A large brown hardcover book. Title and author's name are written in black on front cover and in gold on spine. This is the 4th ed., containing twenty-seven plates. It includes a preface to 4th and 1st ed., a list of plates, 20 p. of text and a list of references. This book contains a selection of architectural designs of the Orders as employed in ancient buildings.r phene spiers, greek roman italian architecture, the doric order, the ionic order, the corinthian order, the composite order, the temple of theseus athens, the theatre of marcellus rome, temple of vespasian rome, library plate, book plate

A green cloth hard cover book. Title and author's name are engraved in gold on spine. This is the 3rd edition, first series with black and white illustrations. It describes the engineering practices of the early days of British railroads. The book includes (series 1 to 4)and it contains, roads, tramroads and railroads, bridges, aqueducts, viaducts, wharfs, warehouses, roofs, and sheds, canals, locks, sluices, & the various works on rivers, streams, etc., harbours, docks, piers and jetties, tunnels, cuttings and embankments, the several works connected with the drainage of marshes, marine sands, and the irrigation of land, water-works, gas-works, water-wheels, mills, engines.civil engineering, railway practice, rail constructions, s c brees, western railway great britain, public works, railroads, canals, s.c. brees, samuel brees, samuel charles brees

This book contains the report from the select committee on Castlemaine and Sandhurst water supply; with the proceedings of the committee, minutes of evidence and appendices. It also contains the report Of the Engineer-In-Chief of Railways, and reply of the Chief Engineer of Water Supply on the works constructed by the Victorian Water Supply Department, presented to both houses of parliament by His Excellency’s command. Ferdinand M. Krause, was a lecturer at the Ballarat School of Mines in Geology Mineralogy Mining Engineering and Surveying. He was a Fellow of the Geological Society and a Fellow of the Linnian Society. He was assistant engineer for the Ballaarat and Ballarat East Water Supply Committee and helped plan local reservoirs.A brown cloth hard cover, foolscap book with leather spine. Title is written in black on the title page. "Water Supply Reports" is engraved in gold on spine. It includes a table showing the monthly and yearly rainfall and shade temperature at Ballarat, 2nd February, 1885. It also includes two reports and two replies, a map No.7082.2 of Victorian Water Supply, Castlemaine and Sandhurst district general plan including lines of Aqueduct, Reservoirs. No. 7082.3 of Victorian Mining districts, Mining Divisions and The Gold Fields in 1866 - includes districts to be supplied under the Waterworks Act, 1965. It also includes: *Report of the Engineer-in-chief of Railways and Reply of the Chief Engineer of Water Supply on the works constructed by the Victorian Water Supply Department, 1869. * Coliban Water Scheme, 1864 * Ballarat and Ballarat East Water Supply (1869) including the Ballarat Water Supply List containing names of occupiers and nature of improvements on lands comprised within the proposed reserve of Gong Gong Reservoir, Ballaarat. At Warrenheip the names included: Honora McCallin, William Honan, C. McMahon, Patrick McMahon, J.P. Beach, J.H. Smith, Michael Nestor, Martin Quinn, Martin McIntyre, Robert Higgins, Coleman Kane, Robert Bond. At Ballarat: William Clarke, Richard White, John Hosking, Wesleyan Chapel, J. Hewitt, Robert McRobinson. At Bungaree: John Pullin, John Llewellyn. William Daw, Smith and Wynne, William Brough, A. Alexander. * Ballarat and Ballaarat East Water Supply report upon the advisability, or otherwise, of constructing a reservoir at the junction of the Yarrowee Creek and Gile's Creek, upon a site known as Gile's Reservoir (printed by Frank Pinkerton). This report has numerous notes written on it (most probably by Krause) and includes the capacity of Harry Beale's Reservoir, Pimcott's Reservoir and the Proposed Gong Gong Reservoir. * Statement as to the position of the Ballaarat and Ballaarat East Borough Councils in Connection with Water Supply, September 1869. * Ballarat and Ballaarat East Water Supply - General Statement upon the Ballaarat and Ballaarat east Scheme of Water Supply. Includes information on Moorabool reservoir, Harry Beale's Reservoir, Lal Lal Creek, Two Mile Creek, Beale's Dam, Yarrowee Creek, Gong Gong Reservoir, Kirk's Dam, Devil's Creek, Moorabool Creek. Additional handwritten notes (probably by Krause) * Engineer's Report on the resolution of the COmmittee of Water Supply, of the 7th July 1868. The report refers to the Country around Mount Warrenheip. Names mentioned are L. Abraham, Great North-West Gold Mining Company, Border Sawmills, Ferdinand Krause, Ohlfsen Bagge, W.H. Shaw, A signature by "Ferdinand M. Krause" at the top corner of the title page. A few pages have handwriting on the margins, it is believed to be his handwriting. water supply victoria, castlemaine directories, sandhurst directories, ballarat directories, james blackburn, edward wardle, daylesford water race, c j taylor, george avery fletcher, bagge, ohlfsen bagge, george foote, john h reilly, ambrose johnson, george francis, timber preservation, james forbes, alfred surplice, malcolm carmichael, robert adams, frederick hugh thomas, h o christerpherson, william downe, thomas lawrence brown, francis hadgson nixon, strangways, guildford, maldon, muckleford, lauriston, malmesbury, franklinford, walmer, strathloddon, downe, ferdinand krause, m7082, trentham, castlemaine, drummond, metcalfe, sutton grange, lockwood, ravenswood, mandurang, yandoit, c.h. ohlfsen bagge, moorabool reservoir, gong gong reservoir, harry beale's reservoir, pincott reservoir, frank pinkerton, water

