Showing 38 items matching water turbines
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Federation University Historical Collection
album, Water Turbines, 1958/59
... Water Turbines...water turbines... Water Turbines Blue cloth-bound album containing hand-written ...Associated with Former Ballarat School of Mines Director Graham BeanlandBlue cloth-bound album containing hand-written notes, diagrams, tables and printed materialgraham beanland, ballarat school of mines, water turbines -
Federation University Historical Collection
Report, Report of Period with Water Turbine Manufacturers, 1959, 1958
... Report of Period with Water Turbine Manufacturers, 1959...water turbines... photographs, Water Turbine Design and Development, Hydro-Electric... Report of Period with Water Turbine Manufacturers, 1959 Typed ...Graham Beanland is a former Principal of the Ballarat SChool of Mines. The report was prepared as the result of an overseas scholarshipTyped report by Graham H. Beanland. Includes original photographs, Water Turbine Design and Development, Hydro-Electric Installation, and manufacturegraham beanland, electricity, electricity generating, hydro-electricty, water turbines, boving and co. ltd, bulb turbines, blaenau ffestiniog, karlstada mekaniska werkstad, english electric company, bruce peebles ltf, bullers porcelain, a.s.e.a. switching station, hamra switching station, gotland cable, e.e. co., stafford -
Flagstaff Hill Maritime Museum and Village
Book, Water Turbine Plant
... Water Turbine Plant...Water Turbine Plant...Water Turbine Plant by Jens Orten-Boving Publisher... Warrnambool great-ocean-road Book Water Turbine Plant Water Turbine ...Water Turbine Plant by Jens Orten-Boving Publisher Australian Publicity Council Date 1910warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, shipwrecked-artefact, book, water turbine plant, jens orten-boving -
Federation University Historical Collection
Magazine, ASEA magazines, 1953/58, 1953 to 1958
... electrohydraulic governor for water turbines... governor for water turbines high voltage dc transmission oil ...collected by Ballarat School of Mines Principal G.H.BeanlandMagazines bound in ASEA folder, blue spine and black cloth boardselectrical engineering, generators, graham beanland, power stations, voltage control, electrohydraulic governor for water turbines, high voltage dc transmission, oil-minimum contraction circuit-breakers, lightening arresters, air-blast circuit breakers, testing circuit breakers, closing mechanisms for high voltage circuit-breakers, outdoor isolators, series capacitors, capacitor voltage transformers, guide to current transformers, routine testing of power tranformers, generator -
Federation University Historical Collection
Book, E.H. Lewitt, Hydraulics and the Mechanics of Fluids, 1949
... water turbines... flow channels pumps water water turbines centrifugal pumps ...Blue hard covered book of 630 pagesnon-fictionhydraulics, fluids, rex hollioake, mouthpieces, weirs, pipes, flow, channels, pumps, water, water turbines, centrifugal pumps, valves, aerofoil, boundary layer, gases, fluid mechanics, viscosity, steam, heat -
Maldon Vintage Machinery Museum Inc
Miniature Water Turbine
... Miniature Water Turbine....machinery; water turbine; power...Miniature water turbine (pelton wheel, single jet) mounted... goldfields Miniature Water Turbine. Miniature water turbine (pelton ...Miniature water turbine (pelton wheel, single jet) mounted on a wooden frame. Undershot wheel driving a pulley at one end of the shaft. Flywheel at the other end of the shaft. Small die-cast buckets, some broken and missing. Pelton wheel and flywheel painted red, wooden frame unpainted.Nonemachinery; water turbine; power -
Moorabbin Air Museum
Manual (Item) - Armstrong-Whitworth Argosy 650 Series Illustrated Parts Catalogue Volume 3, Chapters 52-91, AW. 650 Aircraft Manual
... controls, starting, oil, exhaust, engine indicators, water..., starting, oil, exhaust, engine indicators, water injection ...Topics include fuselage, nacells, wings, stabilisers, windows, air, ignition, engines, propellers, power plant, engine controls, starting, oil, exhaust, engine indicators, water injection, turbines, charts and accessory gearboxes. -
