The period when kerosene was extensively used for indoor lighting was before electrical reticulation was installed in rural areas. In remote areas this was up to the mid 1900's. The kerosene lantern however was still in use, for camping and outdoor activities, well beyond this period and was eventually replaced by LPG and battery powered lighting. The transition phase to "modern" outdoor and domestic lighting lingered on the rural areas where the electrical reticulation suffered from reliable constant supply.In the Kiewa Valley, being a rural region, had reliable electrical domestic and farm supply only after the Kiewa Hydro Electricity Scheme had been fully operational. The supply was relative to how close the homestead was to the major electricity substation. This kerosene lamp was in use during the period when it was the only reliable source of domestic night time lighting. The strength of refractive light produced by this lantern/lamp hinged upon the size of the lamp(wick and glass bowl). The small size of this lamp suggests that it was for use in a small room(children's bedroom) or as providing a light for a safe walk to the outside ablutions (toilet) area. This small kerosene lamp has an enclosed "cup" body which would have contained the kerosene fuel. The top wick holder, made from brass, has an extended enclosed spout which raises the wick approximately 20mm from the bottom of the holder. The wick holder screws into the the top of the kerosene reservoir bowl and has a wick adjustment screw (light control) at one side. The small white glass light reflector bulb nestles securely onto the wick holder and is kept snug by snap designed extending "fingers". The section between the bottom of the refractive glass "light" bowl and the top of the kerosene bowl has perforations to allow air passage to feed directly to the wick.The light refracting bulb is open at the top to allow heat and smoke from the burning wick to escape upwards.On the wick control screw "CWB BRITISH MADE"kerosene reading lamp, domestic lighting, bedside light

In the days before battery powered torches many used a slush lamp to provide the light they needed to carry out their duties. It held a flammable liquid like paraffin. When the wick was lit the slush lamp provided sufficient light.Slush lamps were designed to be carried around but they could be dangerous because they have flame as a source of light. This is an example of a portable lighting device in common usage before the use of batteries.A black metal slush lamp with two glass panels and a stock. At the back is a hinged door. There is a hole on top caused by rust or being burned through. Kerosene or oil was probably the fuel used.On top of light - Serial No 339220slush-lamp lighting kerosene oil

This item is an example of a lighting device used before electricity and battery power were widespread.A small brass Elfin Reflector Night kerosene lantern with a reflector plate at the back. A handle runs around the middle. It has a small canvas wick. The glass is missing.On top of fuel tank-ELFIN REFLECTOR NIGHT LAMP On back-MADE IN U.S.A. BY EDWARD MILLER & CO USA On wicker winder (left) -E. MILLER -CO.U.S.A.lamp lantern kerosene oil lighting miller-edward

This slush lamp was used in the Newmerella Bakehouse ( Sederlan's Bakery) before electricity was connected. In the days before battery powered torches many used a slush lamp to provide the light they needed to carry out their duties. It held a flammable liquid like paraffin. When the wick was lit the slush lamp provided sufficient lightSlush lamps were designed to be carried around but they could be dangerous because they have flame as a source of light. This is an example of a portable lighting device in common usage before the use of batteries.A cast iron slush lamp. It is a a crude lamp or burning slush, tallow, or grease.It is a jug shaped container on a shallow dish that holds the fuel and a wick that draws the fuel by capillary action. There is some burnt hessian impregnated with fat. lighting lamp-slush newmerella-bakehouse

This book was owned by Alf Gresham Johnston who was a former SMB mining student from the Ballarat School of Mines. He died at the age of 29 during military service in South Africa. The following is from the Federation Uni Honour Roll at http://federation.edu.au/about-us/our-university/history/geoffrey-blainey-research-centre/honour-roll/j/alfred-gresham-johnston-1872-1901 The October 1901 Ballarat School of Mines (SMB) Students Magazine reported 'Alf. Johnston's gone. The news came as a shock to all of us at the school. He who was with us a few short months ago, in all strength of sturdy manhood, has met a soldier's death in South Africa, and we sincerely mourn his loss…. His heart was in the school, and he did his best to further its interests … His last act on leaving Australian shores was to send a telegram from Albany to Prof. Mica Smith, to whom he was warmly attached, wishing the School and all connected with it "Good-bye". In his short, all to short, life of 29 years, he had more adventure than falls the lot of most men, and possibly the spirit of adventure, and also, of duty, prompted him to throw in his lot with the "colors," and leave for the front. The news of his death comes to us with added weight of sadness when we remember that he was one of the organisers of the School entertainment last year to help swell the fund for the erection of a statue to fallen Victorian soldiers.'A small red book with a double black line bordering the front cover, with the text Longmans Elementary Science Manuals on the bottom of the cover. On the back cover is an L&Co logoOn the title page is the inscription of the original owner of the book Alf G Johnston School of Mines Ballarat 1899. Inside the front cover and on page 19 is the stamp of the School of Mines Ballaratalfred johnston, steam engine, compound engines, condensers, heat, horse-power, transfer of heat, combustion of fuel, saturated steam, cranks and crank shafts, watt governor, boilers, alf johnston, william ripper, boer war

