Articles from a collection of newspaper cuttings from October 1968 to July 1971Two articles. 1. Air Commodore R Burrage, of Cowes, is complaining about the gas cylinders near his property may be a danger. 2. The Shire of Phillip Island is needing to replace the rusting sanitary pans at an outlay of $1,000 for 500 new sanitary pans.phillip island, shire of phillip island, gas cylinders, sanitary pans, air commodore r burrage, cr a hamilton, mr s harris

Glass bottle with protective wire winding in mesh pattern. Red line around top half of bottle. Metal attachment on top for gas cylinder and lever and spout.Sparkletes' embossed on gas cylinder holder. 'Sparkletes Ltd, Makers London' stamped on spout area. Printed around rim ' Made in England', 'C size; 'shake siphon well while piercing bulb'; 'never fill syphon above red line'. Printed on base of bottle 'Made in Czechoslovakia'.domestic items, food preparation, soda syphon, sparkletes, england, drink.

The Dräeger Pulmotor was developed in 1907. It addressed previous concerns about lung injury, by limiting both the inspiratory and expiratory pressures. Although still controversial, the Pulmotor was widely distributed and commercially successful. Oxygen from cylinders provided both the inspiratory gas flow and the driving mechanism. Expiration was an active process and gases were sucked from the lungs by negative pressure created by a Venturi effect. This device came with a facemask and harness, with a caution that the operator should take care to prevent air entering the stomach.Draeger resuscitation kit, inside wooden case with handle. Case contains small heavy gas cylinder with large beige handwritten 'S. M E' inscription on one side. Due to water damage case missing pieces of plywood in corner and floor of case bubbled and swollen.|Rubber decomposed rigidinspiratory, expiratory, pulmotor, negative pressure

Professor Arthur Barrington (Barry) Baker was the first Australian anaesthetist to gain a DPhil in anaesthesia. He completed his DPhil at Oxford University at the Nuffield Department of Anesthesia in 1971, titled, Physiological Responses to Artificial Ventilation. The Waveform Ventilator is the machine developed to illustrate his DPhil. The waveform ventilator was used in several scientific studies on 'the effects of varying inspiratory flow waveforms and time in intermittent positive pressure ventilation (IPPV)', published in the 'British Journal of Anaesthesia'. Professor Arthur Barrington Baker had an extensive career in research and clinical practice including holding the position as the Nuffield Professor of Anaesthetics at Sydney university (1992 - 2005) and also as the Dean of the Australian and New Zealand College of Anaesthetists (ANZCA) (1987-1990).The variable waveform ventilator is of national significance, due to its association with Professor Arthur Barrington Baker (Prof. Baker) the first Australian academic anaesthetist, and the representation of historical social themes and research and design, in anaesthesia. Historic significance – It is a rare type of ventilator in good condition and well provenanced. It is a tangible record of the beginning of the long established and distinguished career of Prof. Baker, the first anaesthetist in Australia to gain a DPhil. Prof Baker has a strong involvement in the Australian and New Zealand College of Anaesthetists (ANZCA) organisation. The object is a product of Prof Baker’s Doctorate of Philosophy (DPhil) on respiratory physiology and is associated with the prestigious Oxford University and the well-known Nuffield Department of Anaesthetics. It also represents the social theme of migration to England from Australia in the 1960s and 1970s to access and experience academic and artistic opportunities limited in Australia at the time. Scientific Value – The object is of scientific value as it offers major potential for education and interpretation in anaesthesia. Although ventilators are common equipment, this specific design and construct prototype is one of a kind, designed and used specifically for research purposes. A rectangular shaped object on a trolley with four wheels. The top half of the object consists of two panels, one of cream coloured painted wood, the other black plastic, both containing several dials of different shapes and sizes. The wood surface also contains several gauges and a safety pressure clear plastic box. The plastic surface also contains a pin board. The bottom half of the object consists of two shelves. The whole object's perimeter is lined with perforated metals. The top wooden surface has several metal pieces of equipment and a long tube. The rear of the object contains numerous types of tubing and wire, a gas cylinder and two leather straps with buckles. The bottom half of one side of the objects has 3 electrical power outlets.Waveform Generator, Drs Colliss N Cowie, Dr Baker Dr Murray Willson, Dr Babbington, Safety Pressure, Error POS F/B, Position, Feedback, Set Balance, Reset, Full Stroke, Velocity, Converter Current, line Pressure, Low Pressure, Bias Pressure, Start, Stop, Stop, Reset Press, Max Press, W/G Output, A/CRO B/2.baker, arthur barrington, baker, barry, professor, academic anaesthetist, oxford university, nuffield department of anaesthesia