Federation University Historical Collection
Photograph - Black and White, James Brown, Pomona Pumps
... On sign in photograph: Pomona Pumps. "Pomona" Water..." Water Lubricated Turbine Pump. Output 15,000 gal per ...These photographs where in the collection of miner Richard Squire.Sepia images of water pumps in action. They are Pomona Pumps. The image is taken by James brown of Nhill so the pumps are probably in that location. Gift of the Squire Family, 2014On sign in photograph: Pomona Pumps. "Pomona" Water Lubricated Turbine Pump. Output 15,000 gal per [?]. Pumping Depth 330 ft. Supplied and installed by F.N. Bethune, P.O. Box 61, Nhill. Sole distributers. Pomona Pumps & Equipment. pomona pumps, richard squire, squire, nhill, pumps -
Kiewa Valley Historical Society
Photograph Clover Dam, Clover Dam Circa 1940, circa 1940s to 1950s
... scheme in Australia. This dam was constructed to supply water... scheme in Australia. This dam was constructed to supply water ...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. 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 every increasing demand for electricity by growing population and heavy industrial ares 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.Reproduction (scanned) of a black and white photo of Clover Dam circa 1940. The paper used is KodakXtraLife II paperThe reverse side of photo " KodakXtraLife II paperdams, pondage, hydro electricity, power stations, clover dam, secv -
Kiewa Valley Historical Society
Photograph - Kiewa River in flood at Clover Dam
... . This dam was constructed to supply water to feed four turbines (62... water to feed four turbines (62 mega watts) at the West Kiewa ...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
... . This dam was constructed to supply water to feed four turbines (62... was constructed to supply water to feed four turbines (62 mega watts ...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
... . This dam was constructed to supply water to feed four turbines (62... was constructed to supply water to feed four turbines (62 mega watts ...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 -
Federation University Historical Collection
Book, Machinery for Metalliferous Mines, 1894
The 1st edition of this famous work, giving an excellent account of the machinery used in late 19th century metal mining in the UK and overseas is very rare. It covers a wide range of equipment - pumps, steam engines, drills, winding engines, stamps & concentration mills, aerial ropeways, tramways and early uses of electricity etc. Brown hard cloth covered book. xvi 564 pages with additional advertisements, with over 300 illustrations and drawings, some fold out. Chapters include Water as a motive power, Wind engines and ventilating machinery, Steam boilers/engines and oil engines, hoisting machinery, draining of Mines, pumping engines, rock drilling machinery, boring machinery, concentration machinery, sizing and classifications trommels, joggers and jigging, fine concentration, milling of gold ores, milling of silver ores, amalgamation plates and machinery, dry and roasting machinery, chlorination and cyandide processes for the extraction of gold, electricity as a motive power for mining, electric lighting and blasting, aerial wire ropeways, transport by rail and road. There a a number of lovely line illustrations in the book including: Poncelot's undershot waterwheel; Fromont furnace;Victor turbine; Pelton waterwheel; Root's positive blower;Cross section and front elevation of Lancashire boiler; Robey's Compound Mill Engine; Portable Winding Plant; Iron Pit Head Gear ; Loading Arrangement in an Incline Shaft; kibble; Worthington Pump; California Pump; Scram's Air Compressor; Rock drill Bits; Special Sharpening tools; Boring tools;Rotating Picking table; Ore Feeder; roller crusher; stamp battery; round buddle; slime table; vanner; amalgamating plant; belt elevator;roasting furnace;splicing wire rope; capel; tipping waggon;mining, cornish pump, linkenbach table, water wheel, ventilation, oil engine, california, america, water, steam boilers, steam engines, oil engines, pumpimg, rock drilling, boring, jiggers, milling, silver, gold, drying and roasting, chlorination, cyaniding, lead, zinc, copper, electricity, electric lighting, wire ropes, transport, wind engine, poppet head -
