Drop counter and flow meter for apparatus and method for determining the thermal stability of fluids
First Claim
1. An apparatus for testing thermal oxidation stability of a test sample such as a hydrocarbon fuel comprising:
- a source of electric power;
a heater tube connected to said source of electric power for flowing current to heat a center section of said heater tube to a predetermined temperature;
a coolant flow circuit supplying coolant to each end of said heater tube to keep each end thereof near room temperature;
an aeration circuit with an aeration pump for pumping air to aerate said test simple in a sample container;
a test sample flow circuit for flowing said test sample around said center section to heat said test sample to said predetermined temperature, said test sample flow circuit including;
a sample drive pump pumping said test sample from said sample container around said center section of said heater tube;
a differential pressure filter in said test sample flow circuit after said heater tube to filter out any solids that may have formed in said test sample when heated to said predetermined temperature due to oxidation of said test sample;
a differential pressure sensor for measuring differential pressure across said differential pressure filter;
a back pressure regulator for maintaining said test sample being pumped by said sample drive pump at a test pressure high enough to keep said test sample in liquid phase when heated to said predetermined temperature;
a waste container for collecting said test sample after said test;
a sample flow meter connected to said test sample flow circuit for accurately measuring said test sample flowing there through.
3 Assignments
0 Petitions
Accused Products
Abstract
A thermal oxidation tester is shown for determining thermal stability of a fluid, particularly hydrocarbons when subjected to elevated temperatures. The tendency of the heated fluid to oxidize and (1) form deposits on a surface of a heater tube and (2) form solids therein, are both measured at a given flow rate, temperature and time. The measured results are used to determine whether a fluid sample passes or fails the test. Sample flow rate is important in the jet fuel thermal oxidation test. Current practice requires manual drop counting or flow confirmation with the use of volumetric glassware. An apparatus is described to precisely measure the flow rate and automatically perform flow rate check using a drip rate method and/or volumetric method.
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Citations
17 Claims
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1. An apparatus for testing thermal oxidation stability of a test sample such as a hydrocarbon fuel comprising:
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a source of electric power; a heater tube connected to said source of electric power for flowing current to heat a center section of said heater tube to a predetermined temperature; a coolant flow circuit supplying coolant to each end of said heater tube to keep each end thereof near room temperature; an aeration circuit with an aeration pump for pumping air to aerate said test simple in a sample container; a test sample flow circuit for flowing said test sample around said center section to heat said test sample to said predetermined temperature, said test sample flow circuit including; a sample drive pump pumping said test sample from said sample container around said center section of said heater tube; a differential pressure filter in said test sample flow circuit after said heater tube to filter out any solids that may have formed in said test sample when heated to said predetermined temperature due to oxidation of said test sample; a differential pressure sensor for measuring differential pressure across said differential pressure filter; a back pressure regulator for maintaining said test sample being pumped by said sample drive pump at a test pressure high enough to keep said test sample in liquid phase when heated to said predetermined temperature; a waste container for collecting said test sample after said test; a sample flow meter connected to said test sample flow circuit for accurately measuring said test sample flowing there through. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of testing a test sample in liquid form for thermal oxidation stability comprising the following steps:
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aerating said test sample in a sample container with dry air to saturate said test sample with oxygen; heating a center section of a heater tube to a predetermined temperature by flowing current there through; cooling each end of said heater tube by flowing coolant from a coolant flow circuit to said each end; pumping said test sample at a low flow rate around said center section of said heater tube so that a temperature of said test sample is raised to approximately said predetermined temperature; test filtering with a differential pressure filter said test sample to collect solids formed in said test sample when heated to said predetermined temperature; maintaining an elevated pressure on said test sample during said pumping step sufficient to keep said test sample from evaporating; discharging said test sample through a drop counter and flow meter to a waste container. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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Specification