Showing 287 items
matching australian coals
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Federation University Historical Collection
Book - Scrap Book, Ballarat School of Mines Scrap Book, 1924 - 1929, c1931
... australian coals... at the ballarat school of mines australian coals j.p. ellsworth yallourn ...The Ballarat School of Mines was a predecessor institution of Federatin University Australia. The scrap books were kept by the librarians and related to topics of interest to the Ballarat School of Mines, its students and its staff. 17 December 1954 - Ballarat Junior Technical School Headmaster's Report 05 February 1925 - Ballarat School of Mines Museum closure 25 February 1925 - War Trophies Museum 06 May 1925 - Ballarat's Museum. Where is it? Some Interesting Facts 14 May 1925 - White Flat Reserve 21 June 1928 - Ballarat School of Mines Procession 14 March 1929 - Mr A.D.R. Galloway - An Australian Abroad - Tragic end. 1929 - Technical Education 17 October 1929 - Agricultural Engineering 15 February 1930 - Ballarat School of Mines Student Association 20 February 1930 - 61s Annual Meeting of the Ballarat School of Mines 02 June 1930 - R. Young in Belgium and visits battlefields including Hill 60. 19 February 1931 - School Hostel Suggested 14 April 1931 - Frank Pinkerton Obituary 15 October 1921 - Life at Mt Isa (E. Loveland) 18 February 1932 - Discussion on Teachers College (Ballarat Teachers' College) 11 July 1931 - Phoenix Model Locomotive donation to the Ballarat School of Mines 06 May 1932 - The Mt Isa Country 11 Oct 1932 - Death of F.W. Alsopp (former SMB student) 21 January 1933 - Education In Victoria: Will a New Era Open 28 September 1933 - New Teaching System Explained by the Minister 17 February 1934 - Trip to New Guinea (A.F. Heseltine) 19 April 1934 - Early Ballarat - Address by Nathan Spielvogel 30 August 1934 - Ballarat Junior Technical School Tennis Court 23 August 1934 - Welding plant and Battery 17 June 1935 - Men about Town - A.F. Heseltine 21 June 1935 - Vocational Guidance 16 July 1935 - Ballarat School of Mines (history) 03 August 1935 - Men About Town - William H. Middleton 10 August 1935 - A.E.C. Kerrballarat school of mines, martha pinkerton, scrap book, a.w. nicholson, john lynch (junior), mount lyell, leslie evans, leslie blake evans, herald shield for athletics, ballarat school of mines museum, motor mechanics' classes for ladies, farm engineering, villers bretonneux carvings, trengrove, museum, port pirrie, j.i. simpson, reuben s. russelll, ballarat technical art school, charles harvey, elliott gower, la gerche, c. curnow, applied art, macroberston scholarship, ballarat school of mines procession, rag, vale park tree planting, smb ball, pottery classes, delineascope, mica smith scholarship, james peart, burma mnies, smb excursion to western australia, kalgoorlie, elsie mckissock, war trophies, warwick smith, spencer street bridge, war museum, richard j. young, alfred mica smith obituary, reginald callister, john rowell, sewerage installation, h.h. smith, w.h. middleton, olive scott, dolly whitehead, vale park, ballarat war museum opening, repatriation classes, sewerage at the ballarat school of mines, australian coals, j.p. ellsworth, yallourn, w.g. walker, reunion, norfolk island pine, mica smith memorial, jessice smith, harry fern, t. henderson, bhp, john adam, ols students' association, l.b. curnow, laura crouch, signwriting, excursion, port pirrie excursion, albert potter, pearl fricke, technica school sports, percy trompf, ballarat school of mines battery, albert mclean, a.d.r. galloway, alan douglas richard galloway, r.j. young, alan ludbrook, r. timpe, ballarat ironworkers and polytechnic association, h. jolly, carpentry, harold jolly, millinery classes, phoenix model locomotive, s.j. morgan, r.d. bannister, juvenile industrial exhibition, w.h. shaw, j.c. winds, f.h. davis, h.r. worland, w.t. magee, l. george, l. balhausen, white flat oval, resue from yarrowee creek, e. berriman, ballarat teachers' college, reg mcconnell, mount lyell co, munro reaper, munro reaper model, weaving classes, mervyn trimmings, briquette dust, edna findlay, jean rogers, n. mccallum, jessie glass, classroom ventilation, art metal, charles fenner, levi molyneux, olice scott, poster competition, kerr grant, w.h. steane, h. caddy, colvin smith, claude creelman, robert colins, stan hillman, n.c. heathcote, egg collection, john alexander, nornie gude, charles deane, graham hopwood, roswald john dart, max wilson, new battery, jess hopwood, william middleton, a.e.c. kerr, hand weaving classes, m. martin, a.h. leeson, mona rogerson, lorna bailey, prospectors classes, edwin robinson, kalgoorlie vist, railway locomotive -
The Beechworth Burke Museum
Geological specimen - Black Coal
... of Australian black coal which is used as either thermal or coking coal... of Australian black coal which is used as either thermal or coking coal ...This specimen was recovered from Wonthaggi in Victoria. Coal is a sedimentary rock which is composed of peat after it has been exposed over millions of years. This is an example of Australian black coal which is used as either thermal or coking coal for electricity generation or manufacturing processes. It is predominantly composed of Carbon which is 'C' on the periodic table of elements. This early example of a coal sample, shows the important role that coal played/plays in Australia's energy generation and manufacturing processes. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.Small piece of black coal with museum original labelGeological survey / R..... S...../ Locality Cape Patterson coal specimen, burke museum, geological survey of victoria, geological specimen, geology -
Lakes Entrance Regional Historical Society (operating as Lakes Entrance History Centre & Museum)
Book, Vines, Jack, The Flying Doctor Story, 2008
... in Victoria, from earliest discovery of coal deposits in Australia... discovery of coal deposits in Australia, to the vast coal fields ...A comprehensive study of black and brown coal mining in Victoria, from earliest discovery of coal deposits in Australia, to the vast coal fields of the Latrobe Valley, Victoria, where extraction is by open cut engineering.engineering, mines and mining -
Mission to Seafarers Victoria
Letter - Correspondence, Stanley Quinn et al, 1949
... coal strike, australia... in Australia, the coal strike, and that 'Sydney especially is badly hit... in Australia, the coal strike, and that 'Sydney especially is badly hit ...Letter 0817a; the writer refers to Allan's 21st birthday and his recent letter from Rio. He also writes of prices rising in Australia, the coal strike, and that 'Sydney especially is badly hit'. He also recommends Allan see a film called 'The Secret Land', a record of an American Naval Expedition to the South Pole, if he gets the opportunity. Letter is signed 'Your loving Dad, Stanley Quinn'. Writer of 0817d also refers to Allan's 21st birthday and the coal strike which has affected manufacturing and the availability of materials, especially bricks as all the brickworks are closed down. The letter is signed 'Your Pal Norm'.Quinn CollectionThree-page letter written to Allan (0817.a1-3) from his father, Stanley Quinn, on three sheets of lined cream-coloured paper, headed Liddesdale Avenue, Frankston and dated 25.07.49. The envelope (0817.b) is buff-coloured. Also found in this envelope is a single-sided, two-page letter written on thin off-white lined paper (0817.c1-2) to Allan from his friend Norm headed 1 Selwyn Street, Artarmon, dated 27.07.49. Enclosed with 0817.c are two small black and white photographs (0817.d1-2). 0817.d1 shows a small boy with a model airplane and 0817.d2 the model airplane from a different angle.Letter 0817a is written on the reverse side of three pages of the Melbourne Stevedoring Company's Cargo Tally sheets. The envelope is pre-stamped with an embossed profile of King George V and a crown in white on a red, oval background. Postage is two and a half pence. Envelope is addressed to Allan C/- Swedish Seaman's Union, 156 Montague Street, Brooklyn, New York, USA. The postmark is torn. There is a blue air-mail sticker on the upper left-hand corner. 0817d; On the left wing of the model airplane is printed MAA, on the right wing - 17. There are pencilled marks on the back of each photograph. letters-from-abroad, quinn, 1949, stanley quinn, coal strike, australia -
