Eppalock. Construction. Eppalock spillway, with water running. Man and woman standing to the left, 2 adults and a child on bottom right of picture.agfacolorcivil engineering, water supply, eppalock, construction. eppalock spillway, with water running. man and woman standing left, 2 adults, child.

Eppalock. Construction. Some of the pipes in the pump room at Eppalock.agfacolorcivil engineering, water supply, eppalock, eppalock. construction. some of the pipes in the pump room at eppalock.

The pump was restored by Alan Mitchell who was an employee of Zerbe Engineering, Ashburn Place, Blackburn. The work was carried out by Alan in their workshop.The pump was patented by Joseph W. Douglas, Middletown Conn. and the patent was assigned to W & B Douglas.A reconstructed well of red bricks. Circular, dome shaped, it has a grill on the flat top of the dome on which the force pump is situated next to the grill. It circulates the water which is held in a tank beneath the brick structure. The force pump is hand operated with a replacement handle made c1965 by Alan Mitchell who restored and donated the pump. The well is located outside the kitchen door of Schwerkolt Cottage.Patented 1842 M--D Conn.civil engineering, water supply, machinery, pumps

Three copies of Joseph Brady's Coliban System of Water Works - A Historical Guide to Celebrate 125 Years of Water Delivery to Bendigo & Castlemaine by Coliban Water. Mentioned in the brochure is Gold & Water, The Original Coliban System of Water Works, The Coliban System Today, The Coliban Engineer - Joseph Martin Brady (1828 - 1908), Coliban System of Water Works Key Facts & Figures, The Aqua Project, Historical Guide, Coliban System of Water Works Map, photo of Joseph Brady, Photo of gold diggers and channel works.Coliban Watercivil engineering, water supply, coliban, joseph brady's coliban system of water works, coliban water, the original coliban system of water works, the coliban system today, joseph martin brady 1828 - 1908, gavan prendergast, coliban system of water works key facts & figures, the aqua project, historical guide to 125 years of water delivery to bendigo & castlemaine, map of system

EMTEC 80 min/700MB CD-R recordable disc with 'J. M. Brady Bendigo Water Wks Crusoe Res Contract Book 1870 - 75 handwritten on the front. Contained in an orange plastic cover. See also 8137.1 - Joseph Brady's notebook on the construction of the Crusoe Reservoir, Bendigo, stored in Box 690.civil engineering, water supply, cd - j m brady - bendigo water wks crusoe res contract book 1870 - 75, emtec 80 min/700mb cd-r recordable

Dark green covered book with gold edging front and back and seven horizontal lines on the spine. On front cover: buff sticker, with Bendigo Water Works, Crusoe Reservoir and others, contracts 1870 - 1874 written in cursive script. Later writing 'from Mrs. H. Strickland, Bungoona, Currie, King Island'. Written inside is: Presented to Bendigo Historical Society by Mrs A Strickland, Bungoona, Currie, King Island. Also the Historical Society Stamp. The next page has three newspaper cuttings. The first is 'The Victorian Waterworks'. It has costings for contracts for water supply, amounts which will supply water from the Coliban to the Castlemaine and Sandhurst districts, and if the Government should purchase the Bendigo Waterworks, and to construct the Upper Coliban reservoir, additional expenditure may be required. (from Daily Telegraph - 1868). The second is some information on The Yan Yean Aqueduct. The third is a letter to the Editor of the Argus from Joseph Brady, dated August 2, 1870, in reference to repairing the leak in the outlet tunnel of the Malmsbury Reservoir. He says the repair of the tunnel was not essential and is unnecessary and 2nd. If the bank was cut through and restored, for years the bank would not be safe, as the earth used in the restoration would require time to subside and unite with the old work. He hopes the embankment would be allowed to stand intact.civil engineering, water supply, coliban, bendigo water works - crusoe reservoir and other contracts 1870 to 1874, mrs a strictland, royal historical society of victoria bendigo branch, coliban scheme, upper coliban reservoir, daily telegraph 1868, yan yean aqueduct, age, argus 2/8/1870, malmsbury reservoir, joseph brady, charles cook, fishburn morton & kennedy, bernard ward & co, the fulton foundry co ltd, james mcewan & co, laylands foundry co, melbourne sewers & water supply, c w gore, crusoe office, john mcilwraith, edward chandler, ia-s miller & co, robison br & co, guthrie/white hills pottery, peter mcpherson, slater & co, john danks, mclean br & rigg, william beebe, t i connelly, i horwoods

Eppalock. Construction. Young boy fishing in Lake Eppalock. Markings: Eppalock Dam 1961.Kodakcivil engineering, water supply, eppalock

Eppalock. Construction. Shows water in the bottom of the lake, or possibly river running into it. Markings: Eppalock Dam. Dec 1962 near Lyal.Kodakcivil engineering, water supply, eppalock

Eppalock. Construction. Piping in engine room at Lake Eppalock. People walking across walkway.agfacolorcivil engineering, water supply, eppalock, eppalock. construction. piping in engine room at lake eppalock. people walking across walkway.