This book was most probably used at the Ballarat School of Mines.Black covered book with gold title. 381 pages. The book was 'a popular treatise for the use of prospectors, investors and Mining Men generally; with an account of the Principal Minerals and Country rocks; Ore Deposits; Locations and Patents; the early Development of Mines; Earthy Mineral Products; Coal; Gold gravels and gravel Mining; Measurement of Water; and Artesian Wells'.mining, ballarat school of mines, water, geology

collected by Ballarat School of Mines Principal G.H.BeanlandMagazines bound in ASEA folder, blue spine and black cloth boardselectrical engineering, generators, graham beanland, power stations, voltage control, electrohydraulic governor for water turbines, high voltage dc transmission, oil-minimum contraction circuit-breakers, lightening arresters, air-blast circuit breakers, testing circuit breakers, closing mechanisms for high voltage circuit-breakers, outdoor isolators, series capacitors, capacitor voltage transformers, guide to current transformers, routine testing of power tranformers, generator

Blue hard covered books. .2) Volume III Irrrigation Structures and Distrubution Systemirrigation, water canals, tunnels, flumes, pipes, concrete pipes, wrought iron and steel pipes, wooden pipes, california, diversion works, weirs, spillways, canals, check gates, railroad crossing, america, united states of america, university of california, yellowstone river, colorado, arizona, windlass hoist, twin falls, idaho, arkansas valley, truckee-carson, salmon river, umatilla, cippoletti weir box