In the foreword the Chairman and General Manager, W.H. Connolly, wrote: "Australia's progress since the Second World War has been remarkable - and nowhere more so than in Victoria. Although the smallest pf the mainland States, Victoria is today the most highly industrialised, the second most populous and the most rapidly developing State in the Commonwealth. Many factors have contributed to this growth, bu the one of greatest importance is the vast wealth of easily extractable brown coal in the Latrobe Valley which is the source of Victoria's electricity and a major part of its solid fuel. ... "White and green soft covered book of 34 pages with black & white and coloured illustrations. The book includes starts with an historical section, and includes information the open cut, Yallourn Power Station, Yallourn Briquette Works, the town, Morwell Open Cut, and includes a map of the Latrobe Valley Brown Coal resources.yallourn, connolly, open cut, power station, kernot, coal, briquette, lyle, monash, yallourn open cut, yallourn power station, yallourn briquette works, morwell open cut, hazelwood, brown coal, gippsland, horses, turning sod

This little steam boiler has been beautifully built. It could have been used to drive an engine in a small workshop, a boat or launch, or even farming equipment. It is an example of the steam technology and mechanisation of the 19th century. William Cook introduced steam heating in England in the 18th century. Steam combined with pressure was used for powering transport, such as steam engines for trains, and manufacturing, such as steam engines driving manufacturing machines. Steam boilers are still used today as an energy-efficient means of power.This steam boiler would have been suitable to drive a small engine, possibly that of a small boat. Coal was added to the firebox for fuel to heat water in the boiler. It is an example of the power used to drive machinery and equipment in the mid-to-late 19th century. Steam boilers like this one have played a part in the evolution of steam power. Steam engine boiler; vertical cylindrical coal-fired boiler with a black firebox at its base and a dome top. The cylinder's sides and top have brass fittings, inlet and outlet taps. A round opening near the base is covered by an adjustable metal plate that controls the boiler's temperature. The front door of the firebox has two hinges at the base and when the side clips are opened. A shiny brass collar tops the tall chimney. Oak wood planks around the sides of the boiler, and held in place by brass bands with nut and screw fixtures. The boiler stands on a metal and wood frame with a looped handle at the back. An inscription has been noted. Circa 1880. "1948 D/430" flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, boiler, steam engine, steam boiler, coal fired boiler, vertical boiler, boat boiler, power source, steam driven, engine boiler, steam machine, firebox, steam engine boiler

Worker on a white tip truck leaning out of the window, black dog can be seen at bottom centre of the photo, Power pole on left side with metal tag attached, orange power cable also attached to post.Kodakorganisation, industry, gas and fuel

Typed article titled Bendigo, The Heart of Victoria. Items mentioned are Location, Area of Bendigo, The People, Work Force, Industrial Base, natural Resources, Agriculture and Livestock, Minerals, Forests, Rail and Road, Sea and Air, Power and Water, Electricity, Natural Gas, Water, Sewerage, Industrial Land, Services, Community Services and Facilities, Educational Facilities, Hospitals, Culture and Tourism and Media.document, bendigo - the heart of victoria, city of bendigo, borough of eaglehawk, shire of huntly, shire of marong, shire of strathfieldsaye, bendigo development committee, department of agriculture, department of state development decentralization and tourism, state electricity commission, gas & fuel corporation of victoria, state rivers & water supply commission, bendigo sewerage authority, the bendigo college of advanced education, home and hospital for the aged, home for the blind, northern school of nursing, art gallery, historical society, dudley house, sun loong, central deborah gold mine, the vintage talking trams and transport museum, bcv8, the bendigo advertiser, golden city gazette, 3bo, 3cv, mr a j kelly

