Graham Beanland's logbooks for the Electrical Branch Hydro-Design Section. Beanland was later the Principal of the Ballarat School of Mines. Four foolscap books with handwritten notes. .1) includes Richmond Power Station, Midworth Statino Load Indicator Transmitter, Thomastown Experimental Line (220v), The story of Richmond, Power factor curves, dryout of 6.6. KV motor, etc .2) Pressure Tests at Mt Waverly Pump Station, Shunt capacitor Bank for Bendigo, Shepparton Main Substation, Boronia Level Crossing - Supply continuity. commissioning Warragul Main Sunstatin, Tests carried out on Sedgewick installation, Bendigo Main Substation, MMBW Instalation at McVeighs, The South-Western Story, etc .3) History of Kiewa Hydro Scheme, Kiewa Scheme Layout Plan, Kiewa No. 4 Main Transformers, Motor operatied Power-Station lift, etc (included flyers "Power From Kiewa" and "White Coal", etc .4) Newport B and C Power Station, Yarraville Maintenance Workshops, Richmond and Brusnwick Terminal Stations, Rubicon-Eildon Area, Kiewa No.3 Power Station, etc.graham beanland, electricity, kiewa power station, newport power station, yarraville, richmond terminal station, brunswick terminal station, white coal, coal, boronia level crossing lights

Federation University VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree – on the basis of extensive work experience and knowledge..1 Black framed advertisement with grey border,1995. A black and white photo of two coal miners adjacent to a heading "To the coal industry, safety is paramount" - white writing on a red background The advertisement is aimed at the coal industry promoting VIOSH at the University of Ballarat .2 Black framed advertisement with grey border,1995. A black and white photo of two coal miners adjacent to a heading "To the coal industry, safety is paramount" - white writing on a red background The advertisement is aimed at the coal industry promoting VIOSH at the University of Ballarat .3 Black framed advertisement with grey border A black and white photo of a man loading boxes onto a Qantas aircraft next to white writing on a red background - "their reputation may spread across the world" The advertisement is aimed at industry promoting VIOSH at the University of Ballarat .4 Black framed advertisement with grey border, 1995 A black and white photo of a man loading boxes onto a Qantas aircraft next to white writing on a red background - "their reputation may spread across the world" The advertisement is aimed at industry promoting VIOSH at the University of Ballarat .5 Black with gold line framed news article including a black and white photograph,1996. Blue with orange lined mount board. Article titled "A network of OHS news and ideas Subtitle "new identity reflects expanding regional role. The 1st edition of VIOSH Australia News. .6 Black with gold line framed news article including a black and white photograph, 1996. Blue with orange line mount board. Article titled "Grad Dip gets a major refit for 1997" Subtitle - "Course graduates well satisfied" .6 Framer - unknown. Job description attached to verso with tape Markings Framers details verso lls: "Artafact"viosh, viosh australia, occupatonal health and safety, viosh australia graduate diploma, environment systems, hazard controls, occupational health and safety management, anne taylor, robin hood, protector safety travel bursary 1996, viosh australia advertising, university of ballarat advertising, coal mining occupational health and safety, steve cowley, ashok nath, viosh asia pacific, viosh fiji

This photo shows the large mining cavity with a hydraulic sluicing machine in operation at Baarmutha Three Mile Mine, Beechworth . The Beechworth Mining District was one of six mining districts established by the Governor-in-Council on 4 January 1858 under the provisions of An Act for Amending the Laws Relating to the Goldfields (21 Vic no.32). The District was further divided into seven divisions: Spring Creek, Snake Valley, Three Mile Creek, Buckland, Woolshed, Yackandandah and Omeo. The boundaries of each of these divisions and of the whole district are described in the Governor-in-Council's proclamation printed in the Government Gazette, 5 January 1858, pages 3-5. Hydraulic mining is a form of mining that uses high-pressure jets of water to dislodge rock material or move sediment. In the placer mining of gold or tin, the resulting water-sediment slurry is directed through sluice boxes to remove the gold. It is also used in mining kaolin and coal.This photograph shows the impact the gold rush era had on Australia and the earth.A black and white rectangular photograph printed on photographic paperCopied from original on loan film (WEBB QLD) / Donated 2009 NOV/ Baarmutha Three Mile Mine c1920-1950/ Managed by John Weir Peter Jereen Jack Cox / Owned by Plain Bros then Parkinsons Sluicing.mining, gold fields, beechworth, gold rush, burke museum, photograph, mining cavity, hydraulic mining, hydraulic sluicing, baarmutha

