firm, Tilley. The Australian company Austramax began manufacturing kerosene pressure lamps in Brunswick in 1946, making the bases and the workings by hand, turning out 1000s of lamps each week. Portable lamps were used worldwide where bright light was needed and they became essential as an emergency back-up source of light for the lightstation as well as the lantern room. Through the multiplication of light by the lighthouse lenses, they could provide a tower with a 26 nautical mile range. Lamps similar to the two Point Hicks examples can be found at Gabo Island, one of which is a green enamelled Austramax lamp; Cape Nelson (Austramax), and similar lamps are held at Cape Schanck and Cape Otway. The two Point Hicks lamps have first level contributory significance for their historic value and provenance, and as representative examples of lamps that were widely used in Australian lightstations between the 1930s and 1960s.PHLS0008.1 & PHLS0008.2 Pressurised kerosene lamp, cover over glass is made of green enamelled metal.

Used for planned burning operationsPressurised Rega burner wand, with pump and pressure gaugeOlindaforests commission victoria (fcv), planned burning, bushfire, hand tools

Used for planned burning operationsPressurised burner wand, with pump and pressure gauge Adaption of a commercial garden weed burner X300forests commission victoria (fcv), planned burning, bushfire, hand tools

Perfect Cheese Company was founded in 1930 by newly-arrived Italian migrant Natale Paquale Italiano. The company specialised in traditional Italian-style cheese but also produced Greek, Cypriot and Maltese origin cheeses. The cheeses were sold in Australia and Italy with all products being matured and non-processed. The company remained in operation until the early 2000s.This cheese press is significant as it represents the machinery used by an early cheese production company.Stainless cheese press machine with three steel supports and two threaded rods will spring tension wheels to screw down to pressurise the hoops containing cheese.J & T YOUNG AYR UKallansford, perfect cheese company, avery, cheese manufacturing, dairy industry

No 102 Lanrayblow lamp, soldering, pressurised

Used for planned burning operationsPressurised Bering burner wand, with pump and pressure gauge Adaption of a commercial garden weed burner Bering Engineering Ltd we’re originally based at Doman road, Camberley in Surrey, UKforests commission victoria (fcv), planned burning, bushfire, hand tools

Hand operated pressure pump with water reservoir. High and low pressure hoses. Low pressure for filling reservoir, high pressure reinforced hose for delivering water to item to be pressurised. Brass fittings. Reservoir painted pale green and operating handle yellow & red.

Two handwritten and three typed copies of a Condensed Historical Record of Lansell's Big 180 Mine on the New Chum Line of Reef. Notes include location, shaft, first worked, size of lease, plant, engine house, boiler rooms, mullock heap, early history, Prominent, best gold, underground connections, pressurised hot water, diamond drill bores and a table with depths and the increase in temperature with the depth (in Fahr). Albert Richardson Collection. document, gold, lansell's big 180 mine, lansell's big 180 mine, condensed historical record of lansell's big 180 mine, wittscheibe, ballerstadt, ernst mueller, theodore ballerstadt, george lansell, north old chum, victoria quartz, mines dept special edition 'australian mining standard' 1/6/1899, mines dept booklet 'bendigo goldfield' 1936, quarterly reports, lansell's 180 mine 'transverse sections, annals of bendigo mining sections, a richardson's observations from old photographs and measurements of mining plans, measurements taked from caleb thomas' report mines dept 1875, 'report on observation of underground temperature at bendigo' james stirling government geologist 1899, a richardson

US Army Rogers M-1950 Stove Portable Gasoline Burner Vietnam Era Removable Hand pump set into base to pressurise fuel Maroon plastic flame control valve handle, that swings left to right through 180 degrees. Purpose built service spanner secured between burner support legs. Operating Instruction have worn off. Significant damage to Safety warning label. Still fully operational1 Gold adhesive label with Operating Instructions 1 Red adhesive label with Safety Warning under instructions

This is a vintage lighting mechanism probably dating from the 1920s. It would have been used in a household or business to provide lighting for a room. It is quite heavy so would have mostly rested on a table or ledge. It is a Petromax lantern, a brand name for a type of pressurised paraffin lamp that uses a mantle. The Petromax lantern was developed in 1910 by Max Graetz of the firm of Ehrich and Graetz of Berlin, Germany (petro= petroleum, max=Max Graetz).The Petromax lantern is still produced todayThis lantern is of antiquarian interest as an example of household lighting100 years ago.This is a lantern with a metal base, a wooden stem painted black, a metal body holding a piece of circular glass and a metal top with perforations acting as a chimney. The base has a hand pump and a removable screw cap to enable the base to be filled with paraffin. The main body has a screw holder to control the lighting and a pre-lighting mechanism and a mantle fitting inside the glass. The mantle is missing.PETROMAX No. 886 MADE IN GERMANYvintage lighting, petromax lanterns