A general civilian Gas Mask for protection against gas warfare agents, tear gas, mustard gas etc..1) Face gas mask, enclosed with clear plastic eye pieces, attached cylindrical gas filter canister, head straps. .2) Protective cover, shaped canvas bag with webbing carry strap with adjustment buckle. .3) Small instruction booklet, 16 pages..1) Warning and instructions information printed on cylinder. .2) On bag, “U.S Non Combatant Gas mask M1A2-1-1” .3) On front cover, “Your Gas Mask”gas masks, civilian, u.s

Appears to be a gas mask made in 1939 for protection against possible gas attack in World War II. Unknown provenance. Willow, the manufacturer of the metal canister, is an Australian family owned and run business, since 1887 and based in Melbourne. From their website: "During the second World War the factories almost exclusively produced munitions, working two shifts. They mainly made mess tins, rocket cylinder covers, small arms ammunition boxes, gas mask respirator cylinders and soldier’s cake tins."An example of war time equipment for personal protection.Rubber face mask with hose to a metal cannister.On the base of the metal cannister: "No. 4A / Willow / 1939 / WAD 8". equipment, world war two, mask

Gas mask similar in style to 1339.1, possibly dating from the 1940s. This mask and associated case were intended for noncombatant use i.e. for use by civilians during wartime.Khaki colour gas mask constructed from cylindrical tin with open valve filter, attached to a plastic mask which attaches to the face with adjustable canvas straps. Mask includes two circular cut outs with plastic windows with valve on left hand side. Printed instructions on canister. “MED ADULT” embossed on top centre of the mask component. On interior of mask, “US MI/LOT/7 3SC.”gas mask, equipment, civilian, gas warfare, second world war, world war two, world war ii, mustard gas, chemical warfare

Blue cylinder shape gas bottle. 'Companion' brand - Sievert. Frosted glass with beige painted top. Chrome carry handles. 2 knobs on feeder pipe. Gas bottle has writing : Type 3967 TP 480 lbs PSI C 169107 5 68. Water cap 5lbs 5oz. Tare weight 4 lbs 9oz. Made in Aust. AS no B115-240Jenner Simplex Glass Schott & Gen, Mainz, made in Germany on frosted glass.

http://en.wikipedia.org/wiki/File:Tilley-storm-lantern-X246-May- Tilley storm lantern, this model has been in production since 1964 The Tilley Lamp derives from John Tilley’s invention of the hydro-pneumatic blowpipe in 1813 in England. http://en.wikipedia.org/wiki/Kerosene_lamp#Pressure_lamp Pressure lamps are far more sophisticated than wick lamps and produce a much brighter light, although they can be quite complicated and fiddly to use. This type of lamp is commonly known in the UK as a "Tilley lamp", after a manufacturer of the same name, and in North America as a "Coleman lantern" for similar reasons. A kerosene blowtorch displaying the various aspects of the kerosene burnerA pressure lamp has a fuel tank at the bottom with a small pump to pressurise the kerosene. There is a narrow gap up to the top of the lamp, called a flue, and at the top of the lamp there is a burner (gas outlet). Directly underneath the burner is the mantle, a fabric bag coated with chemicals that incandesce when heated by the gas flame. The burner lamp is known for its brightness. It is so bright because of the amount of pressure that is placed onto the wick. This pressure allows a steady flow of the gasoline and a constant light Tilley Storm Pressure Lantern, model no x246 has a stainless steel base which is filled with kerosene, with a pump used to pressurize the kerosene vapor. Under the base is a sticker.On top is a black hood with vents which sits on the glass heat resistant shade. The glass shade has an etched label. It has a white and pink mantle on the central rod with a long shaped stainless steel handle, this folds down when not in use.Base - Sticker Tilley Lamp Model X246 Etched on glass shade Tilley, Durosil, ITI, Heat Resistant. Made in Englandlantern tilley pump pressure mantle kerosene methylated spirits stainless steel lamp kerosene lamp round glass cylinder