The Beechworth Burke Museum
Geological specimen - Brown Coal
... Coal to Australia every year. The Yallourn Mine is responsible... Coal to Australia every year. The Yallourn Mine is responsible ...Brown Coal is typically found as rocks. During formation the Brown Coal starts as peats, which is an acidic brown deposit resembling soil, and over time when subjected to pressure and heat these peats form the Coal. Brown Coal is the lowest rank of coal as it has a low carbon (energy) content, and a high moisture content. This high moisture content makes Brown Coal unsuitable for overseas exports. This particular specimen was recovered from the Yallourn Mine in Latrobe Valley, Victoria as part of the geological survey of Victoria being carried out by Alfred Selwyn. Otherwise known as the 'Yallourn Power Station', the Yallourn Mine is Australia's second largest mine. Yallourn Mine was first built in 1920, and since then it has been providing over 1 billion tonnes of Brown Coal to Australia every year. The Yallourn Mine is responsible for 22% of Victoria's electricity and 8% of Australia's electricity. As of 2021 the mine employs around 500 people. Due to ongoing maintenance issues and Australia's move to cleaner energy, the Yallourn Mine intends to shut down permanently as of 2028. Soon after gold was discovered in 1851, Victoria’s Governor La Trobe wrote to the Colonial Office in London, urging ‘the propriety of selecting and appointing as Mineral Surveyor for this Colony a gentleman possessed of the requisite qualifications and acquaintance with geological science and phenomena’. Alfred Selwyn was appointed geological surveyor in Australia in 1852 which began the Geological Survey of Victoria. In 1853-69 the Geological Survey issued under Selwyn's direction sixty-one geological maps and numerous reports; they were of such high standard that a writer in the Quarterly Journal of the Geological Society of London bracketed the survey with that of the United States of America as the best in the world. During his years spent in Australia, Selwyn collected numerous significant geological specimens, examples of which are held in collections such as the Burke Museum.Brown coal is considered to be an essential rock to Australia's energy consumption. Although plentiful in sources, Brown Coal is not able to be exported overseas due to its high moisture content. As Australia moves towards cleaner energy, Brown Coal is going become less used. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid hand-sized sedimentary rock that is a dark shade of brown.13 / BROWN COAL / Showing Woody structure / Locality: Yallourn, Vic. | Label probably / correct but / can't find reference / no. 13 to match in / registers. / C Willman / 15/4/21burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, yallourn, yallourn mine, victoria, coal, brown coal, brown coal specimen, alfred selwyn, geological survey of victoria, geological survey, yallourn power station -
The Beechworth Burke Museum
Geological specimen - Brown coal
This particular specimen was recovered from the Lal Lal Coal and Iron Mine in Victoria, 19km from Ballarat. Brown Coal was discovered here in 1857, just alongside the Geelong to Ballarat Railway line. This discovery of lignite (brown coal) was the first in Victoria, which would bring important benefits to the region and state, both of which had previously been reliant on coal imports. In the 1860s, iron ore was found just 5km from Lal Lal, and the area was converted into an Iron Ore Mine. The Lal Lal Iron Mining Company took over operations in 1874, who then peaked iron production in 1884. This mine continued operations until June 1884, when the blast furnace was extinguished and never recommenced. The blast furnace at Lal Lal is considered one of the most important and highly significant sites ion early industrial history in Australia, as it is the only remaining best furnace from the nineteenth century in the Southern Hemisphere. The furnace ruins are 17 metres high, and are clearly visible today on Iron Mine Road, Lal Lal, near the Bungal Dam. This specimen of Lignite (brown coal) is significant, as it was mined from the area where brown coal was first discovered in Victoria, leading to an important and controversial future of the mining and use of brown coal in this State. The Victorian Heritage Database has listed the Lal Lal Coal Mine with local significance, with their Statement of Significance stating: "The Lal Lal coal mine is historically significant as the site of the first discovery of lignite (brown coal) in Victoria, and one that promised important benefits to regional and state industries that were reliant on coal imports at the time. The significance of the stie is reduced by the poor state of preservation of the coal mining and processing fabric". This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A hand-sized light-weight, soft and combustable sedimentary rock specimen, that is dark brown in colour. The specimen has jagged edges, as though parts of the rock have crumbled away. Brown coal, or Lignite, is formed naturally from compressed peat, and is typically found in natural basins. The stages to the formation of coal ('coalification') begin with plant material and wood, which will decay if it is not subjected to deep burial or heating, and turn into Peat. Peat, when sufficiently compressed naturally, will turn into Brown Coal (Lignite), and finally into Black Coal (sub-bituminous, bituminous and anthracite). Each successive stage has a higher energy content and lower water content. It is brownish-black in colour. Brown Coal has a high moisture content, between 50 and 75 percent, and a low carbon content. Some Brown Coals may be stratified, with layers of plant matter, which means little coalification has occurred beyond the peat natural processing stage. When Brown Coal is submerged in dilute nitric acid or boiling potassium hydroxide solution, it reacts to produce a reddish solution, of which higher-ranked coals do not. When brown coal is pulverised and burned in boilers, the steam is used to drive turbines, which generates electricity. It is the lowest rank of coal, as when burned, it creates a relatively low heat content, which in turn does not create a great output of steam. burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, brown coal, brown coal specimen, lignite, lal lal, lal lal coal mine, lal lal iron mine, ballarat, blast furnace -
The Beechworth Burke Museum
Geological specimen - Coorongite