Federation University Historical Collection
Photograph - Photograph - Black and White, Fitting Petton Wheel to Water Turbine, Lower Rubicon Station, Rubicon Hydro Electric Scheme
... Fitting Petton Wheel to Water Turbine, Lower Rubicon... Photograph - Black and White Photograph Fitting Petton Wheel to Water ...rubicon hydro electric station, rubicon, hydroelectricity, engineers -
Federation University Historical Collection
Book, William Ripper, Steam-Engine Theory and Practice, 1914
Used at Ballarat School of MinesThe cover is a red brown colour with the title on the spine and the publisher Longmans & Co printed near base of the spine. The book has 496 illustrations throughout with some pull out plates. Pages 514.On the inside cover it is stamped with The School of Mines Ballarat and written in pencil is 1914 and E K.compound engines, thermodynamics of gases, properties of steam, temperature-entropy diagrams, superheated steam, steam-jacket, feed-water heaters, crank-shaft, flywheels, corliss engine, steam turbine, condensers, friction of engines, steam-engine, william ripper, steam -
Kiewa Valley Historical Society
Photograph from Lake Guy, Bogong Village, Scene from shores of Lake Guy to Mountain range, 1930s to 1950s
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office.The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds(gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityThis black and white photograph shot from the shores of Lake Guy toward the mountain range of the Victorian Alps details the early construction of the construction worker's accommodation of the Bogong Village. The paper is of 200gms and is not photographic paper and can be assumed to be a reproduction of an original photobogong village circa 1930 to 1950, kiewa hydro-electricity scheme, victorian alpine region mid 1900s -
Kiewa Valley Historical Society
Photo - Bogong Township, March 1944
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityBlack and white photograph of Bogong Township taken March 1944Handwritten on the back of photo - Township March '44bogong village, secv -
Kiewa Valley Historical Society
Photograph - Bogong Village (7 copies), Approx 1940
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricity. Evidence can be seen of the 1939 bushfires.Set of 7 identical black and white photographs of Bogong Village after 1939 bush firesHandwritten on the back of one photo - Bogong Village approx. 1940, after 1939 bush fires. Staff residences to left. Kiewa House, General offices and test lab to the right. Hand drawn map on the back of one photo.bogong village, secv -
Kiewa Valley Historical Society
Photo - Bogong Village Township, October 8, 1946
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityBlack and white photograph of Bogong Village which appeared in the Herald Sun newspaper on October 8, 1946. Page 13Handwritten on the back - Town of Bogong on a rugged mountain slope above Lake Guy. State Electricity Committee workers on the Kiewa Hydro Electric scheme live here in all electric homes. Stamped on the back - Copyright Not for reproduction Herald Sun Feature Service Melbourne Australiabogong village; lake guy; kiewa hydro electric scheme -
Kiewa Valley Historical Society
Postcard - Lake Guy and Bogong Village
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityBlack and white photographic postcard of Lake Guy and Bogong Village. Kiewa Hydro electric Project (showing Junction Dam in front)Handwritten on the back of postcard ' Like most of our camps, this looks like something from the Canadian Rockies' Stamped on the back - Valentine's Post Card A genuine photographlake guy, bogong village, secv -
Kiewa Valley Historical Society
Photo - Bogong Township, September 1953
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityBlack and white photograph of Bogong Township taken from Little Arthur fire track. September 1953Faded handwritten inscription on back - Bogong Township taken from Little Arthur fire track. Sept 1953bogong village, secv -
Kiewa Valley Historical Society
Photo - First Bogong Camp, September 1950