Three soft covered Magazines - the Ballarat School of Mines Students' Magazine for 1953-5. .1) 1953 - The Coronation Number. Articles include: The Mining and Metallurgy Congress, Aboriginal research, Power from Water, Engineering Etiquette, Australian Art Images include: Queen Elizabeth 2, Ballarat Junior Technical School winning the Marching Competition, competitors in the Redex Trial. .2) 1954 - Articles include: Eureka Stockade; Working in East Africa and Canada, Greece, Images include; Craig's Hotel, Eureka Swimming Pool; Barry Jones, Harold Everett, "Tailspin" Taylor, Pastoral Skipton, Margaret McGregor, Nancy Rimmington, Janice Tonkin, First Roll Call in Girls' Junior Technical School .3) 1955. Articles include: Tales from Malaysia, Literary Society Images include; Craig's Hotel, Signatures: N.H. Andrews; J. Skuja: Alan E. Johnson, B.V. McDougall, L.J. Mathews, Daryl Schmidt, J, Collierballarat school of mines, tinney, faneco, jim john, dean, spiers, ngip, barrie smith, stewart rowe, elaine walton, stevens, max stevens, sawyer, ann mitchell, flavel, ingleton, bethune, blackburn, boag, brokenshire, carmichael, kirby, kinnane, alec kinnane, ludbrook, meagher, searl, sheppard, gillin, murray gillan, archer, beattie, bautovich, benjamin, buck, bunting, athol day, eddie, habel, heyes, maddox, phillips, schreenan, donald stevens, tinissen, whitcher, ian whitcher, mccallum, ryrie mccallum, marching competition, skuja, wilton, neil andrews, ellen freemantle, alan johnson, willey, graeme willey, mainwaring, diana mainwaring, mcdougall, little, margaret little, lance matthews, philp davis, eureka stockade, eureka swimming pool, pools, swimming pool, restarick, kempe, barry johns, harold everett, taylor, holmes, wendell holmes, skipton, john collier, collier, daryl schmidt, chris sanos, greece, andrews, doull, everett, seong, lockhead, pitzen, watts, technical school, junior technical school, girl's junior technical school, ballarat girl's junior technical school, baxendale, stan kisler, graham willey, murray, jim murray, grundell, cleland, furlog, ron furlong, judy johnson, russ whitcher, anita young, durant, malaysia, literary society, thurling, andrewartha, barnes, ditchfield, peter ditchfield, dunlop, kisler, mcneil, orgill, quinlan, saggers, bill saggers, seabrook, williams, paddle, graham, handmer, hetehrington, dow, pine, ballarat north junior technical school, william saggers

The photograph depicts a mine cut with a tractor. Water is being used to sluice the front of the tractor, possibly to separate any gold that may have been picked up from the earth. A few people watch the demonstration. Water was a significant part of gold mining in the Beechworth area and miners used a method known as 'hydraulic sluicing'. Due to the amount of water required, many water races were constructed throughout the Beechworth Mining District. These were cut through solid rock and are an example of engineering achievement. Water usage in the area put Beechworth at the heart of water policy, with many firsts for Victorian colonial goldfield water management being established in the Beechworth Mining District. This photograph is significant as it depicts the use of water in gold mining in Beechworth. Beechworth was notable for it's use of water in mining.Black and white square photograph (portrait orientation) printed on matte photographic paper.Reverse: SW-50-2 / 1997 31136 / unreadable pencil markingssluicing, gold mining, mining, hydraulic sluice, hydraulic sluicing, beechworth mining district

In 1875, the Rocky Mountain Extended Gold Sluicing Company Ltd was created, utilising the previous Rocky Mountain claim for the area near Lake Sambell. The company employed A.L Martin to survey an area for a tunnel underneath Beechworth and Johnson Stephens to dig it. The tunnel was built at a rate of 40 feet a month and eventually measured 800 metres. The tunnel was a true accomplishment both in the present and during the 19th century. It was considered to be a marvelous engineering feat. Beechworth is renowned for its hydraulic sluice method of mining. This involved soil being exposed to torrents of water from high-pressure hoses. From 1876 until its closure in 1921, the mine produced an astounding 47,926 ozs of gold. Companies like this were the source of income for many Chinese gold-diggers who sought to make their fortune on the goldfields of Beechworth. During the height of the rush, the town had around 7,000 Chinese inhabitants living on the outskirts of town as they were not permitted to live within Beechworth itself.The search for gold is ingrained into the history of Victoria and therefore, images like this one which portrays an open-cut sluicing site can reveal important information for society and technology for the date when the photograph was taken. This image is of important historical significance for its ability to convey information about sluicing and the methods used to find gold in 1910. It also shows a location where sluicing was undertaken which provides insight into the impact of sluicing on the environment at a time when it was done. This image of the Rocky Mountain mine is historically significant as the mining complex is now non-existent, with the only remains being the tunnel built in 1880 by the company, which was considered one of the greatest engineering feats of the time. The image also provides a first-hand look into the social and cultural networks at play during the 19th century with racial segregation of the Chinese at the 'Chinese Camp', as well as an insight into Beechworth's origins during the Gold Rush.A sepia rectangular photograph printed on matte photographic paper as a postcardReverse: Historic Beechworth / 7792.1 / ROCKY MOUNTAIN MINE / Viewed from the “Chinese Camp”, shown partly in the foreground, we see the central plant of the famous Rocky Mountain Mining Company. This extensive complex, of which nothing remains, was situated between Silver Creek and the present Lake Sambell area. The company was responsible for a tunnel cut through solid bedrock underneath the town of Beechworth and surfacing near the keystone bridge on the Wangaratta side. Completed in 1880 it was declared to be one of the greatest engineering feats in Australia. The tunnel is still basically intact today. / Series by Wooragee Graphics: Historic Beechworth. / COPYRIGHT BURKE MUSEUM / No.72 beechworth, rocky mountain mine, sluicing, gold rush, mining, gold