Coorongite is a dark, rubber-like, highly resilient structureless algal deposit. In the Coorong district of South Australia it occurs in moderate quantities associated with the coastal swamps and sand dunes which extend for a considerable distance east of the mouth of the Murray. This particular specimen was recovered from the south of the Coorong River, South Australia. A type of sediment rich in organic matter, Coorongite is the unlithified end-member of the sapropelic coal series. The members of the sapropelic coal series can be ranked in order as sapropel (the unlithified form), sapropelic-lignite, and sapropelic-coal (the lithified forms) based on increasing carbon content and decreasing volatile content. Sapropel (Coorongite) is an unlithified dark, pulpy, fine organic mud containing concentrations of algae and miospores that are more or less identifiable. Coorongite is typically found as an algae like substance, that can be found in irregular size pieces. Coorongite was believed to be dried up oil due to its rubber-like texture. The Coorongite is also soft to the point where it can be cut into with a knife or it can be broken and torn by hand. Otherwise known as 'Kurangk', the Coorong River is home to the Ngarrindjeri people, which acts as both a place for gathering food and a spiritual place. In 1852 the first sight of Coorongite was found along the Coorong River. The finders mistook the Coorongite for dried up oil, which lead to the belief that there were oil reserves under the Coorong River. Between the 1860s and the 1930s the Coorong River became a place where mining oil and Coorongite became precedent. Nowadays, the local council and the South Australian Government are working together with the Ngarrindjeri people to sustain and preserve the Coorong River and the culture that is with it. Soon after gold was discovered in 1851, Victoria’s Governor La Trobe wrote to the Colonial Office in London, urging ‘the propriety of selecting and appointing as Mineral Surveyor for this Colony a gentleman possessed of the requisite qualifications and acquaintance with geological science and phenomena’. Alfred Selwyn was appointed geological surveyor in Australia in 1852 which began the Geological Survey of Victoria. Selwyn went on to collect geological samples and catalogue thousands of specimens around Australia. In 1853-69 the Geological Survey issued under Selwyn's direction sixty-one geological maps and numerous reports; they were of such high standard that a writer in the Quarterly Journal of the Geological Society of London bracketed the survey with that of the United States of America as the best in the world. During his years spent in Australia, Selwyn collected numerous significant geological specimens, examples of which are held in collections such as the Burke Museum.Coorongite is considered to be a mineral with a unique texture, where it can be both hard and soft. Coorongite can also be considered to be a rare mineral, as it is only located along the Coorong River and due to the mining of it, has left very few sources. It was believed at one point that Coorongite could be used to replace oil. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.Three solid varyingly hand-sized pieces of wooden appearing organic matter derived from the river in the Coorong District in South Australia. A rubber-like, highly resilient structureless algal deposit.Specimen 245 page 69 / in Descriptive Register / "Elcestic Bitumen, / Coorangite" South of / Coorung River, South Australia . / C. WIllman / 15/4/21burke museum, beechwoth, indigo shire, beechworth museum, geological, geological specimen, mineraology, coorong, coorong river, kurangk, ngarrindjeri, south australia, coorongite, coorongite specimen -
The Beechworth Burke Museum
Geological specimen - Galena (lead sulphide), Unknown
Galena occurs in a range of deposit contexts, often in metalliferous veins, such as Broken Hill, Australia; Coeur d’Alene, Idaho, United States.; Clausthal Zellerfeld, Germany; and Cornwall, England. Large deposits also replace limestone, dolomite, or occasionally organic matter, or have a contact-metamorphic origin. Galena is additionally found in cavities, brecciated (fractured) zones in limestone and chert, and in coal beds. This specimen was recovered from Broken Hill NSW and is 60% lead with 8-12 oz/silver to the ton.Galena or 'lead glance' is a grey lead sulfide and the chief ore mineral of lead. It forms isometric crystals in which the ionic lattice is similar to sodium chloride. Galena is brittle and easily weathers to secondary lead minerals, with the upper part of mineral deposits often containing cerussite, anglesite, and pyromorphite. It usually contains silver, which is mined along with its lead content. Other commercially important minerals that form in close association with galena are antimony, copper, and zinc. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A small-sized solid specimen containing one mineral with a sparkly silver metallic lustre exterior and pastel-grey interior.geological specimen, geology, geology collection, burke museum, beechworth, galena, lead sulphide, alfred selwyn, broken hill -
The Beechworth Burke Museum
Geological specimen - Anthracite crystal, Unknown
Anthracite typically occurs in geologically deformed areas due to extreme heating – with temperatures ranging from 170 to 250 °C – caused by igneous intrusions or high geothermal gradients. It is most commonly found in northeastern Pennsylvania in the United States; however, smaller amounts are also found in Australia, China, eastern Ukraine, South Africa, western Canada, and other countries. This specimen was recovered from Tasmania and is 85-95% carbon.Anthracite is the mineral name for hard coal and is the least plentiful of all coal types. It is clean to the touch and, when polished, is used for decorative purposes. Before natural gas and electricity, anthracite was used for domestic heating as it produces little dust, burns slowly, and gives off a minor amount of smoke. However, it is also limited in abundance and expensive. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A hand-sized highly metamorphosed coal mineral with a black/steel-grey shiny metallic lustre.geological specimen, geology, geology collection, burke museum, beechworth, indigo shire, geological, mineralogy, victoria, alfred selwyn, anthracite -
The Beechworth Burke Museum
Geological specimen - Bituminous Coal, Unknown
Bituminous coal is the most common type of coal, abundantly found in ancient coal deposits which can be dated back millions of years. Often referred to as soft or black coal, this specimen exhibits a high carbon content, ranging from 76-86%. It also holds a relatively high energy density (27 MJ/kg) meaning that it releases significant amounts of energy when burned. Bituminous coal is most commonly used for electricity generation, as well as in the production of steel. This particular piece of coal was collected as part of the Geological Survey of Victoria in the nineteenth century. It originates from Cape Paterson, a seaside village located in South Gippsland, Victoria (located on Bunurong Country). The discovery of bituminous coal in this locality was first made in 1826 by explorer William Hovell. More discoveries were gradually made over the following decades and in 1859 the Victorian Coal Company commenced the first active coal mining operations in the state by sinking a number of shafts and bores near the area of Cape Paterson. Evidence of this coal-focused past can be found today at the State Coal Mine Museum in the nearby town of Wonthaggi. This specimen is significant as it was collected from the locality of Cape Paterson in Victoria, an area that has since become historically instrumental in the mining of coal and other substances in the state of Victoria. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A solid hand-sized piece of bituminous coal with a shiny black-grey surface and jagged edges.Existing Label: BITUMINOUS COAL / Locality: Cape / Patterson, VIC. burke museum, beechworth, geological, geological specimen, state coal mine museum, wonthaggi coal mine, victorian coal company, bituminous coal, coal victoria, coal energy generation, william hovell, cape paterson, coal specimen -