The Lister Auto-Truck was a small monowheel tractor built for moving light loads around factories, railway yards and similar sites. They were built by R A Lister and Company of Dursley, Gloucestershire, well known for their range of small stationary engines The Auto-Truck was one of several monowheel tractors to appear in the 1920s and '30s, with the availability of small, reliable petrol engines, as developed for motorcycles and the stationary engines for which Lister were already known. These were tricycle vehicles, with the single leading wheel used for both drive and steering. Their simple construction carried most of the mechanism on this wheel as a single unit, the chassis with the trailing wheels being little more than a trailer for balance. Simplicity was a key feature. The engines were single-cylinder and air-cooled. Ignition was by magneto, rather than requiring a battery and electrical system. One of these designs was produced in the 1920s by George Grist of the Auto Mower Co., Norton St Philip, Somerset. The engine was a JAP 600 cc four-stroke air-cooled sidevalve, a typical small engine of the time. The Auto Mower Co. were Lister agents and when Lister heard of this 'Auto-Truck' they bought one for use in their own factory. It was used to carry heavy engine castings from the foundry to the machine shop. Lister customers saw them and there was such interest in wanting to buy them that Lister negotiated with Auto Mower to build them under licence. Although Lister were already well known for their small petrol stationary engines, these were heavy cast-iron engines with water hopper cooling and unsuitable for vehicle use. Lister remained with the JAP engine for the Auto-Truck. The Auto-Truck was designed for use in factories or other places with smooth surfaces of concrete or tarmac. This allowed the use of small solid-tyred wheels with only simple suspension, making the vehicle simple, cheap and lightweight. They had little ability on soft surfaces though and could even topple over if driven carelessly across slopes. Their design was a compromise between the top-heavy nature of the tall engine grouping above its wheel and a well thought-out chassis for stability. The bearing between them was a large diameter ring roller bearing, mounted at the lowest part of the chassis. This gave rigidity and stability, even after long wear. A ring of rolled channel girder was attached to the engine group and rollers on the chassis carried the load upon this. On early Auto-Trucks this bearing is set very low, in line with the chassis members, and is covered by thin steel plates. The front panel of the engine cover is distinctive with large ventilation holes and a Lister signature cut through it. Strangely this panel is made of thick cast iron, providing substantial weight high on the engine and only adding to its top heaviness. To improve visibility of moving vehicles in noisy factories, this panel was often painted white, the rest of the vehicle being Lister's usual brunswick green. The driver was seated on a Brooks bicycle saddle, which in recognition of the lack of vehicle suspension, was carried on the end of a cantilevered bar that acted as a leaf spring. A wide handlebar on the engine group was used for steering. A squeeze bar the width of this handlebar engaged the clutch. Controls included a hand throttle, a gear lever with two forward and one reverse gears, and a large handbrake lever. The engine unit rotated freely for a full 360° rotation. When used in reverse, the Auto-Truck could either be driven from the saddle, looking backwards over the driver's shoulder; or they could dismount, swivel the engine unit around and control it as a pedestrian-controlled truck from behind. Under the engine cover were two equal diameter tanks, a fuel tank for petrol and a shorter oil tank. Engine and chain-drive lubrication used a total-loss oil system, controlled by a small pump and needle valve. Info Ref: Lister Auto-Truck - Wikipedia https://en.wikipedia.org/wiki/Lister_Auto-TruckHistoric - Industrial monowheel tractor for moving light loads around factories, railway yards and similar sites.The Lister Auto-Truck - small monowheel tractor Made of steel with three wheels. Powered by a J.A.P single cylinder petrol motor which is Hand Cranked to start.Lister puffing billy, lister, lister auto truck, monowheel tractor

WARM was a community textile art project that saw over 250 knitters come together to create a beautiful collage tapestry. Made entirely from wool, the artwork contains more than 1000 individual hand knitted sections. The project takes aim at global warming, it highlights both the causes and solutions for us to create a sustainable and safe climate for future generations. Lisa Kendal, the co-creator of the project, said “One of the problems in the world is that we have forgotten how to warm ourselves with wool. We have become too dependent on fossil fuels (for heating)”. This is the key idea surrounding the project. WARM began as two large scale images created by Lars Stenberg. The first image is a landscape scarred by coal mining. The second image is the same landscape only many decades later. Regeneration and regrowth have taken over the landscape and hidden the past coal mine completely. In its place is a beautiful landscape including trees, native flowers, a lake, lots of greenery and wind turbines. From March to the end of August in 2016, knitters worked hard to create the over one thousand pieces that came together to form the final tapestry. The pieces were all designed by Fibre Artist Georgie Nicolson of Tikki Knitting Designs, who converted the second image of the healed landscape into patterns for the 250 plus knitters to follow. These patterns included unusual designs such as gum leaves, trees, native flowers and even the wind turbines. During several days of installation, the knitted pieces were stitched together by Lars Stenberg over a picture of the first image of the operational coal mine. They worked to create the second image of the renewed landscape; like an enormous collage. The WARM project was donated to the National Wool Museum in 2021. It was a much-loved hanging within the Ballarat Hospital for many years before coming to the museum. More information about the project can be found on the following website. http://www.seam.org.au/warm The tapestry is made from 1000+ hand knitted sections stitched together to make an image. In the foreground of this image is a large gum tree that stretches from the bottom left to the top right corner. The trunk of this tree follows the left edge of the tapestry, with foliage from the gum tree spanning its top border. The bottom third of the tapestry is predominantly green grass with yellow, pink and red flowers providing sporadic colour. The middle third encompasses a lake, with orange colours surrounding the banks of the water as opposed to the green grasses of the bottom third. To the right of the lake are wind turbines. The top third of the tapestry is blue sky with white clouds. It also contains the previously described gum tree leaves. Each piece of the tapestry is 100% wool and was hand knitted and stitched together. The Tapestry is accompanied by an oil painting on canvas. It is a painting that matches the tapestry and served as a template for the final tapestry. Finally, the tapestry is accompanied by another pointing on wood board. This final panting is of a coal mine. This is the setting before regeneration and regrowth have reclaimed this site, which is the theme captured in the final tapestry. In the foreground of the coal mine painting is the same gum tree described in the tapestry; however, it is grey and sickle with only 4 leaves visible at the top border, compared to the numerous leaves in the tapestry. Also in the foreground is a broken barb wire fence adding to the unwelcoming nature of the site. The colour scheme of this image is of dark greys and browns. A coal fired power plant can be seen in the final third of the image with four chimneys emitting plumes of smoke into the sky. In front of this power plant is the spiral shape of a coal mine, burrowing deep into the earth’s crust. Inside of the coal mine 3 yellow trucks are seen mining and transporting coal to the top of the mine.warm, community textile tapestry, knitting, community artwork, global warming

