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Kiewa Valley Historical Society
Photograph – Black and white photograph of an unidentified piece of equipment (possibly projection equipment) presumably used by SECV Hydro
The Victorian Government took control of power generation in 1921, forming the State Electricity Commission (SEC). Construction approval on a grand scheme to build five power stations with a combined capacity of 289 megawatts was received in 1938, and the Clover Power Station was completed by 1945. The original scheme was dramatically pruned after World War II and only two more power stations were built. 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.Black and white photograph of an unidentified piece of equipment (possibly projection equipment) presumed to be used in one of the power stations ie: Clover Power Station or Junction Dam as part of the Kiewa Hydro Electric Schemeprojection equipment; -
Kiewa Valley Historical Society
Photograph – Set of 3 black and white photographs of Bogong Village circa late 1930's - 1940's during early construction of Lake Guy ( in the foreground), Late 1930's - 1940's
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 bush fires) 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, electricity3 black and white photographs of the Bogong camp area showing the clearing of trees for the construction of the Junction Dam and Lake Guy. Some administration buildings have been constructed, but part of the tent camp can be seen to the right of the photograph in front of the buildings. bogong village; junction dam; lake guy; kiewa hydro electric scheme; secv -
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 -
City of Ballarat
Artwork, other - Public Artwork, Aaron Robinson et al, Flow by Holly Grace and Aaron Robinson, 2014
Water is key to a thriving community and it is through the representation of water Flow enlivens the space at Bakery Hill. Historically ‘water races’ ran through the valleys of the Greater Ballarat area unearthing the minerals that forged prosperity and wealth. This water still flows today unearthing new possibilities for the community. Possibilities focusing on sustainability, ecology, health and prosperity. Flowing over the site a series of kinetic turbines flutter in the wind creating a contemporary water race. The interactive elements offer visual stimulation enticing people to connect with the artwork and in turn the surrounding spaces. Bakery Hill has great historical significance. It’s connection to the Eureka Stockade and the series of events that were to unfold during the 1850’s was to become the turning point in Australian political history. The placement of each turbine is to mirror a point of history in the timeline of events that occurred during the Eureka Stockade. The Water Race is a symbol of possibilities, the ones created by history and those of modern society. It is a visual timeline that can be read by traversing the site. The connecting turbines that flow and turn in sync are a representation of time passing and the interconnectedness of history with the community that surrounds it. The gateway to Bridge Mall is framed through the placement of each turbine allowing the sense of prosperity and wealth to flow through to the surrounding community. This gateway also references the significance of Bakery Hill reinvigorating the historical site by reconnecting it back to its town centre. The artwork is of aesthetic and historical significance to the people of BallaratTwelve steel turbines set on poles with dates attached and a large bronze 'timeline' plaqueFLOW/ Plotting the motion of Wind, Water, History and Time/ by Holly Grace and Aaron Robinson/ This site has great historical significance. It’s connection to the Eureka Stockade and the series of events that unfolded in the 1850’s was to become the turning point in Australian history. The placement of each turbine within this artwork mirrors a point of history in the events that led up to the Eureka Stockade. It is a visual timeline that can be read by traversing the site. The connecting turbines that flow and turn in sync are a representation of time passing. They are a symbol of the community’s connection to their history. 1851 June James Esmond makes the first discovery of gold in Victoria at Clunes./ 1st July The Port Phillip District separates from New South Wales and becomes the Colony of Victoria. It is still subject to British rule./ August Gold is discovered at Buninyong and at Golden Point, Ballarat. Lt-Governor La Trobe introduces the Gold Licence system in an attempt to reduce the colony’s debt./ 20th September First gold licences issued in Ballarat. / 1852 August/ Eureka Lead discovered on the Ballarat goldfields. December Charles La Trobe resigns as Lt-Governor but he is not relieved until 1854/ July – December/ Unrest builds on the various goldfields with protest meetings held in Bendigo and Castlemaine. Bendigo’s Red Ribbon Movement is active on the goldfields and the Bendigo Petition is presented to Lt-Governor./ December/ Charles Hotham is appointed Lt-Governor/ 1854 March/ A bill to extend the Elective Franchise is passed by the Legislative Council and sent to London for the assent of the British Parliament. 