The Beechworth Burke Museum
Photograph, c1920
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 -
Mission to Seafarers Victoria
Photograph - Photograph, Black and white, S.S. Diomed, unknown
The S.S.'Diomed' was the last of the Blue Funnel Line's coal-burning cargo ships. Launched in 1922 she made her last voyage from Australia to England in 1952 where she was broken up. The ship had been in service in Australia for thirty years, and as a parting gesture the ship's bell was presented to the Mission to Seafarers, Victoria by Alfred Holt & Co, the ship's owner in 1953 (see MTSV 0084 for the catalogue record of the ship's bell).Lay reader, Randall Stewart Murray, was a regular visitor to the s.s. Diomed over a number of years and accepted the offer of the ships brass bell when the ship was being broken up in 1953. This bell was on display in the Port Melbourne Mission and is now on the stage in the Flinders Street Mission.A black and white photograph of a ship at sea, the s.s. "Diomed", in a glazed, thin, black, wooden frame: verso detailed labels and information on torn brown-paper backing. String hanging system.Three labels. Label 1, Blue funnel line description of four ships. Label 2, "deans" framer's label with hand-written numbers: D13290 and 239/021. Label 3, Seabridge Australia Pty Ltd with donor details.s.s. diomed, blue funnel line shipping, seabridge australia pty ltd, deans melbourne, steamship, cargo ship, port melbourne, r. stewart murray, randall stewart murray, 1953, seabridge australia -
Flagstaff Hill Maritime Museum and Village
Equipment - Toolbox, circa 1905
This toolbox was originally part of the equipment on the barque Marjorie Craig, which brought New Zealand timber into Warrnambool from about 1908 to 1912 for the local merchants P J McGennan & Co. The toolbox was donated by a member of a local family connected with the La Bella rescue in 1905. The toolbox has carvings and markings that make it unique and connect it to the Marjorie Craig. The Craig Line of sailing ships was from Auckland, New Zealand, and traded in timber and some coal from New Zealand ports to Australia, including Sydney, Adelaide, Melbourne and Warrnambool. They returned with produce from Australia as ballast. In 1912 the Craig fleet included the Ihumata, Inga, Jessie Craig, Marjorie Craig, Louisa Craig and Joseph Craig. The steel barque Marjorie Craig, 500 ton, was built in 1891 as the 'Hirotha', in Ardrossan, Scotland for Norwegian owners. The ship was sold to Auckland’s Donald Ross and others in 1900, then in 1905 it was sold, registered by J.J. Craig in Auckland, New Zealand and renamed Marjorie Craig. Marjorie Craig’s commanders included Master R A Campbell in 1907, J MacFarlane in 1909 and Master R.G. Holmes in 1913. From February 1908, the Marjorie Craig was regularly seen in the Port of Warrnambool with loads of timber for merchants P J McGennan & Co. In February 1912 Marjorie Craig delivered white pine for P J McGennan & Co. In April of the same year, she brought 500,000 feet of timber for McGennan & Co and again in May 1912. On May 12 1912 Marjorie left the Port of Warrnambool with 500 tons of flour for New Zealand; it seems that this was her last time at Warrnambool. Prior to 1908, the vessel Speculant brought in timber from New Zealand for the McGennan firm. The Marjorie Craig had a strong reputation for being a ‘Fast Flyer’, breaking the sailing records for voyages between New Zealand and Australia. It was reported that she made passages with a speed equal to steamboats on several occasions. One of her records was from Warrnambool to Hokianga, NZ in eight-and-a-half days. The ship broke the record in October 1913 for the time from Adelaide to Auckland, sailing in 28 days, even with a damaged ship, and the owner presented Captain Holmes with a gold watch and chain. By the end of December 1913, the Craig Line’s last two surviving sailing ships, Marjorie Craig and Jessie Craig, had been purchased by Huddart, Parker & Co. Ltd. to work as coal hulks, one in Melbourne and one in Hobart.The toolbox is significant for being created for use in 1905 when the steel barque Marjorie Craig was purchased by J J Craig and given that name. The carved ships’ images and related inscriptions within the toolbox support the origin of the toolbox. The toolbox is significant for its association with the well-known Marjorie Craig, a frequent visitor to the Port of Warrnambool 1908 to 1912, a supplier of New Zealand timber for the local firm P J McGennan & Co, and one of the fastest inter-colonial sailing ships that broke numerous records for its speed including the fastest sailing from Warrnambool to Hokianga. Wooden toolbox from the ship Marjorie Craig. Wooden box, stained brown, decorative metal handles on sides, dovetailed joints, lid with metal and leather strap hinge, tapered feet and metal keyhole at front. Inscriptions are inside the box. Box contains newspaper clippings relating to sailing and maritime topics. A handwritten tag is attached to the box. Handwritten tag: "SAILING SHIP / MARJORIE CRAIG, EARLY 1900's / TOOL BOX / PORT OF W'BOOL”. Inside the lid is a carved silhouette of a 3-masted sailing ship with pink chalk lettering "M C" and "1912". Inside the front panel is "MARJORIE CRAIG". Inside the left panel is stamped a black oval with lettering inside.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, port of warrnambool, marjorie craig, flour export - warrnambool, toolbox, steel barpue, p j mcgennan & co, craig line, craig fleet, 1891, hirotha, donald ross, j.j. craig, r a campbell, j macfarlane, r.g. holmes -
Bendigo Military Museum
Award - MEDALS & PHOTOGRAPH WW2, Post WW2
Maxwell Barry Cowden VX19297 enlisted in the 2/nd AIF on 30.5.1940 age 18 years (put his age up to 21) in 2/2 Pioneer Battalion AIF, embarked for the Middle East 8.4.1941, promoted L/Cpl 25.6.1941, promoted Cpl 29.10.1941, took part in the Syrian Campaign. On 31.1.1942 the unit embarked for Australian but were diverted to Java to defend it, disembarked 18.2.1942. Java surrendered and they were taken POW, reported MIA on 30.4.1942 then after as POW. As a POW he worked on the Burma Railway. In December 1944 they were on the Hell Ship AWA Maru and sailed for Japan to work in the Coal Mines arriving mid Jan 1945. He was repatriated back to Australia on the HMS Formidable, discharged on 28.11.1945 with the rank of Cpl. Refer also Cat No 7077.Brown wood frame with gold edge, contains a photo and medals on a green background re a WW2 soldier/POW. The medals are a mixture of official and unofficial not in the correct order. Medals top. 1. Miniature Dutch medal 1942 - 45 official. 2. Prisoner of war medal, commemorative unofficial. Centre row. 1.Dutch medal 1942 - 45 official. 2. Africa star, official. 3. 1939 - 45 Star, official. 4. Pacific Star, official. 5. Front line service medal, unofficial. Bottom. 1. Defence medal, official. 2.Australian Service medal 1939 - 45, official. 3. For Combatant duties in active service, unofficial. 4. Foreign service medal, unofficial. 5. British war medal 1939 - 45, official."Max Cowden VX19297 2/2 Pioneer Battalion AIF"award, medals, photo, pow, 2/2 -
Kiewa Valley Historical Society
Photo - Junction Dam Construction, Circa 1940's