This report lists the depths of water and the consistency of the seabed surrounding the Warrnambool Harbour in October 1929, The information, often referred to as 'soundings', was obtained by Jet Probing,. In earlier days a lead line was used to perform a similar task. The author of the document is unknown. Jet Probing is a method used for underwater archaeology, cable installation and coastal engineering. A jet probe is a machine that produces a strong jet of water that penetrates the layers of sediment on the seabed, determining their depth, thickness and consistency. It provides a survey of the seabed and can be used as an aid to engineering design and construction. The report mentions lining up with the wooden jetty, the end of the breakwater and the leading lights. It mentions sand, loose rock and rock. It tells of stopping work due to the water being too rough, the pipe choking, difficulty in connecting pipes, and pipe joint breaking as it tried to get through the sand, The report in the document is significant for its connection with the Warrnambool Harbour, Warrnambool Breakwater, Warrnambool Jetty and Lady Bay. The report gives figures for the depth and consistency of the water and seabed at a particular point in time and can be used to compart with similar figures taken at different times. The results could determine plans for future engineering works.Report, titled 'Jet Probings, Warrnambool Harbour'. Two pages of cream coloured paper with hand written notes in pen and ink. Report covers three days of Jet Probings, with resulting figures and comments, for the depths of the surroundings of the Warrnambool Harbour. The report is in point form, with some underlining. Dates of recordings are 14-10-29, 15-10-29 and 16-10-29. (1929) The situation of the harbour had become a real problem by 1910 and required continuous dredging. In 1914 the Breakwater was extended but proved to be a failure because the work began to subside and by 1920 about two thirds of the harbour was silted up. Alterations made in the 1920's increased the silting problem. The soundings and Jet Probings were done after the Royal Commission of 1923, when the damaged stonework on the seaward side of the Warrnambool Breakwater, caused by the action of the sea, was the subject of enquiry. A conference between the Public Works, Water Commission and the Harbour Trust concluded that it would less costly to make repairs to prevent further damage rather than replaced the damage portion of the wall. A contract was raised in late 1924 to deposit rubble on the damaged side of the breakwater to minimise the Southern Ocean’s destructive action and work had started by August 1925. By the 1940's the harbour was no longer used. More alterations were made in the 1950's and 1960's. document, depth, warrnambool harbour, 1929, soundings, jet probe, jet probing, seabed, map of seabed, underwater engineering, warrnambool jetty, warrnambool breakwater, breakwater upgrade, leading lights, chart the harbour, flagstaff hill, warrnambool, flagstaff hill maritime museum & village, maritime museum, maritime village, shipwreck coast, lady bay, port of warrnambool, breakwater, jetty, pier, vhr h2024, royal commission, 1923, public works, water commission, harbour trust, victorian harbours

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's fortunes began to decline as an aging Sir Robert Davis failed to invest, or change the company's 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). (For information regards the diving helmet & Frank King see Notes Section at the end of this document)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. Frank Kings' diving helmet and compressor (communication pipe stored separately). Compressor is hand cranked. US Navy diving helmet, Mark V. Two maker's plates attached. Made in 1944.On rear "WATER SUPPLY" On front 'PATENT" " Logo: Images (Lion, Crown, Horse, Shield within an oval) "SIEBE, GORMAN & Co. Ltd. SUBMARINE ENGINEERS, LONDON.flagstaff hill, warrnambool, maritime museum, great ocean road, us navy diving helmet, commonwealth government salvage, diving helmet, marine salvage, frank king, diver, siebe. gorman & co ltd, submarine equipment, diving equipment, communication under water, hand cranked, diving compressor

Blue hard cover book which is a state guide to Victorian municipal councils and water supply record. It incorporates part of Southern New South Wales. The directory lists the areas that make up the municipality, the names of councillors and officers, and gives descriptions of towns and cities. Lists of parliamentary departments and officers are also included. non-fictionmunicipal directory, council, towns, water supply, sewerage, members of parliament, alumni, brian schreenan

The winning 'eight' were from the Department of Mining and Civil Engineering. IN all 15 boats took to the water.Black and white photograph of eight Ballarat School of Mines students in the annual Ballarat School of Mines Boat Race on Lake Burrumbeet. ballarat school of mines boat race, lake burrumbeet, lake burrumbeet boat race