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityBlack and white photo of Bogong Village. September 1950Handwritten on the back - 1st Bogong Camp. SEC Kiewa Scheme Sept 1950bogong camp, bogong village, secv -
Kiewa Valley Historical Society
Photo - Bogong Village Township
In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityBlack and white photograph of Bogong Village from across Lake Guy. Photo mounted on buff cardbogong village, secv -
Kiewa Valley Historical Society
Photographs x 2 1. Lake Guy & Bogong Village 2. Bulldozer moving rocks
1. In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. 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. He held this position from 1939 to November 1946 when he was transferred to Head Office. 2. Example of the type of heavy machinery used in clearing and building of Lake Guy, Bogong Village and Clover Dam 1. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Lake Guy is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricity 2. Pictorial record of the types of machinery used in the development of Bogong Village and the Hydro-electricity scheme including the Clover Dam. Note the lack of safety equipment worn by construction workers of the period. 2 black and white photographs taken at Bogong 1. Lake Guy with Bogong Village in the background 2. Workman in bulldozer clearing rocks, possibly for construction at Bogong1. Handwritten in blue ink on back of photo 'Lake Guy showing Bogong Village' 2. No markingslake guy, bogong village, secv -
Kiewa Valley Historical Society
Photographs of small box originally used to contain sensitized photographic paper
The Junction Dam and Clover Dam Power Station, stages of the Kiewa Hydro-Electric Scheme, were needed to meet the increased power demands of the wartime industry in Victoria. Clover added 26 megawatts to the grid. Junction Dam was completed and ready to hold water by September 1943, but was emptied in December 1943 and not filled again until May 1944. Construction of Clover Power Station commenced in July 1941 and both turbines were in service by May 1945.Clover Power Station and Junction Dam were part of the Kiewa Hydro Electric Scheme constructed by the State Electricity Commission of Victoria. SECV official photographers took photographs of most stages of construction of the Hydro Electric Scheme and referenced each photo with a number and dating system as an historical record and for reference for other projects. This provided a thorough history of the construction of the Hydro Electric Scheme, some of the workers involved in its construction and the infrastructure supporting its construction, such a Bogong Village.Small light brown cardboard box originally containing sensitized photographic paper, now containing a range of black and white photographs of the Kiewa Hydro Electric System taken by the official SECV photographer Box has some damage – Front panel on lid is missing. Top has a puncture in top right corner and some peeling of paper along sides and at edges. Printed on the top of the box in black ink: OPEN ONLY IN PHOTOGRAPHIC DARK ROOM SENSITIZED PAPER Manufactured by – KODAK (A/asia) PTY. LTD. Melbourne Australia Green and white sticker on right side of lid and bottom right side of box, torn at join 1. 1B1 Single Weight Soft. Available in Soft (1) Medium (2) Contrast (3) Extra Contrast (4) Single and Double Weight Stamped at bottom of sticker in grey ink G8087 CK photographic paper box; state electricity commission of victoria; official photographer; kiewa hydro electric scheme; clover power station; junction dam; bogong village -
Kiewa Valley Historical Society
Photographs – SECV – Clover Power Station
