This photo was taking during construction of the tailrace tunnel between West Kiewa Power Station and Mt. Beauty. Much of the area was unstable and timber supports were erected prior to concreting. The tunnel was commenced in 1941 and completed in 1952. It brings water from the power station into the open tailrace at Mt. Beauty and then into the regulating pondage before discharge into the Kiewa River.Shows method of construction for supporting walls and ceiling of tunnel with timber, size of tunnel (note worker on upper level), and conditions in the work place during construction in the 1940's/50's - note the timber ladder to gain access to the upper level.Black and white photographHand written on back of photograph "Tunnel face at Tailrace showing Arch Drive".tailrace, power station, water, construction

This machine was in use in the 1940's during the construction of the tunnels for the Hydro Electric scheme. This particular photograph was taken in the Tailrace Tunnel which brings water from West Kiewa Power Station to the open tailrace in Mt. Beauty and then into the regulating pondage before discharge into the Kiewa River. This machine (or one similar) is on display on the Northern side of the entrance to the Visitor's Centre. The tailrace tunnel (or West Kiewa tunnel) was commenced in 1947 from both ends and the breakthrough occurred on 22nd. July, 1950Shows the size of the tunnel and the machinery used for excavation in the 1940's/50's.Black and white photographHandwritten on back of photograph "Jumbo" in Tailrace Tunneltunnel, machinery, water, tail race

The West Kiewa Tunnel (tailrace tunnel) was commenced from both ends in 1947. Very difficult conditions were encountered in the driving of this tunnel and this meant the immediate provision of support and later the lining of the tunnel with concrete. Work proceeded steadily and the breakthrough of the two headings occurred on 22nd July, 1950.This historical photograph shows in detail the amount of work necessary to stabilise and support the tunnel walls before lining with concrete. No solid rock was found and the tunneling proceeded through decomposed boulders, gravel and clay, hence the necessity for support and concreting. Black and white photograph showing the timber support, prior to lining with concrete, in the West Kiewa tunnel.Timbering in West Kiewa Tunnelwest kiewa, tailrace, tunnel

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

Depicted in the photograph are ten miners standing at a cliff face using a high pressure hose, in Beechworth, Victoria. The miners are located in the Three Mile Creek division, in the Beechworth Mining District established January 4th 1858 under An Act for Amending the Laws Relating to the Goldfields by the Governor-in-Council. The Ovens Gold Rush began at Beechworth in February 1852 and was followed by Yackandandah and the 'Indigo Goldfield'. The strategies applied to mining in Beechworth were distinct in comparison to other goldfields in Victoria such as Bendigo and Ballarat. The miners in Beechworth utlised 'hydraulic sluicing' to remove washdirt, the long water races and deep tailraces constructed through solid rock with an estimated 900 miles of water races cut through the Beechworth fields by 1880, demonstrating great engineering feats. The photograph taken is significant as it is a visual representation of the mining strategy, 'hydraulic sluicing' that was particularly unique to the Beechworth mines, particularly in Victoria and an engineering feat.Black and white rectangular photograph printed on matte photographic paper, unmounted print.beechworth mining district, mining, three mile creek division, three mile creek