The photograph is a reproduction of a postcard from the Rocky Mountain Mining Company. In 1875, the Rocky Mountain Extended Gold Sluicing Company Ltd was created, utilising the previous Rocky Mountain claim for the area near Lake Sambell. The company employed A.L Martin to survey an area for a tunnel underneath Beechworth and Johnson Stephens to dig it. The tunnel was built at a rate of 40 feet a month and eventually measured 800 metres. The tunnel was a true accomplishment both in the present and during the 19th century. It was considered to be a marvelous engineering feat. Beechworth is renowned for its hydraulic sluice method of mining. This involved soil being exposed to torrents of water from high-pressure hoses. From 1876 until its closure in 1921, the mine produced an astounding 47,926 ozs of gold. Companies like this were the source of income for many Chinese gold-diggers who sought to make their fortune on the goldfields of Beechworth. During the height of the rush, the town had around 7,000 Chinese inhabitants living on the outskirts of town as they were not permitted to live within Beechworth itself.This image of the Rocky Mountain mine is historically significant as the mining complex is now non-existent, with the only remains being the tunnel built in 1880 by the company, which was considered one of the greatest engineering feats of the time. The image also provides a first-hand look into the social and cultural networks at play during the 19th century with racial segregation of the Chinese at the 'Chinese Camp', as well as an insight into Beechworth's origins during the Gold Rush.Black and white rectangular reproduced photograph printed on paperbeechworth, rocky mountain mine, sluicing, gold rush, mining, gold

The construction on Lake Kerferd began in 1862 however it wasn't completed until 1874 due to engineering and funding issues. The lake was named after George Briscoe Kerferd (1831–1889) who was responsible for Beechworth's water scheme. George Briscoe Kerferd was born on 21 January 1831 in Liverpool, England and arrived in Melbourne April 1853. He spent his first years in Australia in Bendigo before settling down in Beechworth as a wine and spirits merchant. He married Ann Martindale on 17th December 1853 at St James Cathedral, Melbourne and between them they had three sons and five daughters. Kerferd began his political and legal career in Beechworth when he was first elected to the Municipal Council in May 1857. Later he would be elected to the Legislative Assembly for the Ovens District in November 1864, and continued to represent the area until February 1886. This photograph is historically significant as it provides insight into the water reserves of Victoria. It also demonstrates the political identity of George Briscoe Kerferd and the Beechworth Municipal Council.Sepia rectangular postcard printed on paperObverse: Reverse: 83-131-1/ Post Card/ Correspondence / Address Only / BMM2997 / 53 / [Kodak Australia Stamp] lake kerferd, beechworth, water scheme, water reserve, reservoir, legislative assembly, hon. george briscoe kerferd, catchments, beechworth water reserve, beechworth catchments, municipal council, st. james cathedral, lakes, reserve, water supply, political projects

Taken on Christmas of 1941, shown is a track to Lake Kerferd with forest on both sides. The construction on Lake Kerferd began in 1862 however it wasn't completed until 1874 due to engineering and funding issues. The lake was named after George Briscoe Kerferd (1831–1889) who was responsible for Beechworth's water scheme. George Briscoe Kerferd was born on 21 January 1831 in Liverpool, England and arrived in Melbourne April 1853. He spent his first years in Australia in Bendigo before settling down in Beechworth as a wine and spirits merchant. He married Ann Martindale on 17th December 1853 at St James Cathedral, Melbourne and between them they had three sons and five daughters. Kerferd began his political and legal career in Beechworth when he was first elected to the Municipal Council in May 1857. Later he would be elected to the Legislative Assembly for the Ovens District in November 1864, and continued to represent the area until February 1886.This photograph is historically significant as it provides insight into surrounding areas of the water reserves of Victoria. It is also linked to political identity of George Briscoe Kerferd and the Beechworth Municipal Council.Black and white rectangular photograph printed on matte photographic paper.Obverse: Reverse: 8163/ Back track to Lake Kerford/ Beechworth/ Xmas 1941lake kerferd, beechworth, water scheme, water reserve, forest track, forest pathway, reservoir, legislative assembly, hon. george briscoe kerferd, catchments, beechworth water reserve, beechworth catchments, municipal council, st. james cathedral, lakes, reserve, water supply, political projects

Taken between 1920-1930s, shown is the banks of Lake Kerferd with wooden man-made fencing. The construction on Lake Kerferd began in 1862 however it wasn't completed until 1874 due to engineering and funding issues. The lake was named after George Briscoe Kerferd (1831–1889) who was responsible for Beechworth's water scheme. George Briscoe Kerferd was born on 21 January 1831 in Liverpool, England and arrived in Melbourne April 1853. He spent his first years in Australia in Bendigo before settling down in Beechworth as a wine and spirits merchant. He married Ann Martindale on 17th December 1853 at St James Cathedral, Melbourne and between them they had three sons and five daughters. Kerferd began his political and legal career in Beechworth when he was first elected to the Municipal Council in May 1857. Later he would be elected to the Legislative Assembly for the Ovens District in November 1864, and continued to represent the area until February 1886.The postcard holds Historic significance due to its connection to Beechworth and its Lake Kerford. It demonstrates the interactions between nature and colonialists, especially how the lake has somewhat been 'protected' with the man made fencing. It also presents information on the environmental development or degradation for the area, with possible changes to the environment that may have been caused by human physical forces, natural decay or Global Warming.Black and white rectangular postcard printed on paper.Obverse: Lake Kerferd, Beechworth / Reverse: 8164 / Post Card / Correspondence / Address Only / Kodak Austral [Kodak Australia Stamp] /lake kerferd, beechworth, water scheme, water reserve, reservoir, legislative assembly, hon. george briscoe kerferd, catchments, beechworth water reserve, beechworth catchments, municipal council, st. james cathedral, lakes, reserve, water supply, political projects, man-made fence, environmental changes