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 -
Kiewa Valley Historical Society
Photo - Junction Dam Diversion Tunnel
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 -
Kiewa Valley Historical Society
Photograph - Junction Dam spilling
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 -
Kiewa Valley Historical Society
Photograph - Kiewa River in flood at Clover Dam
As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) implemented the conversion strategy from mainly brown coal supply to hydro - electricity. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. Clover Dam and Power Station were built by the State Electricity Commission of Victoria as part of the Kiewa Hydro Electric Scheme from the late 1930's to the early 1940's. This dam was constructed to supply water to feed four turbines (62 mega watts) at the West Kiewa Power Station. This was at the forefront of sustainable "Green" energy. Costs associated with power supplies is still a major incentive of governments, however environmentally friendly alternatives such as wind and nuclear have also made inroads. The Kiewa valley and its surrounding alpine catchment were looked at(Victorian State Government), from the beginning of the twentieth century as a source of alternate power for an ever-increasing demand for electricity by growing population and heavy industrial areas within Melbourne City and State regions. Construction of dams, such as Clover Dam provided the large quantity holding areas of water required to turn the turbines at the various power stations to provide the electricity needed. The impact of these controls by moderating water run-off from the alpine regions is beneficial in reducing flooding from thawing of snow on the alps. This by-product allows agriculture and grazing to be less vulnerable to seasonal flooding thereby resulting in a more stable annual production level.Black and white photograph of Clover Dam with Kiewa River in flood. .5mm white boarder on 3 sides of photo.Handwritten on back of photograph in black pen - Kiewa in flood. Clover Dam.clover dam, secv -
Kiewa Valley Historical Society
Photograph - Clover Dam
As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) implemented the conversion strategy from mainly brown coal supply to hydro - electricity. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. Clover Dam and Power Station were built by the State Electricity Commission of Victoria as part of the Kiewa Hydro Electric Scheme from the late 1930's to the early 1940's. This dam was constructed to supply water to feed four turbines (62 mega watts) at the West Kiewa Power Station. This was at the forefront of sustainable "Green" energy. Costs associated with power supplies is still a major incentive of governments, however environmentally friendly alternatives such as wind and nuclear have also made inroads. The Kiewa valley and its surrounding alpine catchment were looked at(Victorian State Government), from the beginning of the twentieth century as a source of alternate power for an ever-increasing demand for electricity by growing population and heavy industrial areas within Melbourne City and State regions. Construction of dams, such as Clover Dam provided the large quantity holding areas of water required to turn the turbines at the various power stations to provide the electricity needed. The impact of these controls by moderating water run-off from the alpine regions is beneficial in reducing flooding from thawing of snow on the alps. This by-product allows agriculture and grazing to be less vulnerable to seasonal flooding thereby resulting in a more stable annual production level.Black and white photograph of Clover Dam buildings and Kiewa River. Has a .4cm white border around photograph Printed on bottom left corner of photograph in white - Clover Flatclover dam, secv -
Kiewa Valley Historical Society
Photographs x 2 - Clover Dam, Circa 1940's
As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) implemented the conversion strategy from mainly brown coal supply to hydro - electricity. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. Clover Dam and Power Station were built by the State Electricity Commission of Victoria as part of the Kiewa Hydro Electric Scheme from the late 1930's to the early 1940's. This dam was constructed to supply water to feed four turbines (62 mega watts) at the West Kiewa Power Station. This was at the forefront of sustainable "Green" energy. Costs associated with power supplies is still a major incentive of governments, however environmentally friendly alternatives such as wind and nuclear have also made inroads. The Kiewa valley and its surrounding alpine catchment were looked at(Victorian State Government), from the beginning of the twentieth century as a source of alternate power for an ever-increasing demand for electricity by growing population and heavy industrial areas within Melbourne City and State regions. Construction of dams, such as Clover Dam provided the large quantity holding areas of water required to turn the turbines at the various power stations to provide the electricity needed. The impact of these controls by moderating water run-off from the alpine regions is beneficial in reducing flooding from thawing of snow on the alps. This by-product allows agriculture and grazing to be less vulnerable to seasonal flooding thereby resulting in a more stable annual production level. Photographs also document early engineering and building techniques used in the construction of dams and power stations during the 1940’s and 1950’s. Note the lack of safety equipment and suitable work attire worn by construction workers on the sites 1. Black and white photograph of Clover Dam under construction. Has a .5cm white border around photo 2. Black and white photograph of Clover Dam under construction showing workmen at work. Has a .5cm white border around photo Written in pencil on back of both photographs - Clover Damclover dam, secv -
Kiewa Valley Historical Society
Photograph - Folder of Photographs (KVHS 1150 A - F) – Photocopied set of black and white photographs from the display folder (pages 1 - 8) put together by KVHS to document life on the Kiewa Valley Hydro-electric Scheme
Although the Kiewa Hydro-Electric Scheme was first proposed in 1911, construction did not commence until 1938. As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) initiated the conversion from primarily brown coal supply to hydro – electricity. Field investigations during the 1940’s resulted in a new proposal for a scheme that had more than double the capacity of the 1938 scheme. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. The number of personnel involved in the planning and construction of the scheme increased dramatically. During the late 1940’s, most activity centred around the construction of the West Kiewa Power Station, Rocky Valley Reservoir, McKay Creek Power Station and the Bogong Creek Aqueduct.A common thread across all the larger hydro scheme constructions was the need for workers, both qualified and unqualified who came from around the world seeking a new life for themselves and their families. New accommodation and facilities were required for the army of workers engaged in construction in often remote and wild areas. The SEC had a high demand for timber, and set up the first of a number of sawmills at Bogong Creek in 1939 and set up the first hardwood logging in the headwaters of the Kiewa River. These new ‘towns’ such as Mt Beauty and Bogong, survived, serving the needs of operational personnel and their families, and expanding with growth of new industries. Mount Beauty, and to a lesser extent Bogong, are among these places. Large A3 size spiral bound display folder containing 21 of 58 pages of photocopied black and white photographs of various aspects of the early days of the Kiewa Valley Hydro-electric scheme including equipment, various work sites and photographs of workers and their families. 