This book provides in chronological order the development of the Kiewa Hydro-electricity scheme from the first concept (1911) to final construction work (1961). It covers the first attempt to utilise the power of the Victorian Alps water system. It started from a private syndicate and developed to the current State Electricity Commission of Victoria. The incentive for the Hydro scheme was to make money and not as an alternative to the carbon producing coal fired power plants. These coal fired power plants were increasing in numbers to service an ever increasing demand made by population expansion, especially in cities and large rural settlements. This demand spiraled up after World War II when there was a tremendous spike in immigration numbers due to refugees and displaced persons in Europe. The ability to utilise the untapped water provided by the winter snow fields, for a higher yield in electricity, was a powerful incentive to overcome the physical hardships in this remote Alpine region. Future power requirements may initiate the re-installation of the other two power stations(Pretty Valley and Big Hill) covered in original Scheme. This publication not only covers the development of the Kiewa Valley region with respect to population (within a socio-economical framework) but also the subtle but yet strong physical changes of a relatively pristine alpine region. The demands that an ever growing regional population places on the environment is clearly documented in print and black and white photographs. The working and living conditions of those who constructed and gave life to this hydro scheme is well documented in this book. It may be viewed as spartan now but was relevantly good at that moment in time, especially for those workers fleeing a devastated European environment. The successful planning and consideration to minimising any intrusion upon the natural alpine forests and high plains can viewed as an example (compared to the Tasmanian Hydro schemes) of how future hydro schemes (an inevitable requirement) will proceed. Most rural towns (in the early 1900s) were built by unencumbered rural based citizens, with the exception of Mount Beauty and Falls Creek. These two settlements were brought into life by a State (Victorian) Authority for a specific function and program. They were a gated community, that is, only open to construction workers involved with the hydro scheme. All facilities within these communities were provided by the State Electricity Commission of Victoria. The impact on the social, financial and individual independency of the community, by the transition from the S.E.C .environment to one of local government (Shire of Bright), had in some cases a severe impact.This hard covered book has a green cover with pictures on the front and back covers. The front cover has a coloured picture of a snow covered Mount Bogong taken from the opposite mountain range. The valley between both ranges has a whisk of mist over it. At the bottom of this picture are three black and white photographs covering the construction of the Kiewa Hydro - Electricity Scheme. On the back cover is a photograph, (black and white) detailing the Bogong village and Junction dam containing lake Guy. The inside front cover is a black and white photograph which details the construction of the West Kiewa tailrace tunnel during April 1951. The inside back cover is a black and white photograph of the concrete pour at the Clover Dam circa 1952. All photographs and sketches are in black and white. The pages are approximately 160 g/m2 and those which have photographs are on gloss paper.Book spine: "The Kiewa Story Graham Napier Geoff Easdown" alongside this is a white framed circle with white spokes radiating out and underneath in white lettering SECkiewa valley, hydro scheme, victorian alpine region, electricity generators, graham napier, geoff easdown

This image shows the approach to Beechworth from the south-west via the Newtown Bridge. Numerous early buildings line the road as it bifurcates to become Ford and High Streets on the ridge above Spring Creek and Newtown Falls. The sloping, rocky terrain and water course along the gorge show evidence of the intense mining activity that occurred at the site. The Ovens Gold Rush at Beechworth started when gold was found at Spring Creek in February 1852, prompting an influx of miners from around the world. The population grew over 20,000 by 1857. While the earliest mining at Beechworth was similar to that in other Victorian goldfields like Ballarat and Bendigo, Beechworth is notable for its use of hydraulic sluicing as a major method of removing wash-dirt. Hydraulic sluicing employs high pressure jets of water to blast away large areas of earth and wash it down to be run through a sluice box. Gold gets caught in the sluice and the remaining slurry is washed away. This method of mining is extremely effective but causes significant environmental impacts and damage to waterways. Large water quantities were required for large-scale sluicing, and the long water races and deep tailraces that were constructed in the Beechworth area in the nineteenth century are nonetheless considered feats of engineering. The site in the photograph is associated with the Rocky Mountain Mining Company who constructed an eight hundred meter tunnel under the township between 1876-1880 to reduce water levels at Spring Creek, which had been subject to diversions since the earliest days of alluvial mining. Over four million ounces of gold (115 tones) were found at Beechworth between 1852 and 1868, and the wealth from the gold rushes built Beechworth and the nationally significant buildings that remain standing today.This image shows the early development of the Beechworth township above Spring Creek, where gold was discovered in 1852. Evidence of hydraulic sluicing, a uniquely predominant method at Beechworth, and water-works engineering are present in the landscape. By the 1870s, alluvial gold deposits were depleted and increasingly complex engineering was required so deeper shafts could reach bedrock. This image is significant for understanding changes to the landscape and the evolution of mining methods and engineering practices related to the extensive construction, manipulation and management of water networks. The shift from smaller scale alluvial mining to larger company dominance in the mining industry has implications for understanding wider social, economic, political and industrial changes in the region of Beechworth and within the context of the Victorian Gold Rush more broadly. A black and white rectangular reproduction photograph printed on photographic paper. burke museum, beechworth museum, beechworth, gold fields, gold rush, victorian gold rush, hydraulic sluicing, rocky mountain mining company, spring creek, netwown falls, mining tunnels, water races, tailraces, colonial australia, australian gold rushes, mining technology, beechworth historic district, indigo gold trail, migration, indigo shire, gold mining, gold mining history