Gasometers resulted from complex engineering design evolving from primitive gasholders first used in 1824 in England to power street lights. The 20th century gasometer, (as used at the Highett Gasworks), was comprised of a series of large interconnected, telescopic, cylindrical vessels or lifts, which rose and fell depending on the volume of gas stored. The gasholder operated on a basic principle of a gas-filled floating vessel, rising and falling in a seal of water. The Highett Gasworks had its beginning in 1939 but its beginnings commenced sixty-two years earlier when the privately owned Brighton Gas Company was floated in 1877. By 1880 the company was performing well and making excellent profits. The company was welcomed by residents wanting to replace the shadowy light of a kerosene lamp with the bright luminescence of "modern" gas lamps. The land developers of the day were also keen supporters. But by 1884 people became disgrunted because either the gas had not reached them yet or because the quality of the supply had diminished due to the increasing use. In 1885 a second private gas company, the Central Brighton and Moorabbin Gas Co, Chaired by "Tommy" Bent was floated and for many years the two gas companies enjoyed a shared monopoly in supplying gas from their New Street Works. In the 1930s the company expanded its gas production facilities to Highett where it had purchased 45 acres of land adjacent to the Melbourne-Frankston railway line. A gasholder with a capacity of 750,000 cubic feet was erected on the Highett land in 1927 and connected with high pressure mains to the Brighton works. Three years later the company directors decided to proceed with the construction of a vertical retort house and coal store. Following a "lull" during the Great Depression work recommenced in 1936 and by 1939 the first complete gas-making plant was completed, and gas making commenced. Over the next twenty one years other significant extensions occurred, including an amenities block to accomodate 100 workers. In 1969 Esso commenced the introduction of natural gas to residents homes and the gradual decommissioning of the Highett Gasworks commenced. Part of the old Highett Gasworks site is now a council owned parkThe photos of the Higett Gasworks, now demolished, recall their long history, that originated in the 1800s with the production of gas to supply homes with a new, much improved light source, and later it's other applications such as for stoves etc. The arrival of gas in the Shire of Moorabbin was a huge step forward that encouraged further building and development in the area.Three Photographs of the Highett Gasworks. Two are coloured photos taken in 1974, and one is black and white taken in the 1960s. All are in good conditionOn the back of the two coloured photographs "Highett Gasworks 1974" No inscription on the black and white aerial photograph.brighton, moorabbin, highett, bent thomas, gasometer, highett gasworks, engineering design, brighton gas company, central brighton and moorabbin gas company, great depression, lamp kerosene

This water standpipe is believed to be the only one of its kind in working order. It was originally located in Warrnambool, on the hillside at the corner of Mickle Crescent and Banyan Street, providing water for the Chinese Market Gardens below, on the flats. It was removed from this location on May 2nd, 1979, with the intention to relocate it at the new Flagstaff Hill Maritime Museum & Village. The standpipe lay in storage for years until the Warrnambool Company, Chemblast, offered to restore it for use as a working display. The display was officially opened on March 31, 2014. The water from the adjacent lake is drawn out with a hand operated water pump, and goes up into the standpipe, where flows through the canvas hose and into the top of the Furphy Farm Water Cart. The display is a visual acknowledgement of the years served by Flagstaff Hill volunteer and Friends of Flagstaff Hill Chairperson, Bob Crossman. Warrnambool’s early settlers had no water supply prior to the mid-1850s. They relied on rain water tanks, domestic wells and springs. The town experienced a huge, destructive fire in William Bateman Jnr. & Co.’s large produce store in November 1856, which highlighted the need for both a fire brigade and a good supply of water. In 1863 a volunteer fire brigade was established. In August 1880 the town celebrated the installation of its first water standpipe on the corner of Liebig and Timor streets. The water was pumped from springs at Cannon Hill through the connected pipeline to the standpipe, then distributed to households via horse and cart. Each of the licenced cart drivers were compelled by Council regulations to keep their carts full from sunset to sunrise, ready to cart water to outbreaks of fire. They received a fee for this service. In 1893 the town installed a water supply, sourced from the Merri River, stored in a reservoir basin and tower in north Liebig Street, and distributed throughout the town in a system of pipes. By late 1939 a reticulated supply was installed, with the water piped in under the Otway Scheme. Standpipes are still used in modern times in rural and remote areas for homes, farms, stock, agriculture and firefighting. Many commercial or government owned standpipes are metered, charging a fee for the quantities of water supplied. This water standpipe was made by Langlands Foundry Co. Limited, Melbourne, which was establish in 1842. It was Melbourne’s first foundry and iron shipbuilder, and one of the largest employers in Victoria at the time. Langlands was known for its high quality workmanship and wide range of goods for mining, engineering, marine, railway and other industrial uses. The company made the first cast bell, the first lamp posts in the colony, and the boiler for the first Australian train. In the 1860s it produced cast iron pipes for the Board of Works, which laid the pipes for Melbourne’s first reticulated water supply. The firm was bought by Austral Otis Co. in 1897.This water standpipe is significant historically as it is believed to be the only one of its type in working condition. The standpipe is significant for being manufactured by early colonial firm Langlands Foundry of Melbourne, which was known for high quality, cast iron products. The firm made the boiler for the first Australian train, assembled the first Australian paddle steamer and made the first Australian cast bell and lamp posts. Langlands was one of the largest employers in Victoria at the time. The standpipe is significant historically as it represents the evolution of water supply services in Australia. Standpipe; vertical cast iron water pipe, painted crimson, fixed in position, tapering inward from the round base to the rectangular joint near the finial on top. A hexagonal pipe extends at right angles from the joint, with an outlet fitting and flow-controlling wheel on the end. A length of canvas hose hangs from the outlet fitting. Inscriptions are on one face of the joint. The standpipe was made by Langlands Foundry Company of Melbourne. Embossed “LANGLANDS FOUNDRY CO. / LIMITED / ENGINEERS / MELBOURNE”warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, flagstaff hill, standpipe, stand-pipe, water standpipe, fire standpipe, firefighting equipment, water supply equipment, chinese market gardens, banyan street, liebig street, water tower, bateman’s fire, working display, water supply, town water, rural water, reticulated water, cannon hill spring, merri river, otway water, water carters, horse and cart water supply, volunteer fire brigade, langlands foundry, early melbourne, iron works, bob crossman, late 19th century water supply