The construction on Lake Kerferd began in 1862 however it wasn't completed until 1874 due to engineering and funding issues. The lake was named after George Briscoe Kerferd (1831–1889) who was responsible for Beechworth's water scheme. George Briscoe Kerferd was born on 21 January 1831 in Liverpool, England and arrived in Melbourne April 1853. He spent his first years in Australia in Bendigo before settling down in Beechworth as a wine and spirits merchant. He married Ann Martindale on 17th December 1853 at St James Cathedral, Melbourne and between them they had three sons and five daughters. Kerferd began his political and legal career in Beechworth when he was first elected to the Municipal Council in May 1857. Later he would be elected to the Legislative Assembly for the Ovens District in November 1864, and continued to represent the area until February 1886. The postcard holds Historic significance due to its connection to Beechworth and its Lake Kerford. It demonstrates the interactions between nature and colonialists, especially how the lake has somewhat been 'protected' with the man made fencing. It also presents information on the environmental development or degradation for the area, with possible changes to the environment that may have been caused by human physical forces, natural decay or Global Warming.Sepia rectangular postcard printed on paper.Obverse: The Rose Series P. 10542 / Copyright / Evening lights, Lake Kerferd, Beechworth, VIC Reverse: Farley / Published by the Rose Stereograph Co., / Armadale Victoria. / 84-132-1 / Post card / The "Rose" Series De Luxe / A Real Photograph Produced in Australia / BMM299 lake kerferd, beechworth, water scheme, water reserve, reservoir, legislative assembly, hon. george briscoe kerferd, catchments, beechworth water reserve, beechworth catchments, municipal council, st. james cathedral, lakes, reserve, water supply, political projects, rose series, postcard, rose series stereograph

This photograph was taken in the 1960s at Lake Sambell and is a view across the lake from the east side, the photo was taken during a period of improvements to the lake and surrounding area. Lake Sambell is an artificial lake that was created on the site of the old Rocky Mountain Mining Company workings and was officially opened by Minister for Lands, Mr Baily, on October 5, 1928. The disused and unattractive remains of the mine were converted into a recreational area intended for swimming, boating, and fishing. The lake is named after Mr L.H. Sambell, shire engineer and secretary of the Forward Beechworth Committee, who advocated for the enhancement of Beechworth into a tourist destination and was central to the planning and establishment of the lake. Funding for the project was raised through both competition funds and donations. Since the construction in 1928 several engineering issues have arisen. In 1939 the water levels were low, and the lake was considered both an eyesore and ‘mudhole’, Beechworth Shire Council sort funding to raise the height of the lake six feet to improve the quality of water. Throughout the 1940s the Beechworth Swimming Club sort to address the structural engineering issues and improve swimming facilities at the lake. R.E. Carter, similar to L.H. Sambell, was a shire engineer who advocated the importance of positioning Beechworth as a tourist destination. Carter held the position of shire engineer from 1954-63 and organised many improvements to the Lake Sambell area including the caravan park in 1959, the lake swimming pool in 1961, water skiing and boating facilities, and increased the lake surface area in 1964. These improvements to the lake also reflect an increase in leisure time and access to travel during a period of post-war prosperity in Australia during the 1950s and 60s. This photograph is of historical significance as it documents Lake Sambell in the 1960s after a series of enhancements to the lake area to improve its appearance and usability for both the people of Beechworth and tourists. It is also of social significance in providing an insight into the increase in leisure time and access to travel during a period of post-war prosperity. Black and white rectangle photograph printed on photographic paper and unmounted.Reverse: 3534 C798lake sambell, l.h. sambell, r.e. carter, rocky mountain mining company, forward beechworth committee, beechworth swimming club, wallace park lake sambell development scheme, lake sambell caravan park, beechworth 1960s, lake sambell swimming pool, lake sambell boating, lake sambell fishing, swimming, boating, water skiing, fishing, post-war prosperity, minister of lands, artificial lake, open cut sluice mine, lake

This photo was taken in the 1960s from a northeast position looking down towards Lake Sambell, the caravan park, and the surrounding area. This photo was taken during a period of rejuvenation for the lake area including the opening of the caravan park in 1959 and the swimming pool area in 1961 (this pool is just visible in the centre of the photo). The popularity of caravanning in Australia exploded during this post-war period of the late 1950s and 1960’s. This popularity was driven by multiple factors, including: the stopping of fuel rations, the accessibility of car ownership through the manufacturing of affordable cars, technological developments in caravan design, and the increase in prosperity and leisure time for many Australians. Lake Sambell is an artificial lake that was developed on the previous site of the Rocky Mountain Mining Company workings and was officially opened by Minister for Lands, Mr Baily, on October 5, 1928. The disused and unattractive remains of the mine were converted into a recreational area intended for swimming, boating, and fishing. The lake is named after Mr L.H. Sambell, shire engineer and secretary of the Forward Beechworth Committee, who advocated for the enhancement of Beechworth into a tourist destination and was central to the planning and establishment of the lake. Funding for the project was raised by both competition funds and donations. Since the construction in 1928 several engineering issues have arisen. In 1939 the water levels were low, and the lake was considered both an eyesore and ‘mudhole’, Beechworth Shire Council sort funding to raise the height of the lake six feet to improve the quality of water. Throughout the 1940s the Beechworth Swimming Club tried to raise awareness and funds to address the structural engineering issues and improve swimming facilities at the lake. R.E. Carter, similar to L.H. Sambell, was a shire engineer who advocated the importance of positioning Beechworth as a tourist destination. Carter held the position from 1954-63 and organised many improvements to the Lake Sambell area including the caravan park in 1959, the lake swimming pool in 1961, water skiing and boating facilities, and increased the lake surface are in 1964. These improvements were financed mainly by grants from the Tourist Development Authority. This photograph is of historical significance as it documents Lake Sambell and the surrounding area in the 1960s after a phase of enhancements to improve the appearance and usability for both the people of Beechworth and tourists. It is also of social significance in providing an insight into the increase in leisure time and access to travel during a period of post-war prosperity.Black and white rectangle photograph printed on matte photographic paper and unmounted.Reverse: 1 / [logo KODAK/ VELOX/ PAPER] / C798 / 3535lake sambell, lake sambell caravan park, lake sambell swimming pool, caravan park, caravanning 1960s, rocky mountain mining company, l.h. sambell, r.e. carter, beechworth swimming club, forward beechworth committee, minister of lands, tourist development authority, lake swimming, swimming, boating, fishing, water skiing, beechworth 1960s, lake sambell fishing, lake sambell boating