1-Front page; 2-Security gate at Mt Beauty Camp; 3-Channel 1 on East Kiewa River; 4-Junction Dam – Diversion Tunnel Inlet; 5-Sawmill; 6- Homan’s Gap Sawmill; 7 Junction Dam: 8-Homan Dam Site-Diamond Drilling on River Buttress; 9- Homan Dam Site View Upstream 10-Homan Dam Investigation Camp 1-Windsor & Newton Visual Diary 60 sheet (120 pages) 11’ x 14’ 280 x 356mm 110 GSM Acid Free Drawing Paper 2-1940-Security Gate on Mt Beauty side of Kiewa River bridge. Part of old Mt Beauty camp and mess in background 3- STATE ELECTRICITY COMMISSION OF VICTORIA Date; 11.3.40 Time: 10.30am No K35 Kiewa Hydro Electric Works. Diverting East Kiewa River into Channel Page number 1 4-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 5.4.40 Time: Noon No K58 Kiewa Hydro Electric Works. Junction Dam – Diversion Tunnel Inlet – Normal Flow Page number 2 5- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 19.8.42 Time: 2.30pm No K883 Kiewa Hydro Electric Works. Sawmill – General View Page number 3 6- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 12.1.42 Time: 2.00pm No K540 Kiewa Hydro Electric Works. Homan’s Gap Sawmill – General View Page number 4 7- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 12.1.42 Time: 2.00pm No K540 Kiewa Hydro Electric Works. Junction Dam – General View looking upstream Page number 5 8- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 16.11.45 Time: 10.32amm No K52153 Kiewa Hydro Electric Works Homan Dam Site – Diamond Drilling on River Buttress Page number 6 9-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 15.1.45 Time: 4.10pm No K1781 Kiewa Hydro Electric Works Homan Dam Site – View Upstream Page number 7 10- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 15.1.45 Time: 4.10pm No K1781 Kiewa Hydro Electric Works Homan Dam Investigation Camp 1944 – 1945 Page number 8 secv; kiewa hydro electric scheme; mt beauty; bogong; construction work; -
Kiewa Valley Historical Society
Photograph - Folder of Photographs – Photocopied set of black and white photographs (pages 9 - 18) from the display folder put together by KVHS to document life on the Kiewa Valley Hydro-electric Scheme
Although the Kiewa Hydro-Electric Scheme was first proposed in 1911, construction did not commence until 1938. As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) initiated the conversion from primarily brown coal supply to hydro – electricity. Field investigations during the 1940’s resulted in a new proposal for a scheme that had more than double the capacity of the 1938 scheme. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. The number of personnel involved in the planning and construction of the scheme increased dramatically. During the late 1940’s, most activity centred around the construction of the West Kiewa Power Station, Rocky Valley Reservoir, McKay Creek Power Station and the Bogong Creek Aqueduct.A common thread across all the larger hydro scheme constructions was the need for workers, both qualified and unqualified who came from around the world seeking a new life for themselves and their families. New accommodation and facilities were required for the army of workers engaged in construction in often remote and wild areas. The SEC had a high demand for timber, and set up the first of a number of sawmills at Bogong Creek in 1939 and set up the first hardwood logging in the headwaters of the Kiewa River. These new ‘towns’ such as Mt Beauty and Bogong, survived, serving the needs of operational personnel and their families, and expanding with growth of new industries. Mount Beauty, and to a lesser extent Bogong, are among these places. PHYSICAL: Large A3 size spiral bound display folder containing 21 pages of photocopied black and white photographs of various aspects of the early days of the Kiewa Valley Hydro-electric scheme including equipment, various work sites and photographs of workers and their families. 1-Bridge across Tailrace Channel 1946 2-New Mess building, Mt Beauty 3-Homan’s Gap Saw Mill 4- Diamond Drilling Plant – Big Hill 5-Rocky Valley Camp-Mess Building 6-Parlimentary Party at Rocky Valley 7-No.4 Headrace Tunnel 8- Allis-Chalmers Tractor School 9- SECV Heavy Machinery lined up by road 10- No. 5 Raceline – Balasting Track with improvised truck 1-1946 – Bridge across tailrace channel Page number 9 2-New mess building, Mt Beauty 6.4.46 Page number 10 3- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 10.1.47 Time: 11.40am No K2271 Kiewa Hydro Electric Works Homan’s Gap Saw Mill – Rip Saw Page number 11 4- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 5.10.47 Time: 11am No K4111 Kiewa Hydro Electric Works Diamond Drilling Plant – Big Hill Page number 12 5- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 11.2.48 Time: 3pm No K4277 Kiewa Hydro Electric Works Rocky Valley Camp-Mess Building Page number 13 6- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 15.4.48 Time: 4.30pm No K4397 Kiewa Hydro Electric Works Parlimentary Party at Rocky Valley Page number 14 7- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 22.8.48 Time: 9am No K4668 Kiewa Hydro Electric Works General view of No.4 Headrace Tunnel Page number 15 8-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 5.9.49 Time: 10am No K5180 Kiewa Hydro Electric Works Allis-Chalmers Tractor School – HD 19, Mr I Crossthwaite at Controls Page number 16 9- No markings Page number 17 10- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 7,12.49 Time: 4pm No K5423 Kiewa Hydro Electric Works No. 5 Raceline – Balasting Track with improvised truck. Page number 18 secv; kiewa hydro electric scheme; mt beauty; bogong; construction area -
Kiewa Valley Historical Society
Photograph - Folder of Photographs – Photocopied set of 10 black and white photographs (pages 19 - 28) from the display folder put together by KVHS to document life on the Kiewa Valley Hydro-electric Scheme
Although the Kiewa Hydro-Electric Scheme was first proposed in 1911, construction did not commence until 1938. As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) initiated the conversion from primarily brown coal supply to hydro – electricity. Field investigations during the 1940’s resulted in a new proposal for a scheme that had more than double the capacity of the 1938 scheme. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. The number of personnel involved in the planning and construction of the scheme increased dramatically. During the late 1940’s, most activity centred around the construction of the West Kiewa Power Station, Rocky Valley Reservoir, McKay Creek Power Station and the Bogong Creek Aqueduct.A common thread across all the larger hydro scheme constructions was the need for workers, both qualified and unqualified who came from around the world seeking a new life for themselves and their families. New accommodation and facilities were required for the army of workers engaged in construction in often remote and wild areas. The SEC had a high demand for timber, and set up the first of a number of sawmills at Bogong Creek in 1939 and set up the first hardwood logging in the headwaters of the Kiewa River. These new ‘towns’ such as Mt Beauty and Bogong, survived, serving the needs of operational personnel and their families, and expanding with growth of new industries. Mount Beauty, and to a lesser extent Bogong, are among these places. Large A3 size spiral bound display folder containing 21 pages of photocopied black and white photographs of various aspects of the early days of the Kiewa Valley Hydro-electric scheme including equipment, various work sites and photographs of workers and their families. 