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Pressure Measurements

Pressure Measurements. Pressure: Force F acting on unit area due to the weight of the atmosphere. Pressure measurements can be divided into three different categories: absolute pressure, gage pressure, and differential pressure.

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Pressure Measurements

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  1. Pressure Measurements Pressure: Force F acting on unit area due to the weight of the atmosphere. Pressure measurements can be divided into three different categories: absolute pressure, gage pressure, and differential pressure Absolute pressure: the absolute value of the force per-unit-area exerted on a surface by a fluid with respect to the absolute zero of pressure or a perfect vacuum

  2. Gage pressure: the difference between the absolute pressure and the local atmospheric pressure. Differential pressure: the measurement of one unknown pressure with reference to another unknown pressure. Two types of fluid systems: static and dynamic Static system: a system in which the fluid is at rest

  3. Dynamic system refers to the fluid that is moving Three different pressures in a dynamic system Static pressure Dynamic pressure Total pressure Steady dynamic system Transient dynamic system Quasi-steady-state

  4. Atmospheric pressure measurement Barometers Mercury barometer : raw reading Temperature correction Gravity correction

  5. Fortin Barometer Fortin barometers have been in use for over 100 years. They are probably the most accurate of all the barometer types. As of the spring of 2007, most of the companies have stopped producing any mercury instruments. Fortin barometers have a zero setting device, which can be used to adjust the level of the mercury in the cistern of the Fortin barometers. The main requirements of the place of exposure are uniform temperature, good light, solid and vertical mounting and protection against rough handling. Also great care should be taken when transporting a mercury barometer. All Fortin barometers are calibrated against standard instruments by complying with the recommendations of the WMO (World Meteorological Organisation).

  6. Vernier scale A vernier scale is an additional scale which allows a distance or angle measurement to be read more precisely than directly reading a uniformly-divided straight or circular measurement scale. It is a sliding secondary scale that is used to indicate where the measurement lies when it is in between two of the marks on the main scale.

  7. Torricelli Barometer A glass tube enclosed at one side, and filled completely with mercury. Now all air was out of the tube. Locking the tube on the open side and turned the tube upside down in a reservoir filled with mercury. Now unlock the opening, a certain amount of mercury will still kept in the tube. This is caused by the air pressure on the surface of the mercury in the reservoir pushed the mercury column up in the tube.

  8. ContraBarometer Contra barometer solved one of the major problems that the Toricelli barometer has: the degree of readability. It places a "multiplicator" onto the mercury tube. In the U-shaped instrument, colored alcohol was filled onto the mercury surface. All changes in the mercury column were transferred to the surface of the colored alcohol. The scale of the Toricelli became tenfold enlarged, and easy to read due to the colored fluid

  9. Eco-Celli Barometer The Eco-celli contains no mercury.  The U-shaped glass tube is filled with a red silicon-based fluid as well as a gas. The basic principle of Eco-Celli is based on the compressibility of gasses instead of the weight of liquid mercury.  On the upper left-hand side of the barometer, one can see the gas reservoir above the red fluid tube.  The gas provides a constant counter-pressure against the atmospheric pressure. Air pressure pushes down on the open side of the barometer tube onto the surface of the red fluid. A very important factor in measuring air pressure is the temperature. Eco-celli has solved this Problem by mounting a high precision thermometer parallel to the barometer tube.  

  10. Learn how to operate Fortin Barometer Read the instrument instruction, Pressure reading correction

  11. AneroidBarometer An aneroid barometer uses a small, flexible metal box called an aneroid cell. This aneroid capsule (cell) is made from an alloy of beryllium and copper. The evacuated capsule (or usually more capsules) is prevented from collapsing by a strong spring. Small changes in external air pressure cause the cell to expand or contract. This expansion and contraction drives mechanical levers such that the tiny movements of the capsule are amplified and displayed on the face of the aneroid barometer. Many models include a manually set needle which is used to mark the current measurement so a change can be seen.

  12. Barographs A barograph, which records a graph of some atmospheric pressure, uses an aneroid barometer mechanism to move a needle on a smoked foil or to move a pen upon paper, both of which are attached to a drum moved by clockwork.

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