This photograph was taken in the 1960s of the Lake Sambell Swimming Pool with the lake itself in the background. The swimming pool area has multiple features including park benches, a water slide, and a fenced area with a diving pontoon for lap swimming and racing. Lake Sambell Swimming Pool was completed in 1961, driven largely by R.E. Carter, Beechworth shire engineer from 1954-63. Carter advocated for improvements to the lake and surrounding area in order to encourage tourism in Beechworth. The opening of the swimming pool was part of many improvements to Lake Sambell made during this period by Carter including establishing the caravan park in 1959, water skiing and boating facilities, and increasing the lake surface in 1964. These improvements were financed mainly by grants from the Tourist Development Authority. For many decades, members of the local Beechworth community had advocated for the development of swimming pool at the lake that would include a safe wadding area and Olympic standard lanes for laps and races. Throughout the 1940s the Beechworth Swimming Club tried to raise awareness and funds to address the structural engineering issues, raise the water levels, and improve swimming facilities at the lake. Beechworth Swimming Club hosted a swimming carnival at the lake in 1948, but it was decided due to several issues at the event, that no further carnivals would be hosted until necessary improvements were made to the area. Swimming pools, both artificial and built into natural environments, were an extremely popular public space throughout the 20th century in Australia. Increasing in accessibility and popularity through such developments as less restrictive swimming outfits during 1920s, public building works during the 1920s and 30s, and an increase in leisure time during a period of post-war prosperity. This photograph is of historical significance as it documents the newly established Lake Sambell Swimming Pool in the 1960s after many decades of discussion and proposals around creating a safe swimming area at the lake. Further, this photograph provides important social insights into the facilities and uses of this pool in the 1960s, and underlines the significant role public swimming pools have played in Australian social and recreational experiences. Black and white rectangle photograph printed on photographic paper and unmounted.Reverse: 3537 / C798lake sambell swimming pool, lake sambell water slide, water slide 1960s, lake sambell pontoon, lake sambell 1960s, lake swimming pool, lake swimming, beechworth swimming club, swimming pools in the 20th century, r.e. carter, tourist development authority, beechworth 1960s, lake water slide, lake sambell, wadding pool, swimming, swimming pool 1960s, leisure, recreation 1960s

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

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

Taken between circa 1920 - 1950 this photograph depicts a man dressed in dark trousers, a white long sleeved shirt and broad-brimmed workers hat digging around in the Three Mile Mine at Barramutha. The mine was an important gold resource and was typically mined using a method known as hydraulic sluicing whereby high powered water jets are used to dislodge rock or move sediment. The remaining water sediment slurry is directed through sluice boxes to remove the gold. The Beechworth mining district was one of six mining districts established by the governor-in-council on 4th of January 1858 under the provisions of An Act for Amending the Laws Relating to the Goldfields (21 Vic no. 32). This photograph shows historic and research value into the historical methods of hydraulic sluicing in the Beechworth mining disctrict. It also shows the evolution of the mining methods and has potential for understanding future engineering endeavors in the context of victorian mine goldfields. Black and white rectangular photograph printed on matte photographic paper.Reverse: 7597.3/ Copied from original on loan from Webb (QLD)/ Donated Nov 2009/ Barnawatha Three Mile Mine 1920-1950/ Owned by Plain Bros then Parkinsons/ Managed by John Weir, Peter Jenson, Jack Cox/ Slicing. three mile creek, three mile goldfields, three mile beechworth, goldfields, #beechworth, hydraulic mining, hydraulic sluice, burke museum

Taken between circa 1920 - 1930 this photograph depicts a Hydraulic water jet in the foreground and a man dressed in dark trousers, a white long sleeved shirt and broad-brimmed workers hat digging around in the Three Mile Mine at Barramutha. The mine was an important gold resource and was typically mined using a method known as hydraulic sluicing whereby high powered water jets are used to dislodge rock or move sediment. The remaining water sediment slurry is directed through sluice boxes to remove the gold. The Beechworth mining district was one of six mining districts established by the governor-in-council on 4th of January 1858 under the provisions of An Act for Amending the Laws Relating to the Goldfields (21 Vic no. 32).This photograph shows cultural and research value into the historical methods of hydraulic sluicing in the Beechworth mining disctrict. It also shows the evolution of the mining methods and has potential for understanding future engineering endeavors in the context of victorian mine goldfields.Black and White rectangular photograph printed on matte photographic paper. Reverse: Copied from original on loan from Webb (QLD)/ Donated Nov 2009/ Barnawatha Three Mile Mine c1920-1950/ Owned by Plain Bros then Parkinsons/ Managed by John Weir, Peter Jenson, Jack Cox/ Slicing. three mile creek, three mile goldfields, three mile beechworth, goldfields, #beechworth, hydraulic mining, hydraulic sluice, burke museum

