Thank you for giving us the opportunity to reply t o Professor WyantâÂÂs letter. We agree that the first documented account of the first clinical administration of thiopentone is the anaesthetic record of Waters dated âÂÂ3.8.34â (i.e. 8th March 1934).â However, it is known that Waters & Lundy were carrying out their preliminary trials simultaneously. In the record, Waters refers t o thiopentone as âÂÂThionembutalâÂÂ, a name given to it by L ~ n d y . *Waters in his first published account ~ refers to it as âÂÂnumber 8064âÂÂ.â We would point out that in Professor FreyâÂÂs Foreword to Dundee & WyantâÂÂs bookâ he refers t o the introduction of thiopentone by Lundy, although giving the date as 1936. The first published account by Lundy4 is dated September 1934, in which he states that he has had only limited opportunity for clinical trial, so it can only be conjecture on our part as to when he actually gave his first injection. Walsgrave Hospital, Cliford Bridge Road, Walsgrave, Coventry, CV2 2 D X. I . DUNDEE, J.W. & WYANT, G.M. (1974) Intravenous Anaesthesia, 1st edn. Churchill Livingstone. Edin- burgh. 2. ADAMS, R.C. (1944) Intravenous Anaesthesia, 1st edn, p.
AbstractJournal
A COMPARISON OF VENTURI AND SIDE-ARM VENTILATION IN ANAESTHESIA FOR BRONCHOSCOPY EDWARD. EVER SINCE 1967, when Sanders published a paper I showing the Venturi principle for ventilating patients undergoing bronchoscopy, this technique has become in. COMPARISON OF VENTURI AND SIDE-ARM VENTILATION' 571 Fxctrm~ 3. The Venturi ventilation.
Anaesthesia â Wiley
Published: Apr 1, 1979
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The static pressure in the first measuring tube (1) is higher than at the second (2), and the fluidspeed at '1' is lower than at '2', because the cross-sectional area at '1' is greater than at '2'.
A flow of air through a venturi meter, showing the columns connected in a manometer and partially filled with water. The meter is 'read' as a differential pressure head in cm or inches of water.
Video of a venturi meter used in a lab experiment
Idealized flow in a Venturi tube
The Venturi effect is the reduction in fluid pressure that results when a fluid flows through a constricted section (or choke) of a pipe. The Venturi effect is named after Giovanni Battista Venturi (1746â1822), an Italian physicist.
Background[edit]
In fluid dynamics, an incompressible fluid's velocity must increase as it passes through a constriction in accord with the principle of mass continuity, while its static pressure must decrease in accord with the principle of conservation of mechanical energy. Thus, any gain in kinetic energy a fluid may attain due to its increased velocity through a constriction is balanced by a drop in pressure.
By measuring the change in pressure, the flow rate can be determined, as in various flow measurement devices such as venturi meters, venturi nozzles and orifice plates.
Venturi Principle In Cooling Towers
Referring to the adjacent diagram, using Bernoulli's equation in the special case of steady, incompressible, inviscid flows (such as the flow of water or other liquid, or low speed flow of gas) along a streamline, the theoretical pressure drop at the constriction is given by:
where Ï{displaystyle scriptstyle rho ,} is the density of the fluid, v1{displaystyle scriptstyle v_{1}} is the (slower) fluid velocity where the pipe is wider, v2{displaystyle scriptstyle v_{2}} is the (faster) fluid velocity where the pipe is narrower (as seen in the figure).
Choked flow[edit]
The limiting case of the Venturi effect is when a fluid reaches the state of choked flow, where the fluid velocity approaches the local speed of sound. When a fluid system is in a state of choked flow, a further decrease in the downstream pressure environment will not lead to an increase in the mass flow rate. However, mass flow rate for a compressible fluid will increase with increased upstream pressure, which will increase the density of the fluid through the constriction (though the velocity will remain constant). This is the principle of operation of a de Laval nozzle. Increasing source temperature will also increase the local sonic velocity, thus allowing for increased mass flow rate but only if the nozzle area is also increased to compensate for the resulting decrease in density.
Expansion of the section[edit]
The Bernoulli equation is invertible, and pressure should rise when a fluid slows down. Nevertheless, if there is an expansion of the tube section, turbulence will appear and the theorem will not hold. Notice that in all experimental Venturi tubes, the pressure in the entrance is compared to the pressure in the middle section. The output section is never compared with them.
Experimental apparatus[edit]
Venturi tube demonstration apparatus built out of PVC pipe and operated with a vacuum pump
A pair of venturi tubes on a light aircraft, used to provide airflow for air-driven gyroscopic instruments
Venturi tubes[edit]
The simplest apparatus is a tubular setup known as a Venturi tube or simply a venturi (plural: 'venturis' or occasionally 'venturies'). Fluid flows through a length of pipe of varying diameter. To avoid undue aerodynamic drag, a Venturi tube typically has an entry cone of 30 degrees and an exit cone of 5 degrees.[1]
Venturi tubes are used in processes where permanent pressure loss is not tolerable and where maximum accuracy is needed in case of highly viscous liquids.[citation needed]
Orifice plate[edit]
Venturi tubes are more expensive to construct than simple orifice plates, and both function on the same basic principle. However, for any given differential pressure, orifice plates cause significantly more permanent energy loss.[2]
Instrumentation and measurement[edit]
Both venturis and orifice plates are used in industrial applications and in scientific laboratories for measuring the flow rate of liquids.
Flow rate[edit]
A venturi can be used to measure the volumetric flow rate, Q{displaystyle scriptstyle Q}.
Since
then
A venturi can also be used to mix a liquid with a gas. If a pump forces the liquid through a tube connected to a system consisting of a venturi to increase the liquid speed (the diameter decreases), a short piece of tube with a small hole in it, and last a venturi that decreases speed (so the pipe gets wider again), the gas will be sucked in through the small hole because of changes in pressure. At the end of the system, a mixture of liquid and gas will appear. See aspirator and pressure head for discussion of this type of siphon.
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Differential pressure[edit]Venturi Principle Explained
As fluid flows through a venturi, the expansion and compression of the fluids cause the pressure inside the venturi to change. This principle can be used in metrology for gauges calibrated for differential pressures. This type of pressure measurement may be more convenient, for example, to measure fuel or combustion pressures in jet or rocket engines.
The first large-scale Venturi meters to measure liquid flows were developed by Clemens Herschel who used them to measure small and large flows of water and wastewater beginning at the end of the 19th century.[3] While working for the Holyoke Water Power Company, Herschel would develop the means for measuring these flows to determine the water power consumption of different mills on the Holyoke Canal System, first beginning development of the device in 1886, two years later he would describe his invention of the Venturi meter to William Unwin in a letter dated June 5, 1888.[4]
Examples[edit]
The Venturi effect may be observed or used in the following:
Venturi tubes are also used to measure the speed of a fluid, by measuring pressure changes at different segments of the device. Placing a liquid in a U-shaped tube and connecting the ends of the tubes to both ends of a Venturi is all that is needed. When the fluid flows through the Venturi the pressure in the two ends of the tube will differ, forcing the liquid to the 'low pressure' side. The amount of that move can be calibrated to the speed of the fluid flow.[2]
See also[edit]References[edit]
Venturi Principle Air FlowExternal links[edit]
Venturi Principle In Anaesthesia Pdf Free
Venturi Design Principles
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