The Junction Dam and Clover Dam Power Station, stages of the Kiewa Hydro-Electric Scheme, were needed to meet the increased power demands of the wartime industry in Victoria. Clover added 26 megawatts to the grid. Junction Dam was completed and ready to hold water by September 1943, but was emptied in December 1943 and not filled again until May 1944. Construction of Clover Power Station commenced in July 1941 and both turbines were in service by May 1945.Clover Power Station and Junction Dam were part of the Kiewa Hydro Electric Scheme constructed by the State Electricity Commission of Victoria.Set of 22 black and white photographs taken by the official SECV photographer who gave each photo a number prefixed by K (for Kiewa) K60 -no date- A bridge and entrance to tunnel K519 -no date- Welding steel lining in the tunnel K531 –no date- Construction on the Kiewa Scheme (tunnel in background K821 – no date- Bogong Village, early days K928 -15 Oct 1942- Construction Clover Power Station K947 -26 Oct 1942- Construction Clover Power Station K948 -26 Oct 1942- Construction Clover Power Station K949- 26 Oct 1942- Clover Camp in background K950 -26 Oct 1942- Construction Clover Power Station K955 -27 Oct 1942- Constructing the bridge at Clover K1102 -7 April 1943- Inlet pipe to power station K1179 –no date- Clover Power Station K1187 – no date- Clover Power Station K1189 -24 June 1943- Part of the spiral casing 1199 -7 July 1943- Clover Power Station K1201 -7 July 1943- Clover Power Station K1231 -26 July 1943- Gantry crane for Clover Power Station K1308 -6 Sept 1943- Spiral casing K1334 -6 Oct 1943- Lake Guy. Bogong Village in background K1342 -29 Oct 1943- Power station under construction K1365 -19 Nov 1943- Power station under construction K1366 -19 Nov 1943- Gantry crane for Clover Power Station On the back- each photograph has a handwritten reference number starting with K and the date stamped or written (see above)secv; kiewa hydro electric scheme; official photographer; junction dam; clover power station; bogong; -
Kiewa Valley Historical Society
Photographs – SECV – Clover Power Station
The Junction Dam and Clover Dam Power Station, stages of the Kiewa Hydro-Electric Scheme, were needed to meet the increased power demands of the wartime industry in Victoria. Clover added 26 megawatts to the grid. Junction Dam was completed and ready to hold water by September 1943, but was emptied in December 1943 and not filled again until May 1944. Construction of Clover Power Station commenced in July 1941 and both turbines were in service by May 1945.Clover Power Station and Junction Dam were part of the Kiewa Hydro Electric Scheme constructed by the State Electricity Commission of Victoria.Set of 21 black and white photographs taken by the official SECV photographer who gave each photo a number prefixed by K (for Kiewa) K1367- 19 Nov 1943 The rotor for the generator K1368- 19 Nov 1943 Base of the generator K1377- 2 Dec 1943 Generator under construction K1380- 2 Dec 1943 Power Station under construction K1381- 2 Dec 1943 Generator being assembled K1386- 3 Dec 1943 Part of the generator K1389- 30 Dec 1943 Inlet pipe work K1391- 30 Dec 1943 Inside the power station K1392- 30 Dec 1943 Inlet pipe work K1396- 27 Jan 1944 Equipment in the power station K1410- 4 FGeb 1944 Unpacking equipment for the power station K1422- 16 Feb 1944 Generator being assembled K1425- 22 Feb 1944 Water way – power station K1433- no date Generator being assembled K1434- 3 Mar 1944 Constr5ucting the power station K1448- no date Generator inside the power station K1450- 17 Mar 1944 Clover Power station K1452- 17 Mar 1944 Looking down on the valve-water release from the power station K1456- 22 Mar 1944 ‘half Travel Opening- No 1 Relief Valve’ Overflow from the power station K1458- 22 Mar 1944 Outlet from the power station K1462- 22 Mar 1944 Inside the power station On the back- each photograph has a handwritten reference number starting with K and the date stamped or writtensecv; kiewa hydro electric scheme; clover power station; junction dam; bogong -
Kiewa Valley Historical Society
Photographs – SECV – Clover Power Station