Before the introduction of electricity, irons were heated by combustion, either in a fire or with some internal arrangement. An "electric flatiron" was invented by American Henry Seely White and patented on June 6, 1882. It weighed almost 15 pounds (6.8 kg) and took a long time to heat. The UK Electricity Association is reported to have said that an electric iron with a carbon arc appeared in France in 1880, but this is considered doubtful. Two of the oldest sorts of iron were either containers filled with a burning substance, or solid lumps of metal which could be heated directly. Metal pans filled with hot coals were used for smoothing fabrics in China in the 1st century BC. A later design consisted of an iron box which could be filled with hot coals, which had to be periodically aerated by attaching a bellows. In the late nineteenth and early twentieth centuries, there were many irons in use that were heated by fuels such as kerosene, ethanol, whale oil, natural gas, carbide gas (acetylene, as with carbide lamps), or even gasoline. Some houses were equipped with a system of pipes for distributing natural gas or carbide gas to different rooms in order to operate appliances such as irons, in addition to lights. Despite the risk of fire, liquid-fuel irons were sold in U.S. rural areas up through World War II. In Kerala in India, burning coconut shells were used instead of charcoal, as they have a similar heating capacity. This method is still in use as a backup device, since power outages are frequent. Other box irons had heated metal inserts instead of hot coals. From the 17th century, sadirons or sad irons (from Middle English "sad", meaning "solid", used in English through the 1800s[4]) began to be used. They were thick slabs of cast iron, triangular and with a handle, heated in a fire or on a stove. These were also called flat irons. A laundry worker would employ a cluster of solid irons that were heated from a single source: As the iron currently in use cooled down, it could be quickly replaced by a hot one. https://en.wikipedia.org/wiki/Clothes_ironThis iron is typical of the clothes iron used before electric irons superseded it.Salter iron no. 6, painted black but with rust showing through. Salter iron no. 6.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, iron, clothes, laundry