A steam boiler like this late 18th century boiler, is often called a colonial boiler. Steam boilers were used in factories throughout Australia, mounted over similar designs of brick furnaces. This heat from the fire travels through the tubes in this fire tube boiler and the water heats as it circulates around them. Another kind of boiler is a water tube boiler, in which the water is inside the tubes and the heat of the combustion surrounds the tubes. The boiler in our collection burned wood as fuel but others of this design could also burn coal, coke, gas and liquid fuels. The boiler was made by T & F Johnson, boilermakers. In 1922 their factory was located at Coventry Street, South Melbourne. They were still advertising their 'Colonial, multi, vertical boilers, all sizes' at the same address in 1934. The connected pressure gauge, made in London by Dewrance, measures 0 to 400 pounds per square inch. John Dewrance is renowned as a pioneer of the steam locomotive in the early 19th century. He founded John Dewrance & Co. in South London in 1844. His son Sir John Dewrance took over in 1879. In 1939 the company became a subsidiary of Babcock & Wilcox, and was eventually owned by Emerson. How the boiler works: - A boiler is about two-thirds filled with water and heat is applied, in this case in the form of burning wood. The heat is transferred through the metal of the boiler to the water. When the water boils the steam rises to the top, and as it escapes from the boiler the steam pressure builds up in the steam space to later be released to do work; drive machinery such as ship and train engines, turbines, presses, wheels, and driving belts to operate looms and saws. The heat associated with the boiler can be used for preserving food, sterilising, factory manufacturing processes, and steaming wood for shipbuilding. Every boiler has several components fitted for safe operation: - - Safety valves - Gauge glass - Pressure gauge - Main steam stop valve - Water check valve - Blowdown valve - Manhole doorThe boiler is a significant item that gives us a snapshot of early Melbourne's industrial history. It is an example of the technological advancement during the Industrial Revolution where steam-driven machinery and motors could perform tasks more efficiently than manual labour. The makers were one of many boilermaker businesses in Melbourne during the early late-19th andearly 20th centuries. The maritime trade and skills of boilermaking are still learned and applied today. The Dewrance steam pressure gauge connected to the boiler was made by the London firms foundered by John Dewrance. He was renowned for developing the steam locomotive in the early 19th century.Boiler; a horizontal cylindrical underfired steam boiler. It is a multi-tubular design and is timber plank-clad, with brass fittings and pressure gauges. The boiler has an iron door at one end with a metal chimney above it. It is installed over a brick-enclosed solid fuel furnace. Two large, wood-mounted pressure gauges are connected to the boiler and have inscriptions. An inscription is on a red, cast iron plaque above the boiler door. The boiler's maker is T & F Johnson, South Melbourne. One of the pressure gauges was made by Dewrance, London..Maker's plate: "T & F JOHNSON / BOILERMAKERS / SOUTH MELBOURNE" Pressure gauge: "POUNDS PRESSURE / PER [square] INCH / DEWRANCE LONDON"flagstaff hill, warrnambool, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, boiler, multi tube boiler, steam boiler, steam technology, underfired boiler, horizontal boiler, timber clad boiler, steam power, industrialisation, boilermakers, south melbourne, dewrance, john dewrance, pressure gauge, dewrance pressure gauge, t & f johnson, london, steam engine, steam locomotive, pounds per square inch, 19th century, steam machine, johnson tyne foundry, colonial boiler, fire tube boiler