The Junction Dam and Clover Dam Power Station, stages of the Kiewa Hydro-Electric Scheme, were needed to meet the increased power demands of the wartime industry in Victoria. Clover added 26 megawatts to the grid. Junction Dam was completed and ready to hold water by September 1943, but was emptied in December 1943 and not filled again until May 1944. Construction of Clover Power Station commenced in July 1941 and both turbines were in service by May 1945Clover Power Station and Junction Dam were part of the Kiewa Hydro Electric Scheme constructed by the State Electricity Commission of VictoriaSet of 21 black and white photographs taken by the official SECV photographer who gave each photo a number prefixed by K (for Kiewa) K1463- 22 Mar 1944 Inside Clover Power Station K1464- 23 Mar 1944 Valve K1466- 23 Mar 1944 Fittings for the power station K1467- 23 Mar 1944 Valve K1472- 30 Mar 1944 Equipment being installed in Clover Power Station K1474- 31 Mar 1944 Equipment for the power station K1493- 19 April 1944 Transformer K1495- 28 April 1944 Part of the generator being installed K1514- 11 May 1944 Equipment in the power station K1563- 9 June 1944 Turbine under construction K1565- 22 June 1944 Shaft between turbine and generator K1567- 22 June 1944 Turbine in the power station K1568- 22 June 1944 Transformers K1570- 5 June 1944 Guide vane actuators K1574- 22 June 1944 Equipment in the power station K1567- 22 June 1944 Clover Power Station K1607- 14 Aug 1944 Equipment in the power station K1620- 27 Aug 1944 ‘Charles Tavare (?) Equipment in the power station K1626- 23 Aug 1944 Clover Power Station K1628- 23 Aug 1944 Clover Power Station K1629- 23 Aug 1944 Clover Power Station On the back- each photograph has a handwritten reference number starting with K and the date stamped or writtensecv; kiewa hydro electric scheme; clover power station; junction dam; bogong -
Kiewa Valley Historical Society
Photographs – SECV – Clover Power Station
The Junction Dam and Clover Dam Power Station, stages of the Kiewa Hydro-Electric Scheme, were needed to meet the increased power demands of the wartime industry in Victoria. Clover added 26 megawatts to the grid. Junction Dam was completed and ready to hold water by September 1943, but was emptied in December 1943 and not filled again until May 1944. Construction of Clover Power Station commenced in July 1941 and both turbines were in service by May 1945.Clover Power Station and Junction Dam were part of the Kiewa Hydro Electric Scheme constructed by the State Electricity Commission of VictoriaSet of black and white photographs taken by the official SECV photographer who gave each photo a number prefixed by K (for Kiewa) K1630- 23 Aug 1944 Clover Power Station K1633- no date Clover Power Station K1683- 10 Oct 1944 Weir K1700- no date Tail boy for Clover Power Station K1710- 11 Oct 1944 Part of aqueduct – Clover K1767- 6 Jan 1945 Switchboard in the power station K1769- 6 Jan 1945 Turbine and shaft K1770- 10 Jan 1945 Houses under construction at Bogong Village K1897- 22 Feb 1945 Equipment in the power station K1808- 22 Feb 1945 Equipment in the power station K1910- 31 May 1945 Top of the turbine and the shaft K1964- 16 Jul 1945 Equipment in the power station K1970- 17 Jul 1945 Bogong Village K1983- 30 Jul 1945 Turbine in power station K1984- 30 Jul 1945 Bogong Village K1989- 2 Aug 1945 Turbines in power station K1990- 2 Aug 1945 Equipment in power station K1991- 2 Aug 1945 Bogong village K2011- 28 Aug 1945 Equipment in power station K2015- 28 Aug 1945 Generators in power station K2016- 28 Aug 1945 Top of the turbine and the shaft K2018- 30 Aug 1945 Spiral casing, the turbine and the shaft On the back- each photograph has a handwritten reference number starting with K and the date stamped or writtensecv; kiewa hydro electric scheme; junction dam; clover power station; bogong -
Kiewa Valley Historical Society
Photographs – SECV– Clover Power Station
The Junction Dam and Clover Dam Power Station, stages of the Kiewa Hydro-Electric Scheme, were needed to meet the increased power demands of the wartime industry in Victoria. Clover added 26 megawatts to the grid. Junction Dam was completed and ready to hold water by September 1943, but was emptied in December 1943 and not filled again until May 1944. Construction of Clover Power Station commenced in July 1941 and both turbines were in service by May 1945.Clover Power Station and Junction Dam were part of the Kiewa Hydro Electric Scheme constructed by the State Electricity Commission of Victoria.Set of 2 large black and white photographs of spiral casing for a turbine being transported to a power station on the Kiewa Scheme. Gentleman in lab coat standing inside casing in photograph 1 On the back – dark grey ink stamp “Photographed by / E.B. Studios / 309 George St., / Tel. SW 7373 Sydney” clover power station, secv