22nd June/ Lt-Governor Sir Charles Hotham arrives in Victoria. The colony faces mounting debt and Hotham orders weekly licence hunts in an attempt to increase income./ August/ Hotham is acclaimed during his visit to the Ballarat goldfield./ 13th September? Hotham orders twice-weekly licence hunts to further increase revenue./ September – October/ Miners are experiencing problems – no shafts bottomed on the Eureka Lead for five weeks./ 7th October/ James Scobie is murdered outside the Eureka Hotel. Many diggers believe that publican James Bentley is responsible./ 9th October/ At Scobie’s inquest, Bentley is acquitted, despite strong evidence of his guilt./ 10th October/ Father Smythe’s servant is beaten up by authorities and falsely arrested for not holding a licence./ 15th October/ Mass meeting of miners on Bakery Hill. Catholic miners meet after Mass. // 17th October/ A meeting of up to 10,000 Diggers is held near the Eureka Hotel to protest against Bentley’s acquittal. The meeting results in the burning of the hotel. Three diggers, Westerby, Fletcher and McIntyre, are arrested. Hotham dispatches 400 soldiers to Ballarat. 22nd October/ Another large meeting is held to address grievances. The Catholics send their leaders, Hayes, Kennedy and Manning to meet Rede. The Government Camp is under siege 11th November/ A public meeting on Bakery Hill results in the formal establishment of the Ballarat Reform League and adoption of the League’s proposals./ 21st November/ The enquiry into the Bentley affair is published. It recommends the dismissal of the judge and the establishment of a Royal Commission. 23rd November/ Westerby, Fletcher and McIntyre are convicted of burning the hotel. The Ballarat Reform League demands their release. 27th November/ A deputation from The Ballarat Reform League, including Humffray, Black and Kennedy, meet with Hotham to demand the release of the three prisoners. Hotham does not believe the diggers have the right to “demand anything”, Rede requests reinforcements in Ballarat. 28th November/ Miners attack the troop reinforcements and wagons passing near the Eureka diggings. A drummer boy is seriously wounded. 29th November/ A “Monster Meeting” attended by more than 10,000 diggers is held on Bakery Hill. The Southern Cross flag is flown for the first time. Peter Lalor addresses the miners and a number of diggers burn their licences. 30th November/ A licence hunt occurs in the morning at the order of Commissioner Rede. Another meeting of radical miners is held on Bakery Hill. Peter Lalor becomes leader of the diggers and calls for volunteers. Many diggers wear an oath to defend their rights and liberties under the Southern Cross flag. A number of diggers move to the Eureka Lead and start to erect a stockade. 3rd December In the early hours of Sunday morning 296 soldiers and police led by Captain Thomas proceed from the Government Camp to the Eureka Lead and attack the Stockade. 22 diggers and 7 military are officially listed as being killed. Many others are wounded. Approximately 120 diggers are arrested and marched to the Government Camp. 4th December/ Funeral of some of the fallen diggers and soldiers. Martial Law is proclaimed in Ballarat. Henry Seekamp, editor of the Ballarat Times is charged with seditious libel. 6th December/ Major General Sir Robert Nickle, commander-in-chief of the military forces in the Australian colonies, arrives in Ballarat. 9th December/ General Nickle repeals martial law. 14th December/ The Gold Fields Commission sits for the first time. 18th December/ The first Ballarat sitting of the Gold Fields Commission is held at Bath’s Hotel. 1855 23rd January/ Henry Seekamp is found guilt of sedition and sentenced to three months in prison. 22nd February/ The Eureka trials starts in Melbourne. February to March/ 13 prisoners are tried and acquitted amid great public rejoicing. 27th March Report of the Royal Commission recommends miners’ rights and significant reforms. 10th November/ Peter Lalor and John Basson Humffray are nominated for seats in the legislative Council. 31st December Sir Charles Hotham dies before his resignation takes effect. flow, aaron robinson, holly grace, public art, eureka stockade, bakery hill -
Kiewa Valley Historical Society
Postcard - Mt Beauty and the Kiewa Hydro Electric Scheme
SECV constructed the Kiewa Hydro Electric Scheme including the township of Mt Beauty. The area became a popular tourist destination.Tourism in the Kiewa Valley especially at Mt Beauty and the Bogong High Plains along with the Kiewa Hydro Electric Scheme became very popular and an important industry.Fold out b & w postcard with 12 photos back to back. All with a title. Kate 1950s 1. High Voltage Transmission Line, showing Mount Beauty Township 2. Clover Dam Reservoir, Kiewa 3. No. 3 Power Station, Kiewa 4. Generators, No. 3 Power Station 5. Turbines, No. 4 Power Station, Kiewa 6. junction Dam, Bogong 7. Mt Beauty Village Shopping Centre 8. Switchyard, No. 4 Power Station, Kiewa 9. Control Room, No. 4 Power Station, Kiewa 10. Winter Scene at Rocky Valley on the Bogong High Plains 11. Water Channel, Mt Bogong in Background 12. Mt Beauty Township, Kiewa Valleytransmission line, power station, generators, mt beauty, turbines, junction dam, switchyard, rocky valley, control room -