Taken between circa 1920 - 1950 this photograph depicts the open mine in the Three Mile Mine at Barramutha. The mine was an important gold resource and was typically mined using a method known as hydraulic sluicing whereby high powered water jets are used to dislodge rock or move sediment. The remaining water sediment slurry is directed through sluice boxes to remove the gold. The Beechworth mining district was one of six mining districts established by the governor-in-council on 4th of January 1858 under the provisions of An Act for Amending the Laws Relating to the Goldfields (21 Vic no. 32).This photograph shows cultural and research value into the historical methods of hydraulic sluicing in the Beechworth mining disctrict. It also shows the evolution of the mining methods and has potential for understanding future engineering endeavors in the context of victorian mine goldfields.Black and White rectangular photograph printed on matte photographic paper.Reverse: Copied from original on loan from Webb (QLD)/ Donated Nov 2009/ Barnawatha Three Mile Mine c1920-1950 Minehead & Slicing/ Managed by John Weir, Peter Jensen, Jack Cox/ Owned by/ the Plain Bros then Parkinsons/ John worked for Pqarkinsons. three mile creek, three mile goldfields, three mile beechworth, goldfields, #beechworth, hydraulic mining, hydraulic sluice, burke museum

This compressor was part of the E.G. Ward Collection. It is connected to the diving suit and boots also in our collection. Siebe Gorman & Company Ltd was a British company that developed diving equipment and breathing equipment and worked on commercial diving and marine salvage projects. The company advertised itself as 'Submarine Engineers'. It was founded by Augustus Siebe, a German-born British engineer chiefly known for his contributions to diving equipment. Siebe Gorman traded as an engineering firm for over 180 years from 1819 to 1999. The early success of the business was due to its founder, the Prussian immigrant Christian 'Augustus' Siebe (1788-1872). For business reasons, he applied for and was granted British citizenship in 1856. He was a gifted engineer who was able to translate theoretical problems into practical, working products. During the industrial Victorian period, the business traded as 'A. Siebe' at 145 High Street Holborn London, but in 1828 new premises were acquired at 5 Denmark Street, Soho. The family firm produced a wide range of manufactured goods including paper-making machinery, measuring machinery, water-pumps, refrigeration equipment and diving apparatus. Augustus Siebe specialised in submarine engineering early on and the company gained a reputation for the manufacture of safe, reliable diving apparatus. Augustus Siebe is best remembered for the development and manufacture of the ‘closed’ Diving Dress based on the ideas of Charles and John Deane, George Edwards and Charles Pasley. Apart from some small modifications to valves and diver communications, the basic 12 bolt ‘closed’ diving dress remained relatively unchanged after the 1870s. Later company successes were also based on innovation, with new products that could be successfully developed and manufactured to high standards. This was largely attributed to the inventive nature, foresight, engineering and entrepreneurial skills of Robert Henry Davis (1870-1965). In 1882, RH Davis joined the company of 'Siebe & Gorman' as a young 11-year-old office boy and he was to remain with the company until he died in 1965. Augustus Siebe retired in 1869 and handed over the company to a new partnership of Henry H. Siebe (1830-1885) and William A. O'Gorman (1834-1904). The new firm traded as 'Siebe & Gorman' (1870-1879) from premises in and around Mason Street, Westminster Bridge Road, Lambeth, London. The two partners soon recognised the potential of R.H. Davis and in 1894, aged 24, he became General Manager of Siebe & Gorman. Davis increasingly ran the company until the surviving partner (W.A. Gorman) died in 1904. The firm was disposed of to the Vickers (armaments) family and a new company 'Siebe Gorman & Co. Ltd.' (1905-1998) was formed. Under the chairmanship of Albert Vickers, R.H. Davis was kept on as Managing Director, and the company forged ahead. However, after WW1, the Great Depression caused manufacturing output and share prices to slump. In 1924 Robert Davis made a deal with the Vickers Board and acquired control of the company through majority shares. Under his leadership, the Siebe Gorman Company flourished and within time, four of his sons also joined the firm. The company gained a worldwide reputation for the manufacture of diving apparatus, decompression and observation chambers, and safety breathing apparatus of all types for use on the land, in the air and under the sea (including mine rescue, tunneling, aircraft, diving, submarine escape and in other hazardous environments). Close research and development links with the MOD (especially the Admiralty), also provided a lucrative outlet for the company products. In 1932, Robert Davis was knighted by King George V, principally for his invention of the ‘Davis Submerged Escape Apparatus’ (D.S.E.A.). Siebe Gorman essentially remained a family firm from the beginning (under A Siebe) until it became a public company for the first time in 1952. However, following WW2, British manufacturing stagnated through stifled investment and post-war austerity, and there was little innovation. Siebe Gorman fortunes began to decline as an ageing Sir Robert Davis failed to invest, or change the company business and management practices. In 1959, Siebe Gorman was acquired by the “Fairy Group” and the ailing Sir Robert was made Life President. Consequently, nothing changed and the slow decline continued until Sir Robert's death in March 1965. Around 1960, Siebe Gorman acquired the diving apparatus manufacturer C E Heinke, and for a brief period, it manufactured some diving equipment under the combined name of Siebe Heinke. Around 1964, Mr. E. 'Barry' Stephens was appointed as the new Managing Director to modernise Siebe Gorman. Changes were made, including a move to a new factory in Wales in 1975. The new company concentrated on fire fighting breathing apparatus and escape equipment, and the move coincided with the loss of many of the older, traditional craft skills. Between 1985 and 1998, Siebe expanded through acquisitions, and several other companies were acquired. The Siebe Gorman (diving apparatus) company has therefore traded as A. Siebe (1819-1870); Siebe & Gorman (1870-1879); Siebe Gorman & Co (1880-1904); Siebe Gorman & Co. Ltd (1905-1998).The compressor is a very significant item as it gives a snapshot into marine history and the development of diving equipment generally especially that used for salvage operations before and during WW2. Siebe & Gorman the company that made the equipment was a leading inventor, developer and innovator of marine equipment with its early helmets and other items eagerly sought after today for collections around the world. The items in the Flagstaff Hill collection give us an insight as to how divers operated and the dangers they faced doing a very necessary and dangerous job during the early days of marine exploration.A single cylinder divers' pump by Siebe Gorman & Co Ltd, London, eccentric hand cranked in brass mounted mahogany case with instructions to the underside of the lid, brass covered pressure gauge and air outlet, brass makers plaque to the front, water inlet and outlet to the rear, green painted lifting rings. Machinery has some blue painted areas on the metal.Plate on the back 'WATER SUPPLY" "WATER OVERFLOW" "WATER DRAIN-IN" Pressure gauge dial "BOURDON'S PRESSURE GAUGE" STEBE GORMAN & CO. LONDON", "LBS PRESSURE" "FEET OF SALT WATER" Plate on the front " PATENT, Siebe Gorman & Co Ltd Submarine Engineers" below emblem (Lion, Crown, Horse)flagstaff hill, warrnambool, flagstaff-hill, maritime-museum, diving compressor, london, siebe gorman & co ltd, marine technology, life saving, deep sea diving, maritime museum, maritime village, manine history