This photograph was framed and mounted then presented to the South Warrnambool school by the South Warrnambool Centenary Committee in 1977 on the school's centenary year. The school was decommissioned and closed in the 1990s. In the photograph, people unload the coal from the ship beside the Breakwater and load it into the row of tramway carts. The coal would be sold to businesses and householders for the purpose of fuel for warmth, cooking, heating water and running machinery. The image shows the early days at the Port of Warrnambool. The building of the Warrnambool Breakwater had only just been completed. Steamships and sailing ships were frequent visitors to the port. Steam Navigation companies were plentiful, carrying passengers and freighting cargo such as coal, timber, food, livestock, furniture, hardware and haberdashery between Melbourne and the ports along the southwest coast of Victoria, including Warrnambool. The carts would take their loads into the township for distribution. The ship carrying the coal is thought to be the "S.S. Chillagoe" previously named "Speculant". In 1903 the Chillagoe was registered at the Port of Melbourne, and it sailed between Melbourne and Newcastle, New South Wales, where coal was mined and sold in significant quantities. In March 1890 a tragedy occurred when coal was being unloaded at the Warrnambool Breakwater. A local young man, David Ferrier, was working in the hold of the steamship Kurrara as its delivery of coal was being unloaded. A basket of coal fell from a sling onboard and came down upon Ferrier, breaking his back. He was not expected to live. In September 1890 there was a strike of coal workers but the Geelong Advertiser reported that a Warrnambool firm of coal merchants had recently received some large cargoes from Newcastle.The photograph is historically significant as it is connected with the local areas of the Warrnambool Breakwater, Lady Bay, and the South Warrnambool Primary School. The scene shows a moment in time when a steamship was unloading a shipment of coal onto tram carts on the Breakwater, which had only just been completed that year. The photograph was taken about 13 years after the opening of the South Warrnambool School, which was decommissioned around 20 years after it celebrated its centenary.. Photograph, black and white, in a gilded rectangular wooden frame, behind glass. The maritime scene shows figures on ships beside the Warrnambool Breakwater jetty and figures on the jetty, standing next to rail carts containing coal. There is a steamship further out on Lady Bay. A card below the photograph has an inscription and there is a pencil inscription on the back of the frame. The coal ship is thought to be the SS. Chillagoe. The photograph was taken in 1890 and was presented to the South Warrnambool School in its centenary year, 1977, by the South Warrnambool Centenary Committee.Typewritten on card: "UNLOADING COAL AT WARRNAMBOOL BREAKWATER"- 1890 - "Presented to Sough Warrnambool School by the SOUTH WARRNAMBOOL CENTENARY COMMITTEE - 1977 - " Handwritten in pencil on the back:"Speculant" as "SS Chillagoe" at Breakwater"flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, warrnambool breakwater, 1890, tramway, steamship, sailing ship, coal, cargo, port of warrnambool, unloading coal, chillagoe, speculant, newcastle, kurrana, david ferrier, coal strike

Junction (Lake Guy) Dam is a 'slab and buttress' type wall. A timber frame is built and then filled with concrete. The first batch of concrete was placed in September, 1940. By June, 1941 the buttresses were finished to a height safe from floods and in October of that year a flood of 2,800 cusecs occurred but with only slight damage to the installations. Industrial trouble caused some delays but there was also slow progress on the part of the contractor and the work was taken over by the S.E.C., terminating the contract. The dam was completed in March, 1944. A walkway was made through the dam wall. Lake Guy was named after Mr. L.T. Guy who was the Resident engineer, in charge of construction work and associated activities on the Kiewa Area from 1939 to November 1946Photos of the construction of the Junction Dam detail the harsh conditions faced by construction workers, building dams and villages to accommodate workers in the 1940s to the 1950s. Australia at this period in time, experienced a surge of population (influx of World War II refugees), which was the catalyst for developing and undergoing an enormous hydroelectricity program for the Alpine regions, both in Victoria and New South Wales. This program was initiated to supply electricity to the major southern Australian cities of Adelaide, Melbourne and Sydney. It was thought that these developments would reduce, if not eliminate, the requirement for coal driven power stations. However time has demonstrated that these power stations have not matched the demand required by the industries and the populations of the major urban and cities.Black and white photograph of Junction Dam constructionjunction dam, bogong, secv

Junction (Lake Guy) Dam is a 'slab and buttress' type wall. A timber frame is built and then filled with concrete. The first batch of concrete was placed in September, 1940. By June, 1941 the buttresses were finished to a height safe from floods and in October of that year a flood of 2,800 cusecs occurred but with only slight damage to the installations. Industrial trouble caused some delays but there was also slow progress on the part of the contractor and the work was taken over by the S.E.C., terminating the contract. The dam was completed in March, 1944. A walkway was made through the dam wall. Lake Guy was named after Mr. L.T. Guy who was the Resident engineer, in charge of construction work and associated activities on the Kiewa Area from 1939 to November 1946.Diversion dams are installed to raise the water level of a body of water to be redirected. The redirected water is used for hydro electric power generation. A diversion tunnel is usually bored through solid rock next to the dam site to bypass the dam construction site. The dam is built while the river flows through the diversion tunnel.Photos of the construction of the Junction Dam detail the harsh conditions faced by construction workers, building dams and villages to accommodate workers in the 1940s to the 1950s. Australia at this period in time, experienced a surge of population (influx of World War II refugees), which was the catalyst for developing and undergoing an enormous hydroelectricity program for the Alpine regions, both in Victoria and New South Wales. This program was initiated to supply electricity to the major southern Australian cities of Adelaide, Melbourne and Sydney. It was thought that these developments would reduce, if not eliminate, the requirement for coal driven power stations. However time has demonstrated that these power stations have not matched the demand required by the industries and the populations of the major urban and cities.Black and white photograph of Junction Dam diversion tunnel at Bogong VillageHandwritten on back - Junction Dam Diversional Tunnelbogong, secv, junction dam, lake guy