Wodonga & District Historical Society Inc
Album - Hume Reservoir Australia Album - Hume Reservoir Detailed diagrams, Department of Public Works, N.S.W, 1927
This set of photos is from a leather bound album bearing the inscription "HUME RESERVOIR AUSTRALIA" plus 'The Rt. Hon. L. C. M. S. Amery, P. C., M .P.' all inscribed in gold. It was presented to The Rt. Hon. L. C. M. S. Amery, P. C., M. P, Secretary of State for Dominion Affairs on the occasion of his visit to the Hume Reservoir on 2nd November 1927. This album is of local and national significance as it documents the planning and development of the Hume Reservoir up to 1927. It was the largest water reservoir in the British Empire. The album records the pioneering engineering work that went into its construction.6 Diagrams showing the details of the Hume Reservoir structure. On the left from the top of the page to bottom are:- ELEVATION LOOKING UPSTREAM, PLAN aTYPICAL SECTION OF EARTHEN EMBANKMENT. ' On the right from top to bottom are:- SECTIONAL - ELEVATION OF SPILLWAY & TAIL WATER ENERGY DISSIPATOR, SECTION THROUGH REGULATING OUTLETS and SECTION THROUGH TURBINE OUTLETS.hume reservoir australia, river murray waters scheme, hume weir diagrams, hume plan details -
National Wool Museum
Textile - Community Textile Tapestry, Lisa Kendal et al, WARM, 2016
WARM was a community textile art project that saw over 250 knitters come together to create a beautiful collage tapestry. Made entirely from wool, the artwork contains more than 1000 individual hand knitted sections. The project takes aim at global warming, it highlights both the causes and solutions for us to create a sustainable and safe climate for future generations. Lisa Kendal, the co-creator of the project, said “One of the problems in the world is that we have forgotten how to warm ourselves with wool. We have become too dependent on fossil fuels (for heating)”. This is the key idea surrounding the project. WARM began as two large scale images created by Lars Stenberg. The first image is a landscape scarred by coal mining. The second image is the same landscape only many decades later. Regeneration and regrowth have taken over the landscape and hidden the past coal mine completely. In its place is a beautiful landscape including trees, native flowers, a lake, lots of greenery and wind turbines. From March to the end of August in 2016, knitters worked hard to create the over one thousand pieces that came together to form the final tapestry. The pieces were all designed by Fibre Artist Georgie Nicolson of Tikki Knitting Designs, who converted the second image of the healed landscape into patterns for the 250 plus knitters to follow. These patterns included unusual designs such as gum leaves, trees, native flowers and even the wind turbines. During several days of installation, the knitted pieces were stitched together by Lars Stenberg over a picture of the first image of the operational coal mine. They worked to create the second image of the renewed landscape; like an enormous collage. The WARM project was donated to the National Wool Museum in 2021. It was a much-loved hanging within the Ballarat Hospital for many years before coming to the museum. More information about the project can be found on the following website. http://www.seam.org.au/warm The tapestry is made from 1000+ hand knitted sections stitched together to make an image. In the foreground of this image is a large gum tree that stretches from the bottom left to the top right corner. The trunk of this tree follows the left edge of the tapestry, with foliage from the gum tree spanning its top border. The bottom third of the tapestry is predominantly green grass with yellow, pink and red flowers providing sporadic colour. The middle third encompasses a lake, with orange colours surrounding the banks of the water as opposed to the green grasses of the bottom third. To the right of the lake are wind turbines. The top third of the tapestry is blue sky with white clouds. It also contains the previously described gum tree leaves. Each piece of the tapestry is 100% wool and was hand knitted and stitched together. The Tapestry is accompanied by an oil painting on canvas. It is a painting that matches the tapestry and served as a template for the final tapestry. Finally, the tapestry is accompanied by another pointing on wood board. This final panting is of a coal mine. This is the setting before regeneration and regrowth have reclaimed this site, which is the theme captured in the final tapestry. In the foreground of the coal mine painting is the same gum tree described in the tapestry; however, it is grey and sickle with only 4 leaves visible at the top border, compared to the numerous leaves in the tapestry. Also in the foreground is a broken barb wire fence adding to the unwelcoming nature of the site. The colour scheme of this image is of dark greys and browns. A coal fired power plant can be seen in the final third of the image with four chimneys emitting plumes of smoke into the sky. In front of this power plant is the spiral shape of a coal mine, burrowing deep into the earth’s crust. Inside of the coal mine 3 yellow trucks are seen mining and transporting coal to the top of the mine.warm, community textile tapestry, knitting, community artwork, global warming -