Irons such as this were very popular prior to the widespread introduction of electricity in Australia. It was manufactured by the Tilley Lamp Company Ltd. In 1818 John and William Henry Tilley established W. H. Tilley, in Stoke Newington, London, England. During WW1 they started to use paraffin as a lamp fuel in pressurised containers. A production plant was established at Hendon, just north of London, and the first commercial lamps were produced after World War 1. During the 1920s the company diversified into domestic lamps. This expanded to other appliances such as heaters and eventually to irons. The use of paraffin or kerosene as a fuel was a much cleaner form of heat, especially when compared to older flat irons which used coal.This item is significant because it is representative of domestic appliances used in the Wodonga District prior to the introduction of electricity throughout the area.Cream coloured iron with a black Bakelite handle which attaches to the fuel tank. It has a steel sole plate. The heat of the iron is provided by a paraffin burner.On Metal plate: Model D.N. 250 Made in England British Pat. 524719 Australian Pat. 114305 On Knob at rear: ON/OFF TILLEYdomestic appliances, tilley paraffin iron, tilley lamp company ltd.

Was the stand for a Chance Brothers air & oil containers fitted with pump handle & pressure gauges.This type of installation was once common and relied on the lightkeeper having to pressurise the cylinders manually at regular intervals throughout the hours of darkness. The oil was fed under pressure to the burner mantle. It is all that remains of an air and kerosene oil tank installation, with each rounded side formerly supporting a heavy iron tank. The containers would have been fitted with a pump handle and pressure gauges. An intact assemblage is displayed in the AMSA offices, Canberra with a text that explains ‘This type of installation was once common and relied on the lightkeeper having to pressurise the cylinders manually at regular intervals throughout the hours of darkness’.The system involved vaporising kerosene under pressure and mixing it with air and then burning the vapour to heat an incandescent mantle. The use of kerosene as a fuel to light the lantern became the most common system of illumination from the 1860s after the oil industry in the United States began to develop. The kerosene vapour burner was created in 1901 by British inventor Arthur Kitson (1859-1937) and perfected by Chance Bros for burning a more intense light in their renowned lenses. The lamp had to be watched throughout the night in case a mantle broke, and the tanks needed to be maintained by hand-pumping each hour or so. The Point Hicks lantern was initially lit by a six-wick Trinity house kerosene burner. This was replaced by the more efficient and brighter 55mm vaporised kerosene mantle burner in 1905, and the tank stand is probably original to this apparatus. Electricity eventually replaced kerosene at Point Hicks in 1964 making the tank installation obsolete, and the last kerosene system in an Australian lighthouse was replaced in 1985. Gabo Island Lightstation has a pair of tanks that are not attached to the optical system and are no longer in the lighthouse. They are also missing the pressure gauges that were formerly attached to the top of each cylinder. An intact tank assemblage is displayed at the Cape Schanck Lighthouse Museum it is detached and not original to the lighthouse. Although corroded, the remnant Point Hicks tank stand has first level contributory importance to the lightstation. It is significant for its provenance and historical value as part of the Chance Bros vaporised kerosene burner introduced in 1905 to intensify the light and improve the efficiency of the system. The rusted iron stand rests on four short legs and is shaped like a pair of spectacles.

http://en.wikipedia.org/wiki/File:Tilley-storm-lantern-X246-May- Tilley storm lantern, this model has been in production since 1964 The Tilley Lamp derives from John Tilley’s invention of the hydro-pneumatic blowpipe in 1813 in England. http://en.wikipedia.org/wiki/Kerosene_lamp#Pressure_lamp Pressure lamps are far more sophisticated than wick lamps and produce a much brighter light, although they can be quite complicated and fiddly to use. This type of lamp is commonly known in the UK as a "Tilley lamp", after a manufacturer of the same name, and in North America as a "Coleman lantern" for similar reasons. A kerosene blowtorch displaying the various aspects of the kerosene burnerA pressure lamp has a fuel tank at the bottom with a small pump to pressurise the kerosene. There is a narrow gap up to the top of the lamp, called a flue, and at the top of the lamp there is a burner (gas outlet). Directly underneath the burner is the mantle, a fabric bag coated with chemicals that incandesce when heated by the gas flame. The burner lamp is known for its brightness. It is so bright because of the amount of pressure that is placed onto the wick. This pressure allows a steady flow of the gasoline and a constant light Tilley Storm Pressure Lantern, model no x246 has a stainless steel base which is filled with kerosene, with a pump used to pressurize the kerosene vapor. Under the base is a sticker.On top is a black hood with vents which sits on the glass heat resistant shade. The glass shade has an etched label. It has a white and pink mantle on the central rod with a long shaped stainless steel handle, this folds down when not in use.Base - Sticker Tilley Lamp Model X246 Etched on glass shade Tilley, Durosil, ITI, Heat Resistant. Made in Englandlantern tilley pump pressure mantle kerosene methylated spirits stainless steel lamp kerosene lamp round glass cylinder