1-Allis Chalmers Tractor School 2- Gardens outside Administrative Office – Mt Beauty 3- Mt Beauty house – 1950 4-Bridge over Pretty Valley River, Bogong 5-Rocky Valley Spillway Tunnel break through 6-Ni 1 Headrace Tunnel drilling face 7-No 4 Power Station Drilling 8-Clover Dam Flood Waters 9-No1 Head Race Tunnel Portal Building 10-Clover Dam 1-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 5.9.49 Time: 10amm No K5174 Kiewa Hydro Electric Works Allis Chalmers Tractor School Page number 19 2-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 22.2.50 Time: 3.30pm No K5601 Kiewa Hydro Electric Works Gardens outside Administrative Office – Mt Beauty Page number 20 3-Mt Beauty house – 1950 Page number 21 4-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 23.10.50 Time: 11.15am No K6331 Kiewa Hydro Electric Works Bogong-Bridge over Pretty Valley River Page number 22 5-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 23.6.50 Time: 2.30pm No K5844 Kiewa Hydro Electric Works ROCKY VALLEY SPILLWAY TUNNEL BREAK THROUGH Page number 23 6-20/3/52 – No. 1 Headrace Tunnel Drilling face (E.E.E. contract) Page number 24 7-6/6/52 – No 4 Power Station – Drilling Page number 25 8-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 6/6/52 Time: No K7113 Kiewa Hydro Electric Works Clover Dam Flood Waters Page number 26 9-STATE ELECTRICITY COMMISSION OF VICTORIA Date: Oct 1952 Time: No K7239 Kiewa Hydro Electric Works No. 1 HEAD RACE TUNNEL PORTAL BUILDING. Handwritten underneath – This information from Ron White-the later Principal Hydro Engineer of the SEC. Oct 1952 Location incorrect? All work on No 1 had ceased after financial crash of 1951. This photo would refer to No 4 Headrace Tunnel? Page number 27 10-STATE ELECTRICITY COMMISSION OF VICTORIA Date: Jan 1953 Time: No K7307 Kiewa Hydro Electric Works CLOVER DAM Page number 28 secv; kiewa hydro electric scheme; bogong; mt beauty; construction area -
Kiewa Valley Historical Society
Photograph - Folder of Photographs – Photocopied set of 10 black and white photographs (pages 29 - 38) from the display folder put together by KVHS to document life on the Kiewa Valley Hydro-electric Scheme
Although the Kiewa Hydro-Electric Scheme was first proposed in 1911, construction did not commence until 1938. As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) initiated the conversion from primarily brown coal supply to hydro – electricity. Field investigations during the 1940’s resulted in a new proposal for a scheme that had more than double the capacity of the 1938 scheme. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. The number of personnel involved in the planning and construction of the scheme increased dramatically. During the late 1940’s, most activity centred around the construction of the West Kiewa Power Station, Rocky Valley Reservoir, McKay Creek Power Station and the Bogong Creek Aqueduct.A common thread across all the larger hydro scheme constructions was the need for workers, both qualified and unqualified who came from around the world seeking a new life for themselves and their families. New accommodation and facilities were required for the army of workers engaged in construction in often remote and wild areas. The SEC had a high demand for timber, and set up the first of a number of sawmills at Bogong Creek in 1939 and set up the first hardwood logging in the headwaters of the Kiewa River. These new ‘towns’ such as Mt Beauty and Bogong, survived, serving the needs of operational personnel and their families, and expanding with growth of new industries. Mount Beauty, and to a lesser extent Bogong, are among these places. Large A3 size spiral bound display folder containing 21 pages of photocopied black and white photographs of various aspects of the early days of the Kiewa Valley Hydro-electric scheme including equipment, various work sites and photographs of workers and their families. 1-Mt Beauty Pondage inlet-Regulating weir 2-Langfords Gap Basalt Hill-Tunnel in quarry face.3-Rocky Valley Camp-from Engineering Office 4-Basalt Hill tunnel portal 5-No 1 Pressure Shaft Works Bench 6-No 1 Power Station 7-Overturned haulage wagons on the side of an embankment 8- Group of workers dressed in wet weather gear inside a tunnel 9-Workmen and vehicle in tunnel 10-Howman’s Gap campsite at 4,150 feet 1-1954 – Mt Beauty Pondage inlet – Regulating weir Page number 29 2-28/10/54 – Langfords Gap Basalt Hill – Tunnel in quarry face K7860 Page number 30 3-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 17.8.55 Time: No K8132 Kiewa Hydro Electric Works ROCKY VALLEY CAMP – FROM ENGINEERING OFFICE Page number 31 4-28/10/54 – Basalt Hill tunnel portal K7859 Page number 32 5-No.1 Pressure Shaft Works Bench 5.7.56 Page number 33 6- No. 1 Power Station 26.4.59 Page number 34 7- No markings Page number 35 8-No markings (Wooden board on ground printed with - POLAR A.N.GELATINE DYNAMITE “75” DE 28.8.40) Page number 36 9-No markings Page number 37 10-Howman’s Gap campsite at 4,150 feet Page number 38 secv; kiewa hydro electric scheme; mt beauty; bogong; construction area -
Kiewa Valley Historical Society
Photograph - Folder of Photographs – Photocopied set of black and white photographs (pages 49 -58) from the display folder put together by KVHS to document life on the Kiewa Valley Hydro-electric Scheme
Although the Kiewa Hydro-Electric Scheme was first proposed in 1911, construction did not commence until 1938. As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) initiated the conversion from primarily brown coal supply to hydro – electricity. Field investigations during the 1940’s resulted in a new proposal for a scheme that had more than double the capacity of the 1938 scheme. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. The number of personnel involved in the planning and construction of the scheme increased dramatically. During the late 1940’s, most activity centred around the construction of the West Kiewa Power Station, Rocky Valley Reservoir, McKay Creek Power Station and the Bogong Creek Aqueduct.A common thread across all the larger hydro scheme constructions was the need for workers, both qualified and unqualified who came from around the world seeking a new life for themselves and their families. New accommodation and facilities were required for the army of workers engaged in construction in often remote and wild areas. The SEC had a high demand for timber, and set up the first of a number of sawmills at Bogong Creek in 1939 and set up the first hardwood logging in the headwaters of the Kiewa River. These new ‘towns’ such as Mt Beauty and Bogong, survived, serving the needs of operational personnel and their families, and expanding with growth of new industries. Mount Beauty, and to a lesser extent Bogong, are among these places. Large A3 size spiral bound display folder containing photocopied black and white photographs of various aspects of the early days of the Kiewa Valley Hydro-electric scheme including equipment, various work sites and photographs of workers and their families. 1-Workmen working inside one of the tunnels. 