This diving suit with helmet, boots and weight is part of the E.G.Ward collection, along with the diving compressor and a photograph of a diver in this equipment. Siebe Gorman & Company Ltd was a British company that developed diving equipment and breathing equipment and worked on commercial diving and marine salvage projects. The company advertised itself as 'Submarine Engineers'. It was founded by Augustus Siebe, a German-born British engineer chiefly known for his contributions to diving equipment. Siebe Gorman traded as an engineering firm for over 180 years from 1819 to 1999. The early success of the business was due to its founder, the Prussian immigrant Christian 'Augustus' Siebe (1788-1872). For business reasons, he applied for and was granted British citizenship in 1856. He was a gifted engineer who was able to translate theoretical problems into practical, working products. During the industrial Victorian period, the business traded as 'A. Siebe' at 145 High Street Holborn London, but in 1828 new premises were acquired at 5 Denmark Street, Soho. The family firm produced a wide range of manufactured goods including paper-making machinery, measuring machinery, water pumps, refrigeration equipment and diving apparatus. Augustus Siebe specialised in submarine engineering early on and the company gained a reputation for the manufacture of safe, reliable diving apparatus. Augustus Siebe is best remembered for the development and manufacture of the ‘closed’ Diving Dress based on the ideas of Charles and John Deane, George Edwards and Charles Pasley. Apart from some small modifications to valves and diver communications, the basic 12-bolt ‘closed’ diving dress remained relatively unchanged after the 1870s. Later company successes were also based on innovation, with new products that could be successfully developed and manufactured to high standards. This was largely attributed to the inventive nature, foresight, engineering and entrepreneurial skills of Robert Henry Davis (1870-1965). In 1882, RH Davis joined the company of 'Siebe & Gorman' as a young 11-year-old office boy and he was to remain with the company until he died in 1965. Augustus Siebe retired in 1869 and handed over the company to a new partnership of Henry H. Siebe (1830-1885) and William A. O'Gorman (1834-1904). The new firm traded as 'Siebe & Gorman' (1870-1879) from premises in and around Mason Street, Westminster Bridge Road, Lambeth, London. The two partners soon recognised the potential of R.H. Davis and in 1894, aged 24, he became General Manager of Siebe & Gorman. Davis increasingly ran the company until the surviving partner (W.A. Gorman) died in 1904. The firm was disposed of to the Vickers (armaments) family and a new company 'Siebe Gorman & Co. Ltd.' (1905-1998) was formed. Under the chairmanship of Albert Vickers, R.H. Davis was kept on as Managing Director, and the company forged ahead. However, after WW1, the Great Depression caused manufacturing output and share prices to slump. In 1924 Robert Davis made a deal with the Vickers Board and acquired control of the company through majority shares. Under his leadership, the Siebe Gorman Company flourished and within time, four of his sons also joined the firm. The company gained a worldwide reputation for the manufacture of diving apparatus, decompression and observation chambers, and safety breathing apparatus of all types for use on the land, in the air and under the sea (including mine rescue, tunnelling, aircraft, diving, submarine escape and in other hazardous environments). Close research and development links with the MOD (especially the Admiralty), also provided a lucrative outlet for the company products. In 1932, Robert Davis was knighted by King George V, principally for his invention of the ‘Davis Submerged Escape Apparatus’ (D.S.E.A.). Siebe Gorman essentially remained a family firm from the beginning (under A.Siebe) until it became a public company for the first time in 1952. However, following WW2, British manufacturing stagnated through stifled investment and post-war austerity, and there was little innovation. Siebe Gorman fortunes began to decline as an ageing Sir Robert Davis failed to invest, or change the company business and management practices. In 1959, Siebe Gorman was acquired by the “Fairy Group” and the ailing Sir Robert was made Life President. Consequently, nothing changed and the slow decline continued until Sir Robert's death in March 1965. Around 1960, Siebe Gorman acquired the diving apparatus manufacturer C E Heinke, and for a brief period, it manufactured some diving equipment under the combined name of Siebe Heinke. Around 1964, Mr E. 'Barry' Stephens was appointed as the new Managing Director to modernise Siebe Gorman. Changes were made, including a move to a new factory in Wales in 1975. The new company concentrated on fire-fighting breathing apparatus and escape equipment, and the move coincided with the loss of many of the older, traditional craft skills. Between 1985 and 1998, Siebe expanded through acquisitions, and several other companies were acquired. The Siebe Gorman (diving apparatus) company has therefore traded as A. Siebe (1819-1870); Siebe & Gorman (1870-1879); Siebe Gorman & Co (1880-1904); Siebe Gorman & Co. Ltd (1905-1998).The items are very significant as a snapshot into marine history and the development of diving equipment generally especially that used for salvage operations before and during WW2. The company that made the equipment was a leading inventor,developer and innovator of marine equipment with its early helmets and other items eagerly sought after today for collections around the world. The items in the Flagstaff Hill collection give us an insight as to how divers operated and the dangers they faced doing a very necessary and dangerous job.Diving suit including helmet, boots and a weight. Diving suit is made of canvas with knitted cuffs. The helmet is metal. The boots have a thick sole and thick leather upper that is held on with leather straps and buckles. The toe of the boot is heavy metal. The weight is worn next to the trunk of the diver and it has an inscription to mark the front. It is worn with straps and buckles holding it in place. Royal Navy Admiralty Pattern 6 bolt No 3 light Siebe Gorman light diving helmet circa 1960 used by the Royal Navy before and after World War 2"Siebe Gorman & Co Ltd Marine Engineers London. Patent" with "E G Ward" on front and back plate. On weight "FRONT"flagstaff hill, warrnambool, diving suit, siebe gorman and co ltd., siebe gorman and co ltd marine engineers london, marine engineers, diving helmet, diving boots, diving weight, marine diving, maritimemuseum, maritime village, maritime history, marine technology, life saving, deep sea diving

This photograph is connected to the first HMAS Warrnambool J202, which was commissioned by the Royal Australian Navy for use as a minesweeper during World War II. The Bathurst Class Corvette, fitted out with a range of armaments, was launched in Sydney 1941. The ship began service in Bass Strait in 1941. At the end of the year it called into its namesake city, Warrnambool, where the crew paraded for the public marching eastwards along Timor Street. A gift of books for the ship’s personnel and a plaque bearing the City of Warrnambool’s Coat of Arms were presented to the ship. The ship was involved in evacuating a family of nine from the Dutch East Indies that was later successful in its challenge of Australia’s Immigration Restriction Act (White Australia Polity). The ship had many other appointments around Australia. On 13th September 1947 HMAS Warrnambool was leading a flotilla of minesweepers in northern Queensland’s coastal waters, clearing mines previously laid to defend Australia. The ship hit a mine, which exploded and very quickly sunk the ship. Boats from the nearby ships rescued most of the seamen although one was killed at the time. The survivors were taken by the HMAS Swan II to Darwin, and they went from there to hospitals in Brisbane and Sydney. Three of these men later died from their injuries. A number of items were recovered by Navy divers in 1948 including the ship’s bell and a plaque with Warrnambool’s Coat of Arms. In 1972-75 the wreck was sold and other items were salvaged. In 1995 a memorial plaque was erected in Warrnambool near the RSL. NOTE: The RAN built a second HMAS Warrnambool FCPB204, launched in 1981 and decommissioned in 2005. There was also a steam ship SS Warrnambool built in London 1892 and broken up in 1926. [A more detailed history can be found in our Collection Record 3477.] This photograph is significant for its association with Royal Australian Navy and its vessel, HMAS Warrnambool (j202). The HMAS Warrnambool played a nationally significant role in overturning Australia’s Immigration Restriction Act 1901 (colloquially known as the White Australia policy). The ship rescued, and brought to Australia, Samuel and Annie Jacob and their family after they evacuated Dutch East India. The family was threatened with deportation and made the first successful appeal to High Court regarding that Act. The HMAS Warrnambool has - Local significance for being the namesake of the City of Warrnambool - Local significance, having docked in Warrnambool Harbour - Local significance, the crew having paraded in Timor Street, Warrnambool - State significance for its first patrol being in Bass Strait. - National significance, being present in Timor at the Japanese surrender - National significance as part of Australia’s defence force history, being one of only four Bathurst class corvettes lost while in Australian service, the only Bathurst class corvette lost after World War II, the only RAN vessel to be sunk by a mine, and associated with the last four Navy deaths of WWIIPhotograph, black and white, HMAS Warrnambool J202 in water with land and buildings in background. Ship is flying a dark flag with Union Jack in corner and star below it. Lifeboat suspended above deck in centre of ship. Top of funnel has a black band. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, maritime village, maritime museum, shipwreck coast, mort's dock & engineering co ltd, h.m.a.s. warrnambool, hmas warrnambool, hmas warrnambool i, hmas warrnambool j202, hmas swan ii, j202, world war ii, bathurst class corvette, royal australian navy, ran, sydney built ship, bass strait patrol, sea mine patrol, mine sweeper, mine clearance, navy divers, great barrier reef, cockburn reef, southern cross diving and salvage, warrnambool city council, cr j r astbury, mayor j r astbury, warrnambool patriotic fund, seal, coat of arms, ship’s bell, hmas warrnambool 1941, shipwreck by sea mine 1947, sinking ship, sunk ship, sea rescue, life saving, lifesaving, minesweeper

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

The book has a green cloth cover with an indented pattern. The spine has gold printing on black cloth attached to the green cloth. The 820 pages are gilt edged and, to some extent, are water damaged. They contain printed text and lithographs .Some original pages relating to Warrnambool have been removed and replaced with photocopies which are pasted in. There are fold out coloured maps.non-fictionInformation on the of Colony of Victoria warrnambool history, history of victoria