Junction (Lake Guy) Dam is a 'slab and buttress' type wall. A timber frame is built and then filled with concrete. The first batch of concrete was placed in September, 1940. By June, 1941 the buttresses were finished to a height safe from floods and in October of that year a flood of 2,800 cusecs occurred but with only slight damage to the installations. Industrial trouble caused some delays but there was also slow progress on the part of the contractor and the work was taken over by the S.E.C., terminating the contract. The dam was completed in March, 1944. A walkway was made through the dam wall. Lake Guy was named after Mr. L.T. Guy who was the Resident engineer, in charge of construction work and associated activities on the Kiewa Area from 1939 to November 1946Photos of the construction of the Junction Dam detail the harsh conditions faced by construction workers, building dams and villages to accommodate workers in the 1940s to the 1950s. Australia at this period in time, experienced a surge of population (influx of World War II refugees), which was the catalyst for developing and undergoing an enormous hydroelectricity program for the Alpine regions, both in Victoria and New South Wales. This program was initiated to supply electricity to the major southern Australian cities of Adelaide, Melbourne and Sydney. It was thought that these developments would reduce, if not eliminate, the requirement for coal driven power stations. However time has demonstrated that these power stations have not matched the demand required by the industries and the populations of the major urban and cities.Black and white photograph of Junction Dam spilling at Bogong VillageHandwritten in pencil - Junction Dam spillingbogong, junction dam, lake guy, secv

This iron was used by women, in their domestic role, to press the clothes from the mid 19th century. Coal embers were put inside, heating the base of the iron, to press the family's clothes and linen. Small bellows were used to fire up the embers to keep the iron hot. In the Kiewa Valley the embers would have been from the local hard wood growing on the farms.Ron White worked for the SEC on the Kiewa Hydro Electric Scheme. The iron belonged to his mother. Ron remembers being a boy of approximately 8 years of age, watching his mother do her ironing with this charcoal iron in the c1920s.This iron is made of cast iron. It has a hinged lid so that coal embers can be put inside for heat. The lid has a curved funnel. Bellows are used to blow air into the iron and keep the coals burning. It has a wooden handle and a lever (also with a wooden handle) to open the lid. There is a 2 and a half centimetre hole at the back of the iron to check the coals. The hole has a swivel cover.There is an embossed "S" on the swivel cover.iron, laudry, household, charcoal, antique, domestic, pressing clothes

P.S Decoy was built in Scotland and reassembled in 1878 in Melbourne. It steamed to Goolwa, arriving in July 1878. It was used on the Darling River, and as a South Australian tug. In 1905 it sailed to Fremantle W.A for use as an excursion vessel. It was towed back to work on the inland river trade on the Darling -Murray system in 1909. It is now a house boat at Mannum. It's owner is Dick Bromhead.( Ref; Parsons, Ron. "Ships of the inland Rivers. P. 65.)The P.S Decoy is significant because it worked as a passenger vessel as well as a transport vessel. It was built in Scotland and reassembled in Melbourne. It was built to use coal, but when it started work on the inland rivers system it was converted to wood fuel.Two black and white photographs ( P000385.1 is missing) of the P.S Decoy passing under a bridge. There are high banks behind the boat and there are nine people on board.On the boat is the word 'Decoy' written on the bow and under the wheelhouse.p.s decoy, darling river, murray river, goolwa, mannum, passenger vessel, bromhead, dick