2-Workman drilling in West Kiewa Tunnel 3-Junction Dam wall construction 4&5-2B&W photographs Kiewa House residents ready to go to a ball in Mt Beauty 6-Workmen warming up in front of a fire at No 1 bench 7-Workmen being hauled in at No 4 P.S Shaft 8-No 4 Power Station – Drilling 9-Workmen eating a hot meal in the tunnel. 10-2 photographs (a)Pretty Valley camp showing workman’s huts and construction materials & (b)Worker in Langford Gap Basalt Hill Tunnel face 11-Tunnel entrance (unlabelled) with rail tracks in foreground 12- Workmen drilling at No 1 Head race tunnel-Drilling face 13- No 1 Power Station 14-Workmen at the entrance to one of the SECV tunnels under construction 1-SECV number at bottom of picture Half obscured possibly K8461 Page number 53 2-In West Kiewa Tunnel Page number 54 3- Construction of Junction Dam wall – approximately 1941 Page number 55 4&5- Residents of Kiewa House at Bogong ready to go to the ball at Mt Beauty-1946. Handwritten on a copy of the photo on opposite page Mrs Lorna Crosset filled out the names *Dad was Des Crossett – his daughter is Gael Petcopoulis Greta engaged to John broke it off. Charlie, Rosalind, Bill, Priscilla, Max Lawrence-Dad’s Boss, Mary & Max married, Mary, Kay, Gwen McPherson Mum’s boss, John McCluskey (c) At No. 5 Bench Page number 56 6- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 27.2.51 Time:2.15pm No K6373 Kiewa Hydro Electric Works No. 4 P.S. Shaft – Haulage of men in buckets (b) As above Handwritten at top of photo Appendix 4 page number 57 7- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 6.6.52 Time:… No K7122 Kiewa Hydro Electric Works No. 4 POWER STATION – DRILLING page number 58 8-No markings page number 59 9-(a)Handwritten under photograph Approx. 1948/49 (b) STATE ELECTRICITY COMMISSION OF VICTORIA Date: 28.10.54 Time:.. No K7860 Kiewa Hydro Electric Works LANGFORD GAP BASALT HILL TUNNEL FACE Page number 49 10-(a) No markings 11- STATE ELECTRICITY COMMISSION OF VICTORIA Date: 20.3.52 Time: No K6979 Kiewa Hydro Electric Works No. 1 HEAD RACE TUNNEL – DRILLING FACE (E.E.E. CONTRACT) ‘The Frenchies’ (E.E.E) as they were affectionately known Page number 50 12-31.5.56 No. 1 Power Station Aggregate Stock Piles. Page number 51 13&14-No markings Page number 52 secv; kiewa hydro electric scheme; bogong; mt beauty; construction area -
Kiewa Valley Historical Society
Photograph - Folder of Photographs – Photocopied set of black and white photographs (pages 39 - 48) from the display folder put together by KVHS to document life on the Kiewa Valley Hydro-electric Scheme
Although the Kiewa Hydro-Electric Scheme was first proposed in 1911, construction did not commence until 1938. As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) initiated the conversion from primarily brown coal supply to hydro – electricity. Field investigations during the 1940’s resulted in a new proposal for a scheme that had more than double the capacity of the 1938 scheme. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. The number of personnel involved in the planning and construction of the scheme increased dramatically. During the late 1940’s, most activity centered around the construction of the West Kiewa Power Station, Rocky Valley Reservoir, McKay Creek Power Station and the Bogong Creek Aqueduct.A common thread across all the larger hydro scheme constructions was the need for workers, both qualified and unqualified who came from around the world seeking a new life for themselves and their families. New accommodation and facilities were required for the army of workers engaged in construction in often remote and wild areas. The SEC had a high demand for timber, and set up the first of a number of sawmills at Bogong Creek in 1939 and set up the first hardwood logging in the headwaters of the Kiewa River. These new ‘towns’ such as Mt Beauty and Bogong, survived, serving the needs of operational personnel and their families, and expanding with growth of new industries. Mount Beauty, and to a lesser extent Bogong, are among these places. Large A3 size spiral bound display folder containing photocopied black and white photographs of various aspects of the early days of the Kiewa Valley Hydro-electric scheme including equipment, various work sites and photographs of workers and their families. 1-Breakdown in Circuit Breaker (Isolating Contacts) 2-Big Hill Bench- Site of No 5 Devlopment 3-No 1 Power Station 4-No 1 Pipeline, Anchor No 8 5-Push Dozing-RD8 Tractor 6- Tractor and driver at work 7- Workmen in unnamed tunnel 8- Front page of Journal of SECV Vol 15. Photograph of No 1 pipeline viewed from McKay Portal 9-Rocky Valley Dam Core Wall 10-Workmen working inside tunnel loading rocks into a rail truck. 1-Breakdown in (generator) Circuit Breaker (Isolating Contacts) Handwritten underneath (This is not a picture of any part of a generator. It is a circuit breaker Signed Ron White Ron was the Principal Hydro Engineer of the SEC Kiewa Scheme Page number 39 2-Big Hill Bench – Site of No. 5 Development (abandoned) Page number 40 3-No 1 Power Station Page number 41 4-No. 1 Pipeline, Anchor No. 8 Page number 42 5-Push Dozing – RD8 Tractor, 12 cubic yard Carryall and FD Cletrac Tractor Page number 43 6-No marking Page number 44 7-No marking Page number 45 8-Journal of State Electricity Commission of Victoria SEC Vol 15 No… April-May, 19… No 1 Pipeline-A view from McKay Portal G Hempenstall and D Sutton stiffening pipe section for transport during construction (….indicates missing text) Page Number 46 9-Rocky Valley Dam Core Wall Page number 47 10-No markings Page number 48 secv; kiewa hydro electric scheme; construction area; power stations; reservoirs; aqueduct; mt beauty; bogong -
Port of Echuca
Black and white photograph
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 -
Port of Echuca
Black and white photograph, Early 20th Century
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 -
Federation University Historical Collection
Book - Catalogue, McPherson's Engineering Catalogue, c1905
240 page catalgue from teh Chain Belt Engineering Company. Includes numerous line and photographic illustrations.non-fictionelevators, coal handling appliances, sheffield gas works, coke storage plants, colliery truck hauling gear, incline mineral conveyor, log hauling gear, sprocket wheels, ewart's chain, gray's chain, delivery elevator buckets, j.w. glover, chain belt engineering company, catalogue, mining -
Federation University Historical Collection
Book, The MIneral Industry its Statistics, Technology and Trade in the United States and Other Countries 1893, 1893
This volume includes Australasia, and lists each state seperately , as well as New Zealand, It also lists Bismoth, Chome iron ore, coal, copper, gold, lead, mineral industry growth, alumite, antinomy, cobalt, coke, copper ore, gold, iron, lead, limestone flux, managanese, shale, silver, silver-lead, tin and zinc Lead production Manganese opalsRed hard cloth covered book of 115 pages. INcludes contentsnon-fictionThis volume includes Australasia, and lists each state seperately , as well as New Zealand, It also lists Bismoth, Chome iron ore, coal, copper, gold, lead, mineral industry growth, alumite, antinomy, cobalt, coke, copper ore, gold, iron, lead, limestone flux, managanese, shale, silver, silver-lead, tin and zinc Lead production Manganese opals mining, statistics, technology, trades, metal industry, minerals, united states, canada, china, france, germany, italy, japan, russia, south america, spain, sweden, united kingdom, ireland, coins, cuba, blast furnaces, gold, lead production, manganese, opals, silver, +, alumite, antinomy, cobalt, coke, copper ore, iron, lead, limestone flux, managanese, shale, silver-lead, tin, zinc