The 1950's saw a revolution in small appliances for use in the average household. This hand held self heating(kerosene) iron was introduced as a time saving and more convenient iron for pressing clothes and other cloth fabrics. It replaced irons needing a separate fire source to heat the ironing plate. These irons continued to be in service, even when electricity was available in cities and larger rural towns (domestic electric steam irons were invented in 1938). This item was used before and during the electricity supplies available from the Kiewa Hydro Electricity Scheme. These irons remained in use within regional rural areas that had limited or unreliable electrical reticulation.In the 1950s and later the Kiewa Valley was still a relatively isolated region which was home to rural properties and small settlements. The availability of electricity and or the financial means to afford new types of electric hand irons ensured that older and sometimes less efficient ironing remained for an extended period covering the 1960s to 1970s. Kerosene products, such as this kerosene iron was a cheaper method for farm based domestic and other rural activities requiring a heat source. The use of kerosene as a heat/light source was able to be supplied in bulk and able to be used when floods severed vital roads into this region. The supply of electricity was in summer time subject to interruption from bush fire damaged wooden poles carrying the electrical cables. Self sufficiency by rural populations was the backbone of survival and the ability to store energy sources "on the farm" was a prerequisite of isolated regions, such as the Kiewa Valley, circa 1950s.This Coleman kerosene iron has a solid steel chrome plated(press) base with a painted (blue) wooden handle. The handle is stud fastened onto an oblong shaped rolled steel handle frame and screwed (two screws) onto the base plate. Both the heating plate and the top securing plate are shaped similar to a river boat. The main housing enclosing the heating element is enamel coated(blue in colour) steel and has a half hole for lighting the kerosene at the rear end. Behind the handle and protruding upwards is a stainless steel fully enclosed container (bowl shaped) for the main supply of kerosene to the burner or generator(enclosed within the main body of the iron. The bowl has an air valve and inlet for pressurised air intake (hand pump) On the bottom rear of the fuel bowl there is a screw regulated fuel pump. The fuel heated base plate provides the heat for this advertised "self heating iron(instant lighting). See KVHS 0347B- Instruction sheet; KVHS 0347C- Wrench; and KVHS 0347D Fuel can.Stamped on the base plate of the handle, front region "COLEMAN LAMP & STOVE CO." below this "WICHITA KAN" below this"TORONTO CAN". In the middle of the handle base and in larger print "COLEMAN Instant-Lite" At the rear location in large print "MODEL 4" in smaller print below "MADE IN U.S.A." below this "PAT#1718473"household appliances, alternative non electrical ironing appliances, domestic appliances, kerosene appliances