This iron was used to press clothes prior to the spirit and electrical irons becoming available circa 1930s - 1950s. The main body of the iron was placed on a flat heated surface of a stove (wood, coal or gas fired). It was mainly used by women in their domestic role, ironing the family's clothes and linen. In the Kiewa Valley the supply of coal or gas was not available or too expensive than the locally cut hard wood trees. Ironing was time consuming as the iron had to be heated, used and then reheated to the required level of application. Kiewa Valley farmers' wives used these irons having heated their stoves with local timber from their farms. This iron is made of cast iron. The handle is a hollow cylinder and is 70 mm above the solid 30 mm base. Presumably the handle was wrapped and/or threaded with cloth to protect the hand from the heat of the iron. The iron would have been heated on the top of a stove.6 Metters KFB Victoriairon, laundry, domestic, antique, pressing clothes, household

This candle mould was used in the past to make six candles. Molten wax or tallow, together with a central thread or cotton, were poured into the columns and when set were removed from the moulds. Until the advent of electricity in the 1920s in Warrnambool, candles, lanterns and lamps were an important source of lighting in homes. Few homes had gas lighting. Many householders made their own candles from waste fat etc. This mould is retained as an example of the way householders in the past made their own candles to assist lighting in the home. This is a mould with a rectangular base and six cylindrical hollow columns with pointed ends affixed to the mould base. The columns are topped by a rectangular metal tray with the openings of the columns in the base of the tray. There is a metal clip attached to one end of the tray. The mould is very rusty warrnambool history, candles

This filter is part of a complete set of a German gas mask dating to the First World War. This may have been a spare filter which was attached to a mask.Khaki coloured gas mask with leather face mask component. Two metal circles border plastic lenses of goggles which in turn have wire frame behind. Gas mask twists onto filter component which is a metal cylinder shape with layers of metal mesh inside; filter is removable. Mask has canvas band on interior for sweat absorption or comfort; attached to which are six straps which converge into loop at back of head.german, germany, world war i, world war 1, first world war, the great war, chemical warfare, gas mask, gas warfare, mustard gas

Item re Frederick Gardner DAVEY DFC No 410533 RAAF. Refer Reg No 3536P for his service details.Grey metal spring loaded clip with serrated jaws. A brass cylinder is attached. The object is possibly part of a gas mask.Stamped on cylinder: A M 6D.526 MKIVgas, masks, military

A cigarette lighter is a portable device used to generate a flame. It consists of a metal or plastic container filled with a flammable fluid or pressurized liquid gas, a means of ignition, and some provision for extinguishing the flame. A spark is created by striking metal against a flint, or by pressing a button that compresses a piezoelectric crystal (piezo ignition), generating an electric arc. In naphtha lighters, the liquid is sufficiently volatile, and flammable vapour is present as soon as the top of the lighter is opened. Butane lighters combine the striking action with the opening of the valve to release gas. The spark ignites the flammable gas causing a flame to come out of the lighter which continues until the top is closed - naphtha typeA brass cylindrical cigarette lighter with ring to attached to a chain cigarettes, tobacco, cigaretter lighters, safety matches, moorabbin, brighton, cheltenham, pioneers, early settlers

OIL LAMPS Oil had been burnt in lamps at least since the Palaeolithic age, and the cheapest light fittings used in Victorian homes had changed little since then, with a simple wick protruding from a small container of whale oil or vegetable oil. However, much brighter and more sophisticated lamps had emerged late in the 18th century, the most important being the Argand oil lamp. This lamp had a broad flat wick held between two metal cylinders to form a circular wick, with air drawn through it and around it. This in itself was a revolutionary idea, but its inventor, Aimé Argand also discovered that by placing a tube or 'chimney' over the flame, the hot gases from the flame rose rapidly creating a draught and drawing air in from below. Fanned by a draught from both inside and outside the circular wick, the poor spluttering flame of early lamps was transformed into a bright, efficient light source (see illustration). The one disadvantage for the Argand oil lamp and its many imitators in the early Victorian period was that the best oil then available, colza, was so thick and viscous that it had to be fed to the wick either by gravity from a reservoir above, or pumped up from below. Most colza oil lamps have a reservoir often shaped like a classical urn to one side which in some fittings obstructed the light. The Sinumbra lamp got around the problem by having a circular reservoir around the base of the glass light shade. One of the most significant improvements of the Victorian period was the introduction of paraffin. Patented in 1850, the price of the new fuel fell dramatically following the discovery of oil in Pennsylvania, USA. As paraffin was much lighter than colza the reservoir could be placed below the flame, enabling many new designs of light fittings. One of the most successful paraffin lamps was the Duplex burner introduced in 1865 which had two wicks side by side and, like the Argand lamp, a clear glass chimney with air drawn from below. Most lamps also had a larger shade around the chimney often of opaque glass to diffuse the light. The shades or diffusers provided an opportunity for decoration, and a variety of shapes, colours and patterns were used. The amount of light which can be produced by a wick is limited by the surface area of the wick and the amount of fuel and air able to reach it. As fuel burns at the tip of the wick only. The gas mantle, on the other hand, provides a much larger three-dimensional surface, and is far more effective as a result. Invented by Carl Aur von Wesbach in 1885, the incandescent mantle was the last major breakthrough in oil and gas lighting of the period, before both succumbed to electric lighting. The mantle consists of a skirt of silk or cotton impregnated with a non-inflammable mixture (thorium and cerium), suspended over a fierce flame. When first ignited, the cotton burns away leaving fine, brittle filaments of non-combustible material in its place which glow white hot or 'incandescent'. The mantle works best with either gas or a fine mist of paraffin produced by a pressurised reservoir which is still widely used in camping lamps today, producing a bright, warm light to rival an electric bulb. https://www.buildingconservation.com/articles/lighting/lighting.htm http://www.artandarchitecture.org.uk/stories/lighting/lighting4.html#:~:text=Oil%20had%20been%20burnt%20in,whale%20oil%20or%20vegetable%20oil.An item of great importance in any home before gas or electricity was available.Kerosene lamp, ceramic, with metal top and wick. Has handle at side and floral hand painting around the body. Glass cover. Metalwork is rusty.Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, oil lamp, heating, lighting, ceramics