These plans are line drawings by the State of Victoria for a Suction Hopper Dredge, which used a suction pump to bring up material from the bottom of a body of water. The plans are contained in a box from the Public Works Department, Ports and Harbours Division in Melbourne, which in the year 1910 was responsible for the dredging operations of coastal ports and harbours, and inland waterways. The stamped signature is that of Arthur Edward Cutler, Chief Engineer, Public Works Department of New South Wales. The steel steamer Matthew Flinders was constructed by Morts Dock & Engineering Co Ltd in Sydney, New South Wales. Identified as Ship No. 40 by the ship builders, this dredge, had twin screw engines that were made in Sydney. Its gross tonnage was 1180. It was launched on July 15th, 1916, and registered by the owner, Department of Public Works in Victoria, at the Port of Melbourne in 1917. Unlike bucket dredges, the Matthew Flinders did not use permanent moorings but instead had bow and stern anchors. It travelled forward on the bow anchor, taking up a strip of even-depth wilt from the bed below. A local newspaper noted that the Matthew Flinders has many advantages that were especially useful for its work at Warrnambool. Warrnambool Harbour had been experiencing silting and sanding for many years. The problem continued even after the construction of the Breakwater in 1890, which was overseen by New Zealand engineer Arthur Dudley Dobson. Melbourne’s Department of Ports and Harbours sent the new Matthew Flinders to dredge the heavy silting in the Warrnambool Harbour in May 1919. This work was previously done by the smaller dredge, the Pioneer. However, after a month of work, the Matthew Flinders was returned to Melbourne for alterations to make it suitable for work in the heavy seas it experienced at Warrnambool. Both dredges were sent up from Melbourne when required over the years to periodically attend to the silting in the Harbour, but the Matthew Flinders was preferred because of its efficiency. It was still dredging the Harbour even in July 1938. The ship’s original master was J G Rosney. In 1923 the master in charge was Captain Dunbar. In 1930 the dredges were no longer required as the Harbour was no longer suitable as port.These plans are significant for their close association with the suction hopper dredge, the Matthew Flinders I, which was call upon often to remove the silting of Warrnambool Harbour and allow shipping to continue in the Port of Warrnambool until 1930, when the Port of Warrnambool ceased to be suitable as a port. The work done by the Matthew Flinders is significant for its association with the Warrnambool Breakwater and the on-going issues with the silting of the Harbour. Plans with line drawings for the suction hopper dredge Matthew Flinders, rolled, in open-top wooden box. Created for the Public Works Department, Melbourne, Victoria. Stamped with signature and dated November I, 1911. Inscriptions: label on box, handwriting on box, drawings and outer layer of paper. Freighted by 1 Star, New Zealand Express Cargo.Signature stamp “A E Cutler” Date stamp “NOV 8 – 1911” Printed on one page “STATE OF VICTORIA / SUCTION HOPPER DREDGE / GENERAL ARRANGEMENTS OF MAIN ENGINE ROOM / SCALE 1/2 IN = 1 FT.” Label on box "1 [star symbol] / THE NEW ZEALA- - - / EXPRESS CAR - –“ Handwritten on base “PUBLIC WORKS / DEPARTMENT / - - LBOURNE” Handwritten in pencil on cover paper “MATTHEW Flinders”flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, plan, line drawing, dredge, pioneer, steel steam ship, twin screw engines, a e cutler, arthur edward cutler, chief engineer, public works department, new south wales, nsw, 1911, state of victoria, suction hopper, main engine room, public works melbourne, warrnambool harbour, lady bay, sanding, silting, breakwater, morts dock & engineering co ltd, j g rosney, captain dunbar, ship no. 40, matthew flinders i, matthew flinders, 1 star, new zealand express cargo