This soda syphon (or siphon) was distributed by John Fletcher of Warrnambool, and made by the British Syphon Mfg. Co. Ltd. of London between the 1900s-1930s. It comprises a multi-sided clear glass bottle, an internal glass tube and a metal release valve and spout on the top. It was used to dispense pressurised, effervescent soda water. It was often used as an alternative to water or added to fruit juices and cordials. The text on this bottle states that it remains the property of the retailer, John Fletcher, and must be returned to him. Customers were asked for a deposit on the bottle, which would be refunded when the bottle was exchanged or continued as the deposit on a fresh bottle. Returned bottles would be cleaned and recharged with the gas and sold again. Soda syphon are bottles, glass or metal, with a release valve and spout on the top. The valve lever on the top of the syphon, when depressed, causes the gas in the syphon to force the water up through the tube and out of the spout. The bottle’s mechanism gives the water an effervescent quality to make bubbly drinks such as sparkling mineral water, soda water and sparkling water. ABOUT JOHN FLETCHER John Fletcher bought the Union Cordial Factory in Koroit Street, Warrnambool that was previously owned by John Davis. Fletcher operated the factory as J Fletcher, John Fletcher and Fletcher’s. He eventually sold his business and stock in 1930 to Ralph Reeves, who may have continued using Fletcher’s supply of drink containers before renewing them with stock showing his own brand. The soda syphon is representative of drink containers used in the later 19th and early 20th century. It also represents the system of returnable, recyclable containers. Soda syphon (or siphon). Glass bottle, clear, multi sided, tapered from a heavy glass base to a narrower shoulder, with glass tube at centre connected to metal pump mechanism at the top. Has elaborate frosted label for J. Fletcher of Warrnambool. Made by the British Syphon Mfg. Co. Ltd. London. Bottle remains the property of John Fletcher, Warrnambool.Metal syphon has impressed "J FLETCHER" and logo "S S" in centre of two concentric circles with text between circles "BRITISH SYPHON MFG. CO. LTD. LONDON". Etched into glass "J. FLETCHER / WARRNAMBOOL", "TRADE "[stylised] F" / MARK", "SODA WATER", "THIS SYPHON IS THE PROPERTY / OF JOHN FLETCHER / WARRNAMBOOL AND CONNOT BE / AND CONNOT BE LEGALLY USED BY OTHERS / BRITISH SYPHON CO. TLD. LONDON / - - - - "flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, john fletcher, fletcher, john fletcher of warrnambool, soda siphon, soda syphon, british syphon mfg co ltd of london, soft drinks, soda drinks

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

The Aerial Drip Torch (ADT) was an idea conceived in Canada in the 1970s by John Muraro It was developed in 1982 by the New Zealand Forest Service to become the Ashley Aphid Helitorch. Forestry Tasmania acquired one of the machines and modified it in February 1987. Also known as a dragon helitorch it consisted of a large 135-litre tank containing jellied petrol, a displacement pump, propane ignition system, burner nozzle and fire extinguisher system. It was first trialled in Victoria at Swifts Creek in 1991 and the Aerial Drip Torch (ADT) has now become standard practice.Two Aerial Drip Torches (ADTs) were built in the 1990s by the Fire Equipment Development Centre at North Altona, They were developed in conjunction with the Department of Conservation and Land Management in Western Australia. The first was trialled during the 1991/92 autumn burning season. The machine proved to be successful and a second machine was introduced in 1998 to assist with burning operations across the State. The ADTs were commonly used for regeneration burning (controlled burning of logging slash). The first ADT introduced in 1992 had a dry weight of 160kg and a capacity of 130 litres, providing about an hour of operation. Following initial use, systematic modifications were adapted including improved ignition of gel at the drop tube, installation of an air bleed valve at the pump to assist pump priming and improved mounting brackets for the CO2 bottles and propane canister attached to the machine. The second, and lightweight ADT, introduced in 1998 had a dry weight of 68kg and a capacity of 200 litres due to a smaller lightweight frame and plastic (Polyfin) tank. In operation the ADT is suspended below a helicopter via four strops attached to the vessel and a cable to the helicopter cargo hook. Gelled fuel is dispensed via a drop tube which is attached to the pump outlet of the machine, and ignited via a gas torch. Safety features built into the first ADT were: a brass melting plug designed to be activated at 200 C bursting disc designed to burst at170 Kpa should the vessel over pressurise. a pressure relief valve set to 35 Kpa ( vessel operated between 16 &34 Kpa) a low pressure sensor designed to shut down the machine should the vessel pressure drop below 15Kpa. the vessel is filled with CO2 above the gelled fuel to eliminate ignition with in the vessel. CO2 is used to expel any residue of ignited gel from the drop tube to prevent ignition when flying outside the boundaries of the burning area. See FIRE EQUIPMENT NOTE - 46 [ https://drive.google.com/file/d/1CKtcH-3rUlrtbE9dkNP27PYT2-raVVhF/view ]forests commission victoria (fcv), bushfire, bushfire aviation, planned burning