This image taken between 1920-1930 depicts open-cut hydraulic sluicing at the Three Mile Mine, located about five kilometres south of Beechworth. Alluvial, or surface, mining began on this site in the 1850s, but was soon replaced by hydraulic sluicing methods. By the start of 1880 it is estimated that nine hundred miles of water races had been cut though soil and rock in the Beechworth district. Hydraulic sluicing employs high pressure jets of water to blast away large areas of earth and wash it down to be run through a sluice box. Gold gets caught in the sluice and the remaining slurry is washed away. Large water quantities were required for hydraulic sluicing, and the long water races and deep tailraces that were constructed were considered great engineering feats. This method of mining is extremely effective, but causes significant environmental damage and impacts to waterways and agricultural operations. Miners at Beechworth built extensive networks of races and dams to secure reliable supplies of water on a scale far greater than elsewhere in Victoria. By the 1880s Beechworth's water barons continued to hold more than half of all the water right licences on issue and undertook sluicing operations on a massive scale. The manipulation of surface and ground water via race networks was well planned and recorded in detail by local mining surveyors. The maps that were created, combined with modern geo-spatial technologies, provide a vital key in understanding the great lengths to which miners went to capture and control critical water resources. Today, Three Mile mine is called Baarmutha. The Three Mile Mine was unproductive until 1865 when John Pund and three other miners secured a fifteen year license and constructed a water race from Upper Nine Mile Creek to Three Mile Creek. In the early twentieth century Pund & Co. averaged over one thousand ounces of gold per year from the mine. After Pund's death in 1915, GSG Amalgamated Co operated the site, continuing sluicing until 1950. This image of hydraulic sluicing methods shows the extent of water-works engineering in the landscape. This photograph has historic and research potential for understanding changes to the landscape, the evolution of mining methods, and the extensive construction, manipulation and management of water networks in the Beechworth district. Black and white rectangular photograph on matte paperReverse: 7597-1 / Sluice Mining / Copied from original on loan from Webb (Qld) / Donated Nov 2009 / Baarmutha Three Mile Mine c1920-1950 / Managed by the Plain Bros then Parkinsons / Current Location is: Beechworth Animal Shelter / used for Baarmuthaburke museum, beechworth museum, beechworth, gold fields, gold rush, victorian gold rush, hydraulic sluicing, spring creek, netwown falls, mining tunnels, water races, tailraces, gold ming history, colonial australia, australian gold rushes, mining technology, beechworth historic district, indigo gold trail, indigo shire, john pund, water manipulation, water engineering, three mile creek, three mile mine, water race, large-scale mining methods, historical mining construction, alluvial mining, mining environmental impacts, baarmutha, water barons

This photograph shows a piece of gold mining equipment identified as a mine winch, possibly an air winch cylinder of 1870s RG Ford's Patent design. Throughout the history of mining for gold and other precious materials, the windlass or winch (pictured) was used to bring up buckets full of soil from the bottom of a mine. This soil was then searched for gold/metals before being relocated to a different area. Due to the size and complexity of this particular piece of equipment, this winch may have been used to raise and lower mine carts to the entrance of the mine (often used in coal mining) and could have been used in raising cages up and down (acting as elevators) containing miners if the mine was particularly deep. The actual use of this particular item in the Beechworth locality is undocumented but these are some possibilities based on the use of these pieces of equipment in other mining locations. Mining can have a largely detrimental impact to the environment and therefore, the study of machinery like the one depicted in this photograph can help researches to reconstruct the methods and technologies used in the late 1800s and early 1900s. This particular item appears to have been removed from it's original site where it would have been used to assist with mining. It is possible that this photograph has been taken for recording purposes or as part of a machinery exhibition. Prior documentation records that this piece of equipment had connections to the Rocky Mountains Mining Company. Today, the Rocky Mountains Gold Mining company is famous in Beechworth for having been instrumental in the creation of the Rocky Mountain tunnel. Construction for this tunnel began in 1859 when a group of 12 men blasted a 400ft long tailrace though the rock beneath the town of Beechworth. Today, the 800ft tunnel, completed in 1871, is a popular tourist attraction but during the decades of gold mining, the purpose of this tunnel was to divert water away from the main sluicing operations so miners could better access gold and precious materials. The tunnel was used for this purpose for many years, later becoming useful for the Zwar Brother's tannery and currently as an outfall drain for Lake Sambell. This area continued to be mined until the early 1900s. The period when this item was in use is unclear but it is estimated to have been in the 1870s based on the design and appearance of the image. The gold works at the Rocky Mountain Tunnel closed in the early 1920s but the impact of mining remains in Beechworth today and therefore the study of photographs like this one which contain mining equipment can further understanding of mining in this region.This photograph has historic and research potential for study on the gold mining of the Beechworth region and types of equipment used to locate gold after the initial gold rush of 1853-1854 which resulted in the discovery of the surface gold and required miners to dig deeper to access precious metals. The clarity of the photo, and its good preserved condition, means it can continue to be used for research. This photo is part of a collection of six photos all within the Burke Museum Collection which depict mining equipment.Square black and white photograph on card.7793.1beechworth, mining, goldmining, goldmining equipment, beechworth burke museum