Electrostatic precipitation device? Spark generator?A black cast iron cylindrical vessel, with unmovable top flange/cover. A variable speed electric motor with vertical shaft mounted on three bronze curved brackets centrally over the vessel. Motor shaft connected with bakelite coupling to a shaft that passes through the black top cover. The cover flange has two pairs of electric terminals posts, a shorting link and two gas cocks, all relevant to the insdie cavity.scientific instrument, interrupter, watson

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

Cardboard cylinder with green wrapper marked Veritas XXX quality Ramie Gas Mantle No 6841 British Manufacture.Veritas Incandescent Mantle Works London SW.18.lighting, gas, mantle

Chloroethane, commonly known by its old name ethyl chloride, is a chemical compound with chemical formula CH3CH2Cl, once widely used in producing tetraethyllead, a gasoline additive. It is a colorless, flammable gas or refrigerated liquid with a faintly sweet odor. Originally, it was proposed as a general anaesthetic, filling the gap between the weaker narcotic nitrous oxide and the more powerful drugs ether and chloroform. 8670.1 - Dark blue cardboard lid. 8670.2 - Dark Blue cardboard box. 8670.3 - Cotton ball padding. 8670.4 - Semi circle cardboard. 8670.5 - Small rectangular boxes (2) placed either side of the top of the cylinder. 8670.6 - Glass cylinder with metal fitting. 8670.7 - Paper label on cylinder.- 100 c.c./- MEDCO./- 3 1/2 fl. oz./- ETHYL CHLORIDE./- Pure./- This conforms to all the requirements of the BRITISH PHARMACOPOEIA. 1932./- LOCAL ANAESTHESIA/- MEDICINAL CHEMICALS CORPOATION LIMITED. SYDNEY.

"Potential blockage in the Fallopian tubes was assessed using this apparatus. It was developed by American gynaecologist Isidor Clinton Rubin (1883-1958). It blows carbon dioxide, via a cannula, into the uterus. The ease with which gas escaped through the Fallopian tubes was reflected by pressure changes on an instrument called a manometer. Blockage of the tubes is often due to previous infection or surgery. It is a common cause of infertility. Rubin’s test formed a standard part of infertility investigations for many years. It was gradually replaced by an X-ray technique involving radio-opaque ‘dye’ injected into the uterus." Source: Science Museum Group. Rubin’s apparatus for uterotubal insufflation, New York, United States, 1928. A639503Science Museum Group Collection Online. Accessed 12 June 2024. https://collection.sciencemuseumgroup.org.uk/objects/co96774/rubins-apparatus-for-uterotubal-insufflation-new-york-united-states-1928-tubal-insufflator. There is no manometer to monitor gas pressure on this model so it is either incomplete or a manometer was not available in this possibly early model. This device may be dated c1919, 1920s, or 1930s. 1919 was the year Isidor Clinton Rubin (1883-1958) introduced this apparatus. Rubin's tubal insufflator apparatus. Consists of a large cylindrical glass canister, with three glass nozzles at top with long rubber tubing attached to each. The device is inside a portable plywood box with two door. One surgical steel introducer, and one glass introducer, are also attached to the device.