Queen Victoria was born at Kensington Palace, London, on 24 May 1819. She was the only daughter of Edward, Duke of Kent, the fourth son of George III. Her father died shortly after her birth and she became heir to the throne because the three uncles who were ahead of her in the succession - George IV, Frederick Duke of York, and William IV - had no legitimate children who survived. Warmhearted and lively, Victoria had a gift for drawing and painting; educated by a governess at home, she was a natural diarist and kept a regular journal throughout her life. On William IV's death in 1837, she became Queen at the age of 18. Queen Victoria is associated with Britain's great age of industrial expansion, economic progress and, especially, empire. At her death, it was said, Britain had a worldwide empire on which the sun never set. In the early part of her reign, she was influenced by two men: her first Prime Minister, Lord Melbourne, and then her husband, Prince Albert, whom she married in 1840. Both men taught her much about how to be a ruler in a 'constitutional monarchy, in which the monarch had very few powers but could use much influence. Albert took an active interest in the arts, science, trade and industry; the project for which he is best remembered was the Great Exhibition of 1851, the profits from which helped to establish the South Kensington museums complex in London. Her marriage to Prince Albert produced nine children between 1840 and 1857. Most of her children married into other Royal families in Europe. Edward VII (born 1841), married Alexandra, daughter of Christian IX of Denmark. Alfred, Duke of Edinburgh and of Saxe-Coburg and Gotha (born 1844) married Marie of Russia. Arthur, Duke of Connaught (born 1850) married Louise Margaret of Prussia. Leopold, Duke of Albany (born 1853) married Helen of Waldeck-Pyrmont. Victoria, Princess Royal (born 1840) married Friedrich III, German Emperor. Alice (born 1843) married Ludwig IV, Grand Duke of Hesse and by Rhine. Helena (born 1846) married Christian of Schleswig-Holstein. Louise (born 1848) married John Campbell, 9th Duke of Argyll. Beatrice (born 1857) married Henry of Battenberg. Victoria bought Osborne House (later presented to the nation by Edward VII) on the Isle of Wight as a family home in 1845, and Albert bought Balmoral in 1852. Victoria was deeply attached to her husband and she sank into depression after he died, aged 42, in 1861. She had lost a devoted husband and her principal trusted adviser in affairs of state. For the rest of her reign she wore black. Until the late 1860s she rarely appeared in public; although she never neglected her official Correspondence, and continued to give audiences to her ministers and official visitors, she was reluctant to resume a full public life. She was persuaded to open Parliament in person in 1866 and 1867, but she was widely criticised for living in seclusion and quite a strong republican movement developed. Seven attempts were made on Victoria's life, between 1840 and 1882 - her courageous attitude towards these attacks greatly strengthened her popularity. With time, the private urgings of her family and the flattering attention of Benjamin Disraeli, Prime Minister in 1868 and from 1874 to 1880, the Queen gradually resumed her public duties. In foreign policy, the Queen's influence during the middle years of her reign was generally used to support peace and reconciliation. In 1864, Victoria pressed her ministers not to intervene in the Prussia-Denmark war, and her letter to the German Emperor (whose son had married her daughter) in 1875 helped to avert a second Franco-German war. On the Eastern Question in the 1870s - the issue of Britain's policy towards the declining Turkish Empire in Europe - Victoria (unlike Gladstone) believed that Britain, while pressing for necessary reforms, ought to uphold Turkish hegemony as a bulwark of stability against Russia, and maintain bi-partisanship at a time when Britain could be involved in war. Victoria's popularity grew with the increasing imperial sentiment from the 1870s onwards. After the Indian Mutiny of 1857, the government of India was transferred from the East India Company to the Crown, with the position of Governor-General upgraded to Viceroy, and in 1877 Victoria became Empress of India under the Royal Titles Act passed by Disraeli's government. During Victoria's long reign, direct political power moved away from the sovereign. A series of Acts broadened the social and economic base of the electorate. These acts included the Second Reform Act of 1867; the introduction of the secret ballot in 1872, which made it impossible to pressurise voters by bribery or intimidation; and the Representation of the Peoples Act of 1884 - all householders and lodgers in accommodation worth at least £10 a year, and occupiers of land worth £10 a year, were entitled to vote. Despite this decline in the Sovereign's power, Victoria showed that a monarch who had a high level of prestige and who was prepared to master the details of political life could exert an important influence. This was demonstrated by her mediation between the Commons and the Lords, during the acrimonious passing of the Irish Church Disestablishment Act of 1869 and the 1884 Reform Act. It was during Victoria's reign that the modern idea of the constitutional monarch, whose role was to remain above political parties, began to evolve. But Victoria herself was not always non-partisan and she took the opportunity to give her opinions, sometimes very forcefully, in private. After the Second Reform Act of 1867, and the growth of the two-party (Liberal and Conservative) system, the Queen's room for manoeuvre decreased. Her freedom to choose which individual should occupy the premiership was increasingly restricted. In 1880, she tried, unsuccessfully, to stop William Gladstone - whom she disliked as much as she admired Disraeli and whose policies she distrusted - from becoming Prime Minister. She much preferred the Marquess of Hartington, another statesman from the Liberal party which had just won the general election. She did not get her way. She was a very strong supporter of the Empire, which brought her closer both to Disraeli and to the Marquess of Salisbury, her last Prime Minister. Although conservative in some respects - like many at the time she opposed giving women the vote - on social issues, she tended to favour measures to improve the lot of the poor, such as the Royal Commission on housing. She also supported many charities involved in education, hospitals and other areas. Victoria and her family travelled and were seen on an unprecedented scale, thanks to transport improvements and other technical changes such as the spread of newspapers and the invention of photography. Victoria was the first reigning monarch to use trains - she made her first train journey in 1842. In her later years, she became the symbol of the British Empire. Both the Golden (1887) and the Diamond (1897) Jubilees, held to celebrate the 50th and 60th anniversaries of the Queen's accession, were marked with great displays and public ceremonies. On both occasions, Colonial Conferences attended by the Prime Ministers of the self-governing colonies were held. Despite her advanced age, Victoria continued her duties to the end - including an official visit to Dublin in 1900. The Boer War in South Africa overshadowed the end of her reign. As in the Crimean War nearly half a century earlier, Victoria reviewed her troops and visited hospitals; she remained undaunted by British reverses during the campaign: 'We are not interested in the possibilities of defeat; they do not exist.' Victoria died at Osborne House on the Isle of Wight, on 22 January 1901 after a reign which lasted almost 64 years, then the longest in British history. Her son, Edward VII succeeded her. She was buried at Windsor beside Prince Albert, in the Frogmore Royal Mausoleum, which she had built for their final resting place. Above the Mausoleum door are inscribed Victoria's words: "Farewell best beloved, here, at last, I shall rest with thee, with thee in Christ I shall rise again." Source: https://www.royal.uk/queen-victoria This picture captures Queen Victoria in her later years. It may well have been painted to commemorate her Golden Anniversary in 1887, or her Diamond Anniversary in 1897.Picture, print, reproduction of a drawing or photograph of Queen Victoria. She is wearing a dark-coloured dress, white headdress and a diamond necklace and earrings. On her left shoulder is the Royal Order of Victoria and Albert, awarded to female members of the British Royal Family and female courtiers. There are four grades or classes of this Royal Order as well as the Sovereign's Badge, which is exclusive to her. Also across her left shoulder, is a blue riband representing the Order of the Garter. The picture is in a medium-coloured timber frame with a white string across the width at the rear. The label says it was framed by Hoy Art, Warrnambool. The signature of the Queen is on the picture but is not obvious since the picture has been re-framed."HOY ART / PICTURE FRAMING / 48 Kepler St, Warrnambool 3280 / Phone (055) 62 8022" Signature (hidden by new framing) "Victoria H.R.S."flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, picture of queen victoria, queen victoria, the royal order of victoria and albert, the order of the garter, hoy art