P.S Decoy was built in Scotland and reassembled in 1878 in Melbourne. It steamed to Goolwa, arriving in July 1878. It was used on the Darling River, and as a South Australian tug. In 1905 it sailed to Fremantle W.A for use as an excursion vessel. It was towed back to work on the inland river trade on the Darling -Murray system in 1909. It is now a house boat at Mannum. It's owner is Dick Bromhead.( Ref; Parsons, Ron. "Ships of the inland Rivers. P. 65.)The P.S Decoy is significant because it worked as a passenger vessel as well as a transport vessel. It was built in Scotland and reassembled in Melbourne. It was built to use coal, but when it started work on the inland rivers system it was converted to wood fuel.A black and white copy of a photograph of the P.S Decoy tied up to a riverbank with a barge alongside . The banks are high and there are buildings on the top of the banks.On the boat is the word 'Decoy' written on the bow .p.s decoy, darling river, murray river, goolwa, mannum, passenger vessel, bromhead, dick

VR Commissioner's Special train, steam locomotive D3-639 filling up with water at the coal hopper, Echuca Railway Station, 1962. The tender has been all polished up. THE ECHUCA COALING STAGE. Locomotives would stop alongside to receive coal dropped into their tenders from small overhead rail mounted tipping trays. Water could be obtained from either the elevated tank at one end or the connected standpipe at the opposite end. Locomotive firebox contents could be dumped into pits between the rails from locomotives once they were carefully positioned above them. Such locomotives then could move onto the Engine Shed area for overnight parking. Firebox fires would be re-lit when the locomotive was next needed in a day or so.Digital TIFF file Scan of black and white print enlargement on textured paper (14.5 x 21 cm)coal hopper, d3-639, d3-class steam locomotive, echuca railway station, george coop collection, vr commissioner's special train

THE ECHUCA COALING STAGE. Locomotives would stop alongside to receive coal dropped into their tenders from small overhead rail mounted tipping trays. Water could be obtained from either the elevated tank at one end or the connected standpipe at the opposite end. Locomotive firebox contents could be dumped into pits between the rails from locomotives once they were carefully positioned above them. Such locomotives then could move onto the Engine Shed area for overnight parking. Firebox fires would be re-lit when the locomotive was next needed in a day or so.Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencygeorge coop collection, echuca railway station, k-185, k-class steam locomotive (vr newport workshops), railway workshop

THE ECHUCA COALING STAGE. Locomotives would stop alongside to receive coal dropped into their tenders from small overhead rail mounted tipping trays. Water could be obtained from either the elevated tank at one end or the connected standpipe at the opposite end. Locomotive firebox contents could be dumped into pits between the rails from locomotives once they were carefully positioned above them. Such locomotives then could move onto the Engine Shed area for overnight parking. Firebox fires would be re-lit when the locomotive was next needed in a day or so. Image dated as November 1963 based on same image in Port of Echuca collection (possibly frame 32 of film) (print 19.5 x 24.5cm) On reverse in pencil: " K Class at Echuca" Echuca K Class. 1940-1968". In blue pen:" Photo by: George L. Coop Nov 1963" https://victoriancollections.net.au/items/59de9cc421ea6b12dc3f7597Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca railway station, george coop collection, k-158, k-class steam locomotive (vr newport workshops)

THE ECHUCA COALING STAGE. Locomotives would stop alongside to receive coal dropped into their tenders from small overhead rail mounted tipping trays. Water could be obtained from either the elevated tank at one end or the connected standpipe at the opposite end. Locomotive firebox contents could be dumped into pits between the rails from locomotives once they were carefully positioned above them. Such locomotives then could move onto the Engine Shed area for overnight parking. Firebox fires would be re-lit when the locomotive was next needed in a day or so.Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca railway station, george coop collection, k-158, k-class steam locomotive (vr newport workshops)

Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca railway station, george coop collection, k-158, k-class steam locomotive (vr newport workshops)

Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca railway station, george coop collection, k-158, k-class steam locomotive (vr newport workshops)

Image dated as November 1963 based on same image in Port of Echuca collection (print 19.5 x 24.5cm) On reverse in pencil: " J Class 1940-1960's" . In blue pen:" Photo by: George L. Coop Nov 1963" https://victoriancollections.net.au/items/59dea30a21ea6b12dc430192Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencyechuca railway station, george coop collection, j-500, j-class steam locomotive (vulcan foundry), railway turntable

THE ECHUCA COALING STAGE. Locomotives would stop alongside to receive coal dropped into their tenders from small overhead rail mounted tipping trays. Water could be obtained from either the elevated tank at one end or the connected standpipe at the opposite end. Locomotive firebox contents could be dumped into pits between the rails from locomotives once they were carefully positioned above them. Such locomotives then could move onto the Engine Shed area for overnight parking. Firebox fires would be re-lit when the locomotive was next needed in a day or so.Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencyechuca railway station, george coop collection, j-500, j-class steam locomotive (vulcan foundry)

Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca, echuca railway station, george coop collection, r-727, railway turntable, r-class steam locomotive

THE ECHUCA COALING STAGE. Locomotives would stop alongside to receive coal dropped into their tenders from small overhead rail mounted tipping trays. Water could be obtained from either the elevated tank at one end or the connected standpipe at the opposite end. Locomotive firebox contents could be dumped into pits between the rails from locomotives once they were carefully positioned above them. Such locomotives then could move onto the Engine Shed area for overnight parking. Firebox fires would be re-lit when the locomotive was next needed in a day or so.Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca, echuca railway station, george coop collection, r-727, r-class steam locomotive

THE ECHUCA COALING STAGE. Locomotives would stop alongside to receive coal dropped into their tenders from small overhead rail mounted tipping trays. Water could be obtained from either the elevated tank at one end or the connected standpipe at the opposite end. Locomotive firebox contents could be dumped into pits between the rails from locomotives once they were carefully positioned above them. Such locomotives then could move onto the Engine Shed area for overnight parking. Firebox fires would be re-lit when the locomotive was next needed in a day or so.Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca, echuca railway station, george coop collection, r-727, r-class steam locomotive

Digital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycoal hopper, echuca, echuca railway station, george coop collection, r-727, r-class steam locomotive, railway turntable

The coal loader is visible in the distance. Image dated as October 1962 based on same image in Port of Echuca collection (print 17.5 x 24.5cm) On the reverse of photo:" Photo by: George L. Coop Oct 1962". Crossed out, in black pen: "565". In pencil:" D3... T Class diesel 1954 Intro" https://victoriancollections.net.au/items/59e7e43321ea6a13c065088bDigital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencyd3-677, d3-class steam locomotive, echuca railway station, george coop collection, railway workshop, t-328, t-class diesel electric locomotive

These photographs of RASvy personnel from the Army Survey Regiment undertaking regimental training lack any annotation that could identify names, dates and locations. The training was possibly conducted at Balcombe and Dromana, located on the Mornington Peninsula, Victoria. There is no explanation on the meaning of the annotation on back of the last photograph.This is a set of photographs of Army Survey Regiment personnel undertaking regimental training in the 1960s. All eight photographs were printed on photographic paper and are part of the Army Survey Regiment’s Collection. The photographs were scanned at 300 dpi. .1) to .7) Photo, black & white, Regimental Training .8) Photo, black & white, possibly Regimental Training.1) to .7) annotated on back “Regimental Training” .8) annotated on back “Fatted Pig-Coal Lift-Western Mines”royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr