Clover Power Station was being constructed on 9th June 1942 by the State Electricity Commission of Victoria as part of the Kiewa Hydro Electric Scheme.Clover Power Station is situated near the Bogong Township and was the first power station in the KHES to be constructed.Green filtered photo with title ( black on white) underneath framed with green cardboard.clover power station, kiewa hydro electric scheme

The State Electricity Commission of Victoria constructed the Kiewa Hydro Electric Scheme on the Bogong High Plains. The scheme consisted of storage dams and pondages, aqueducts, tunnels, pipelines, transmission lines and three power stations.. Rocky Valley dam was the biggest storage and the last to be completed.Rocky Valley dam was the largest storage within the Kiewa Hydro Electric Scheme. Begun in 1954 and completed in 1960. It was linked to McKay Creek Power StationColoured photo attached to cream cardboard. The background shows hills and the foreground a sign "Rocky Valley Dam ..." The middle shows the dam with water and its bank. There is snow on the ground.rocky valley dam, kiewa hydro electric scheme, secv

No. 1 Pipeline heads down the mountain from McKay Power Station (the Kiewa Hydro Electric Scheme) and can be seen from the Falls Creek Rd.. The pipeline is 1635m long. It was built on the mountain rather than as a tunnel inside the mountain - "It was argued that a pressure pipeline on the surface, while not actually cheaper than the tunnel could possibly save one year in construction time.'The document is a report on the welding involved on the No. 1 pipeline. J. M. Scott was the welding inspector for the SECV on the Kiewa Hydro Electric Scheme. The book is produced by the SECV and is the 'Foremen's Guide' and includes rules and regulations across all areas.A) 10 pages of a 'field record' all pages typed on one side. Stapled on top left corner B) Small, fat book c190 pages plus appendix. Thick and 'tattered looking'. Bound by flexible 'cloth?'(linen?) and fastened with 2 rusty fasteners.B) Cover - F/M J. Scott and red SEC stamp. Inside cover: "checked ... 22-8-55" and "checked 18-11-55"j.m. scott welding inspector, no 1 pipeline mckay power station, kiewa hydro electric scheme

Official photo of KHES constructed by SECVOfficial photo of KHES in the Kiewa Valley1. No. 1 Pipeline - from Anchor 1 to Anchor 5. August 1955 2. Junction Dam - General View from Downstream - May 1943 3. No. 3 Power Station - Clover Flat Camp - February 1951 4. Clover Dam - October 1954 5. View from Downstream of Junction Dam - July 1943 6. Upper Kiewa Valley Road 3 to 4 Mile - Mt Arthur in Background - July 1954 khes, secv

K.H.E.S.Photos 4 coloured and 8 black and white with the Title printed below each one. 1. S.E.C.V. Telephone Switch Board (See also KVHS 0847) 2.West Kiewa Tunnel 3. Construction of Underground Power Station 4. Pretty Vally Camp 5.Outside Kiewa House, Bogong 6. S.E.C.V. Saucer (See also KVHS 0128) 7.Insulator Disk Struck by Lightning 8. S.E.C.V. Map of the Kiewa Hydro Scheme 9.Howman's Gap Camp 10.Tunnel Excavation Face 11. Mt Beauty Townhship 1948, looking north east 12. Mt Beauty Township - no labelkiewa hydro electric scheme photos

Dartmouth Dam was built on the Mitta Mitta River in the 1970s. It is the highest dam in Australia (2022). It is the largest storage in Victoria (2022). It was built primarly for irrigation and urban use. The power station has the largest hydro-electric generator in Victoria (2022).

During the construction of the Kiewa Hydro Electric Scheme the employees socialised by joining clubs such as the table tennis club.McKay Creek was the site of a power station where the employees lived in the camp while working there. Table tennis entertained them during their leisure time. This activity is of historic and social significance and can be compared with activities of today especially as Mt Beauty was built as a construction town for the Kiewa Hydro Electric Scheme and is now a small town with the added influence of tourism. McKay Creek was part of the construction with a work force living there.Large Black and white photo of the McKay Creek Table Tennis Club including 18 men and 1 boy.ID on the back and "AM Collection"mckay creek power station, table tennis club, 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

The SECV constructed the Kiewa Hydro Electric SchemePhotos showing the development and history of the Kiewa Hydro Electric Scheme8 small b & w photos. All with titles including "Kiewa Hydro Electric Project". They are in an envelope titled "Valentine's / Snapshots / Eight Real Photographs / Kiewa Valley / Published by /The Valentine Publishing Co. Pty. Ltd / Melbourne and Sydney 1. Kiewa Valley Panorama 2.The East Kiewa River 3. Road to Bogong High Plains 4. Mt Beauty Village 5. Snowfall Bogong Village 6. Bogong Village 7. Junction Dam Spillway, Lake Guy Bogong 8. No 3 Power Station mt beauty, bogong village, bogong high plains, junction dam, power station

The SECV established in 1921 built many Power Plants including those on the Kiewa Hydro Electric Scheme.The article explains the power plants built on the Kiewa Hydro Electric Scheme.White paper folded into 4 panels with the cover including the SECV emblem and the titles .(3 copies). When unfolded the section beside the cover is a graph titled Kiewa Hydro Electric Scheme / Cross section of General Layout On the inside panel 3 is the title Kiewa Hydro Electric Scheme with a photo of No. 3 Power Stationpower plants, no. 3 power station kiewa scheme

The McKay pipeline was built by the SECV during the construction of the Kiewa Hydro Electric Scheme. It begins at the McKay Power Station, is above the ground going down the mountain.The McKay pipeline was built by the SECV during the construction of the Kiewa Hydro Electric SchemeBlack and white large photo of Mt McKay's pipeline going down the mountain. It has a black plastic frame.no 1 pipeline mckay power station

This photograph shows part of the railway constructed and used for the removal of soil and rocks from the tunnels bored out of the mountains for the pipeline servicing the Hydro Electricity power stations in the Kiewa Hydroelectric Scheme. This photo details an era when there were 4,000 construction workers located in two main accommodation camps, Mount Beauty (the larger one) and Bogong village. These accommodation sites were constructed and maintained as a secured or gated residential area with access only available by a special pass authorised by the Kiewa Hydroelectric Scheme. All the power used by the rail system was from electric motors connected to batteries. Overhead power poles seen on either side of the embankment details that electricity from the Scheme was in use. This use was cleaner and more environmentally friendly than the coal still used by large locomotives from city to country railways. The worker shown is not however wearing protective head and hand coverings. This is also an era where there was a lack of health and safety legislation covering workers in dangerous working conditions.Scanned photo of original black and white photo on Kodak XtraLife II paper. Picture is of a section of railway track servicing the tunnels of the Hydroelectric scheme during the 1940s - 1950sOn back of photo "Kodak XtraLife II paper"railway in kiewa electric scheme, tunneling

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

Howman's Gap camp was erected in 1948. The proposed dam to be built at this site was postponed in 1954 because of financial restraints imposed by the government at this time. It was to have supplied water for No. 2 Power Station at the Junction of the Pretty Valley and Rocky Valley branches of the East Kiewa River. This power station was not constructed until 2008 - 2010 and now gets it water from McKay Creek Power Station. The site of this camp is now occupied by the Howman's Gap Alpine Centre. Some of the original buildings still remain. An excellent photographic record of the type of buildings and size of the camp for accommodation of workmen during construction of the Kiewa Hydro Electric Scheme.Black and white photograph of the buildings erected at Howmans Dam site as accommodation for workmen.Handwritten in blue ink on the back of photograph "Howmans Dam Camp"howman's gap, camp, water, dam

In July, 1941 work commenced on the site of the power station with the building of a coffer dam and excavation for the power station building and machine foundations followed. Work proceeded, and the access bridge, transformer foundations and transfer track were completed in April, 1943 and the power station building in May, 1943. Installation of the machines was then proceeded with and No. 1 machine was run for the first time in June 1944. No. 2 machine was completed in April, 1944 and placed in service in May.A pictorial record for the State Electricity Commission of the first Power Station commissioned in the Kiewa Hydro Electric Scheme.Black and white photograph of the bridge and entrance to No. 3 Power Station (Clover Power Station).Handwritten on back of photograph in blue ink "No. 3 Power Station".clover, power station, machine, kiewa scheme

At the Pretty Valley Dam site erection of staff quarters was completed in April, 1947 and accommodation for workmen commenced in 1948 but suspended on 11th May for winter and resumed on 9th November. Construction of this camp was completed in 1949. A large dam was proposed at this site but was never constructed. Instead a small diversion dam was built which diverts water either to Rocky Valley Dam or to McKay Creek Power Station.An historical record of the type of accommodation provided for workmen during the construction of the Kiewa Hydro Scheme during the 1940's/50'sBlack and white photograph of Pretty Valley Camp showing general terrain and the huts built to accommodate workmen employed on the Kiewa Hydro Electric Scheme.pretty valley, dam, water, workmen, camp

The first commercially available, Australian-made domestic refrigerator to operate without ice was produced by Edward Hallstrom in 1923. It used kerosene as a power source and was promoted as ideal for outback stations where ice was not available. According to Museum Victoria, Hallstrom introduced the 'Silent Night' which ran on electricity or gas in 1935. However, Hailstorm's great-grandson, stated that the Silent Night refrigerator was introduced in 1928. Although Australians were among the pioneers of refrigeration in the 1850s, the technology wasn't adapted for domestic use until many decades later. The first domestic electric refrigerator was sold in America in 1913. It had an air-cooled refrigeration unit mounted on top of an ice box. The Frigidaire and Kelvinator brands date from 1918 when the first self-contained fridges were sold. Before this food safes were used as well to keep food away from flies and to keep items cool.A significant item used from the late Victorian era until around 1940 when people were beginning to be able to afford domestic refrigerators. After the second world war, most households had replaced their food storage cupboards or safes with refrigerators. The subject item gives a snapshot of domestic life from this time.Wooden kitchen food safe, 2 door with wire mesh at sides. Raised back panel has shaped edges and includes a shelf above bench area that has turned legs. The safe has 4 plain legs.Noneflagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, food safe, kitchen safe, kitchen furniture, food storage

Information from Norman F. Dalton: Ballarat had a reticulated DC supply in the early part of last century and in 1905 had sufficient generating capacity to enable the trams to be changed from horse drawn to DC electricity. The use of electricity increased with the main power station located on Wendouree Parade, near Webster Street, under the ownership of The Electric Supply Company of Victoria. AC generating plant was installed in 1925 and conversion to AC proceeded. In 1934 the company was taken over by the State Electricity Commission Victoria (SECV) and more AC generation was installed and the changeover of customers was accelerated. This is around the time that the Synchronome Frequency Checking Mast Clock was installed at the Wendouree Parade Power Station. The SECV Annual Report of 1921 states: ::Section 11 of the act directed the COmmission to enquire into the question of securing the adoption of such standards of plant and equipment of a system, frequency and pressure for the generation and distribution of electricity as will admit of the efficient interconnection of undertakings throughout the State. In 1934 when the SECV took over the Ballarat operations the question of linking with the State grid had been a planned operation for some years but due to financial considerations had hindered it and in fact would continue to do so for a further 10 years. So while the need for close frequency control for interconnection was hardly an issue, the need to keep electric clocks correct was important, particularly as this item was a frequent sales point to cover the inconvenience and sometimes expense of converting from DC to AC. The clock is a very accurate pendulum clock with provision for varying effective length during operation for precise time regulation. There are two normal time dials and one is controlled by the pendulum and the other is operated by the system frequency. When the clock was in use it was installed by the MEter and Tests Laboratory and the time was checked daily by radio time signals. The two dials were repeated in the operators control panel in the Power Station. A maximum deviation between the two dials was set in the operating instructions (eg 5 seconds) and the operator would correct this when necessary by remote manual alteration of the turbine governor set point. The clock was used to drive and regulate a system of "slave" clocks which were used to display the time in various locations around the power station. A slave clock is a simple clock which is driven by a small electric motor, its accuracy is regulated by the master clock every 30 seconds to ensure that it and all the other slave clocks in the station are on exactly the right time; slave clocks were placed in various locations, from common rooms to workshops. A master clock could potentially run thousands of slave clocks at one plant. The clock also contains a rectifier. A rectifier is a device that is used to convert AC power to more stable DC current.Two clocks in a timber case. Both are electric, one is powered by the main pendulum mechanism, the other is a self contained electric clock. The main mechanism is of the gravity arm and roller type, which sends an impulse to the slave clocks every 30 seconds. The This Synchronome Frequency Checking Master Clock was used at the Ballarat Power Station. Below the main section of the case is a smaller cabinet containing a rectifier to provide consistent DC power for the clock. The rectifier was made by the Victorian company Hilco, which was located in Burwood. There is a high chance this is not the original rectifier from this clock as there appears to be brackets to hold a larger device in the space the rectifier occupies.Front below main clock face on front of case: "Patented Sychronome Brisbane" Lower left-hand clock face: "Frequency time" Lower right-hand clock face: "Standard Seconds" Synchronous electric clock mechanism on door (Frequency time clock): >200/250 V. 50~ >"Synchronomains" Made in England >Direction indicator for clock starting switch >"To start move lever in direction of arrow and release" >"Patent applied for" Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for main clock face: >"English Made" >"Patented" >Serial number "8751" >0 above right-hand pillar on front-plate Inside case, back panel, top enamel plate: >Seconds Battery + Pos. > Battery Common or - Neg. >1/2 min dials Inside case, back panel, bottom enamel plate: external seconds dial Inside case, right hand side, electrical knobs: two switches, both "A.C. mains" Pendulum rod, below suspension spring: Serial number (?) 0000005 Rectifier in bottom cabinet: >"Hilco Rectifier" >"A.C. Volts 230/240" >"Model 1060/S" >"A.C. Amperes" >"Serial No. 1060/S >"Phases 1" >"D.C. Volts 6" >"C.P.S. 50" >"D.C. Amperes 1" >"Made in Australia by Hilco Transformers McIntyre St., Burwood, Victoria." Bakelite electrical plug: makers mark Lower cabinet, RH side panel, pressed tin plate: "AC" (upside down) Brass speed adjustment, outer right RH side: "S" and "F" Ivory and wood pendulum beat ruler: >Ruler, with 0 in centre and numbers 1-5 in ascending order from centre on left and right. > "Synchronome Patent." Steel plate, back panel, inside case, right hand side: >N R A" (descending) >"2191" serial number/part number Face of main clock: "Synchronome Electric" synchronome frequency checking master clock, electricity, state electricity commission, wendouree parade power station, secv, clock, time, pendulum, electric supply company of victoria, norman f. dalton, ballarat power station, rectifier, slave clock

This AC generator operated for the State Electricity Commission in the Ballarat North Power Station prior to World War Two. James Oddie of Ballarat has an association with Thomas Parker of Elswell-Parker. In early 1887 Oddie arrived in England seeking information on electrical knowledge and its developments. At this time Henry Sutton was teaching Electricity and Magnetism at the Ballarat School of Mines. Oddie stayed in the United Kingdom for around three years and during that time became a close friend of Thomas Parker and his family. The two first met at the first official running of the Blackpool tram, and Oddie was invited to visit Parker at Wolverhampton. Over the years Thomas Parker kept newspaper cuttings (mainly Australian) relating to James Oddie and his work. The following article is a description of the Wolverhampton works by James Oddie, and was collected by Thomas Parker. After the dinner at Blackpool, Mr. Parker visited me, and cordially invited me to see his extensive works at Wolverhampton, an invitation I was not slow to avail myself of. This was the keynote of the best friendship I made in England. I went shortly afterwards and stayed several days, visiting the works daily, as Mr. Parker gave me the run of the whole works. There I ordered the installation of a 60 light dynamo, with a 28 cell storage battery and paraphernalia, now doing duty at the Observatory. I subsequently visited the works frequently, sometimes for a week at a time, and I regard it as the brightest spot in my English constellation. Mr. Parker started his works in 1880, with one man beside himself. He never had a single day’s instruction in electricity in his life; now he daily instructs between 300 and 400 employees, who worship him as a father. He is said to be now the most practical electrical engineer and mechanist in Europe. During one of my visits I took with me an artist, who is painting for me a portrait, 6 feet by 5 feet, of Mr. Parker, surrounded by dynamos, secondary batteries, measuring instruments etc. Electric tram cars are going to be a big thing in England. Parker’s Company Limited, is now, with three other companies, in the hands of the Electric Construction Company, with Mr. Parker as manager of the lot. The whole of the works will be taken to Wolverhampton. Before I left, a tender for £50,000 was accepted for the construction of new works.AC Generator painted read and black on a stand. This AC generator operated for the State Electricity Commission in the Ballarat North Power Station prior to World War Twogenerator, ac generator, elwell-parker ltd, state electricity commission, sec, ballarat north power station, james oddie, wolverhampton

This generator is associated with James Oddie, and possibly Henry Sutton. Early Grey generatorelectricity generator, ballarat power station, ballarat electricity supply

A blue, soft, illustrated covered book.state electricity commission of victoria, anniversary, monash house, w.h. connolly, alexander fitzgerald, t.p. scott, b.j. callinan, yallourn, hazelwood power station, morwell power station, briquettes, morwell briquette works, water power, hydro-electric supply, rocky valley reservoir, electricity network, transmission statins, yallourn "w" power station, eildon reservoir

Newspaper clipping. Bendigo Advertiser. Saturday October 14, 1961. Early Railway Picnics Recalled. Article includes photo of souvenir tram ticket number 3588. Springtime, 1905 was Railway picnic time. And what a time it was - with packed trains from the metropolis and country towns, and Bendigo, thronged with the crowds of gay holiday-makers. Souvenir ticket belongs to rear Mrs. A. Bolitho, 5 Webster Street, Bendigo, issued by Electric Supply Coy. Of Victoria Ltd., Bendigo Tramways. Railway Picnic September 16, 1905. The ticket belong to Mrs Bolitho's father, the late Mr J H P Ellis, who lived in McIntyre Street. Post card size, printed in sepia on cream, bears photographs of the power house, engine room, a tram (we presume one of the first models) and the boiler room. Down the sides are listed cemetery, railway station, Rodney St, Charing Cross, through to California Gully Bridge and Eaglehawk. The fare was 2d. On the back a Beehive advertisement. 'Half-Century With Trams' is a history as remembered by Mr W J Evans of Mt. Korong Road, California Gully. 'Boisterous' is a history as remembered by Mr W Bolton of the firm of Bolton Bros. recalled the early picnics as 'boisterous' affairs. 'riff-raff' used to gather at Spencer St Station, arriving in Bendigo-after having spent the night drinking. The picnicers certainly had a right royal time in those early days. Railway Picnic was also boronia time, Mr Bolton said - and bunches of fragrant West Australian borania were sold on the streets. Bolton Bros always printed the tram tickets in Bendigo in those early years. A report in the 'Bendigonian' of the 1903 Railway Picnic period told that 20 special trams came to Bendigo on Saturday morning, September 15, 1903. Railway Picnic Committee: J Southern, Mrs Tait, Mrs Hudson, Mrs Fitzpatrick, Cr J H Curnow, Sir John Quick and many members of parliament. Fare from Melbourne costing 5/ for a day return, or 7/6 for the week.organization, business, bendigo trams

Image of Cocks Pioneer Gold & Tin Mines NL directors with Mrs Molly Moline and children, Dorothy and Geoff. Taken at Sherwood - the mine manager's residence. (1914) Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25 000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. "COX PIONEER MINE DIRECTORS" top "GEOFF DOR (unclear) TED SHACKLE" bottommine, gold, tin, gold mining, tin mining, cockatoos, sluicing, men, women, children, cocks pioneer, el dorado, eldorado

Altering course of Reedy Creek, El Dorado. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25 000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. Handwritten across the front: 'Altering course of creek. Eldorado'mining, gold, tin, sluicing, reedy creek, cocks pioneer, el dorado, eldorado, men, horses

Horse team , Cocks Pioneer Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17 284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. mining, gold, tin, sluicing, men, cocks pioneer, el dorado, eldorado, horses, gold mining, tin mining

Cocks Pioneer Mine El Dorado, Power Station No. 2 was established in 1914 and located near junction of Reid's and Clear Creeks, Byawatha. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. Handwritten on front: 'THE POWER STN COCKS, PIONEER MINE, ELDORADO' / 'THELMA STUDIO / [underlined] WANGARATTA'mining, gold, tin, cocks pioneer, power, sluicing, el dorado, eldorado, byawatha, thelma studios, wangaratta, gold mining, tin mining, reid's creek, clear creek

Cocks Pioneer Creek Diversion. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. mining, gold, tin, cocks pioneer, creek, gold mining, tin mining, el dorado, eldorado

Men at Work on the Tail Race, Cocks Pioneer Mine, El Dorado. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. Handwritten across the front: 'Cocks Pioneer Mine Eldorado MEN AT WORK ON THE TAIL RACE' / 'THELMA STUDIO / [underlined] WANGARATTA.mining, gold, tin, gold mining, tin mining, cocks pioneer, men, thelma studios, wangaratta, el dorado, eldorado