DHC-4 Caribou light transport The Royal Australian Air Force DHC-4 Caribou was a versatile tactical light transport aircraft . Its main operational role was tactical air transport in support of the Australian Army. The Caribou was last operated by No 38 Squadron from RAAF Base Townsville in December 2009. The Caribou is a twin-engined high-wing monoplane with full-span double-slotted Fowler flaps and fully-reversible propellers, which allow it to achieve its trademark steep approach with very short take-offs and landings on unprepared runways. The high wing and distinctive high placement of the tail provide easy access to a large cargo compartment, while the low-pressure tyres permit operation on unprepared runways. It was the last piston-engined aircraft in the Air Force and was our only aircraft to employ the Low Altitude Parachute Extraction System (LAPES), where up to 2000kg of sled-mounted cargo is extracted from the aircraft by a parachute from a metre above the ground. The Caribou is equipped with GPS satellite navigation and night-vision equipment, giving it the capability to operate in any weather, day or night, to either land or drop soldiers and equipment by parachute with pinpoint accuracy. The Caribou is not pressurised and is not fitted with auto-pilot or weather radar. The first Caribou arrived in Australia in April 1964 and they were deployed to Vietnam from July 1964 to February 1972 and carried over 600,000 passengers and a huge quantity of cargo while they were there. Since 1997 the Caribou participated in famine-relief operations in Papua New Guinea and Irian Jaya during Operations SIERRA, PLES DRAI and AUSINDO JAYA, as well as the tsunami-relief operation in PNG in 1999 and operations in East Timor and the Solomon Islands since 1999. Their service life was over 40 years. raaf caribou aircraft