Two copies of a typed letter with printed letterhead, dated April 16, 1937. Letter is to Mr. F. H. Godfrey of F. H. Godfrey Engineering Co. from Otto? Jacobson of the Washington Veneer Company. The letter mentions the hardness of the water and the improvements in the boilers since using the Scalebuoy.sciences, instruments - general, scalebuoy, bill ashman collection - correspondence, e e westman, millard lemon, w h schultz, washington veneer company, f h godfrey engineering co washington, f h godfrey, o jacobson

In the early hours of Tuesday 16 December, 2014 a water main burst in Liardet St. The resulting sink-hole swallowed two cars and left a massive hole which took 8 days to repair and re-open the road. Several houses on the city side of Liardet St suffered water damage and water also entered the underground car park of the apartment block on the beach side.Photos taken of the damage and vehicle recoveries when a sink-hole opened up on Liardet Street on Tuesday 16 December 2014.built environment - domestic, engineering - roads streets lanes and footpaths, engineering - canals and drainage, liardet street, water supply, fran egan

Melbourne Water inherited many of its water assets, such as reservoirs from its predecessor the Melbourne Metropolitan Board of Works (MMBW). They have served the organisation well and have long been celebrated for both their natural beauty and engineering ingenuity. In the nineteenth century Victoria’s fundamental need for water infrastructure went beyond merely functional solutions and reflected the English ideal of the romance and beauty that was embodied in expanses of water. The MMBW further enhanced this notion by incorporating beauty and function in to the Classical and Italianate designs of its infrastructure such as pumping houses and reservoir outlet towers. The reservoir gardens and picnic areas were landscaped with ornamental stonework, exotic trees, decorative flower beds, fern glades pools and rose gardens. All features of the water supply system became widely celebrated as beauty spots that continue to be very popular to this day with tourists and locals alike. This souvenir is a product of that flourishing tourist trade. These water supply sites continue to enhance Melbourne’s charm and liveability and are now recognised as places of cultural and historic significance. This souvenir item has been curated by Melbourne Water as it represents an important historical aspect of the organisation by demonstrating the popularity of its water asset sites as recreational places and tourist attractions, and although these sites are functional parts of the water supply system, they were also designed to be enjoyed by the public both aesthetically and recreationally. Clear glass flower shaped 'depression ware' confectionery bowl, with photographic image of Maroondah Reservoir outlet tower on basemelbourne metropolitan board of works, mmbw, maroondah reservoir, melbourne water, scenic view, souvenir, glass bowl