Federation University Historical Collection
Book, McGraw Hill Book Company Inc, Hydraulics by R.L. Daugherty, 1919
... hydraulics hydrokinetics impulse wheel water power plants ...Blue hard covered bookhydraulics, hydrokinetics, impulse wheel, water power plants, reaction turbine, turbines, centrifugal pump, bookshop plate, tait book co -
Flagstaff Hill Maritime Museum and Village
Equipment - Boiler, T & F Johnson, boilermakers, late 19th century
A steam boiler like this one, made in the late 18th century, is often called a colonial boiler. Steam boilers were used in factories throughout Australia, mounted over similar designs of brick furnaces. This boiler is a fire tube type, in which the heat from the fire travels through the tubes and water circulates around them. Another kind of boiler is a water tube boiler, in which the water is inside the tubes and the heat of the combustion surrounds the tubes. The boiler in our collection burned wood as fuel but others of this design could also burn coal, coke, gas and liquid fuels. The boiler was made by T & F Johnson, boilermakers. In 1922 their factory was located at Coventry Street, South Melbourne. They were still advertising their 'Colonial, multi, vertical boilers, all sizes' at the same address in 1934. The connected pressure gauge, made in London by Dewrance, measures 0 to 400 pounds per square inch. John Dewrance is renowned as a pioneer of the steam locomotive in the early 19th century. He founded John Dewrance & Co. in South London in 1844. His son Sir John Dewrance took over in 1879. In 1939 the company became a subsidiary of Babcock & Wilcox, and was eventually owned by Emerson. How the boiler works: - A boiler is about two-thirds filled with water and heat is applied, in this case in the form of burning wood. The heat is transferred through the metal of the boiler to the water. When the water boils the steam rises to the top, and as it escapes from the boiler the steam pressure builds up in the steam space to later be released to do work; drive machinery such as ship and train engines, turbines, presses, wheels, and driving belts to operate looms and saws. The heat associated with the boiler can be used for preserving food, sterilising, factory manufacturing processes, and steaming wood for shipbuildin. Every boiler has several components fitted for safe operation: - - Safety valves - Gauge glass - Pressure gauge - Main steam stop valve - Water check valve - Blowdown valve - Manhole doorThe boiler is a significant item that gives us a snapshot of early Melbourne's industrial history. It is an example of the technological advancement during the Industrial Revolution where steam-driven machinery and motors could perform tasks more efficiently than manual labour. The makers were one of many boilermaker businesses in Melbourne during the early late-19th andearly 20th centuries. The maritime trade and skills of boilermaking are still learned and applied today. The Dewrance steam pressure gauge connected to the boiler was made by the London firms foundered by John Dewrance. He was renowned for developing the steam locomotive in the early 19th century.Boiler; a horizontal cylindrical underfired steam boiler. It is a multi-tubular design and is timber plank-clad, with brass fittings and pressure gauges. The boiler has an iron door at one end with a metal chimney above it. It is installed over a brick-enclosed solid fuel furnace. Two large, wood-mounted pressure gauges are connected to the boiler and have inscriptions. An inscription is on a red, cast iron plaque above the boiler door. The boiler's maker is T & F Johnson, South Melbourne. One of the pressure gauges was made by Dewrance, London..Maker's plate: "T & F JOHNSON / BOILERMAKERS / SOUTH MELBOURNE" Pressure gauge: "POUNDS PRESSURE / PER [square] INCH / DEWRANCE LONDON"flagstaff hill, warrnambool, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, boiler, multi tube boiler, steam boiler, steam technology, underfired boiler, horizontal boiler, timber clad boiler, steam power, industrialisation, boilermakers, south melbourne, dewrance, john dewrance, pressure gauge, dewrance pressure gauge, t & f johnson, london, steam engine, steam locomotive, pounds per square inch, 19th century, steam machine -
Bendigo Historical Society Inc.
Tool - BILL ASHMAN COLLECTION: MULTIPLE SCALEBUOY
Four scalebuoys stacked above each other in a metal frame one with a copper turbine arrangement on top. An electromagnetic apparatus containing mercury, promoted for its ability to convert ordinary tap water in the home into therapeutic bathing and drinking water with healing powers related to a wide range of medical conditions. The scalebuoy was also sold for a remarkably diverse list of other uses and benefits. Invented by Richard Hartley Smith Abbott, a well known Bendigo businessman following World War 1.Bendigo Electronic Coy Patd A.C. Scalebuoysciences, instruments - general, scalebuoy, bendigo-history-inventions-business-abbott