System and methods for detecting, monitoring, and removing deposits on boiler heat exchanger surfaces using vibrational analysis
First Claim
1. A method of evaluating the operation of a lance tube in a boiler system, the method comprising:
- operating a sootblower comprising moving a lance tube along a path into and out of a boiler wherein said lance tube includes a rotating nozzle that moves past at least one heat exchanger surface in the boiler;
impacting the at least one heat exchanger surfaces with a high pressure fluid discharged from the lance tube thereby transferring energy from the high pressure fluid to the at least one heat exchanger surface and resulting in a vibration in the boiler system;
measuring the vibration in the boiler system caused by the impact of the high pressure fluid at a plurality of locations on the at least one heat exchanger surface, wherein the vibration is measured with a vibration measuring device; and
analyzing the measured vibration to evaluate the operation of the lance tube.
1 Assignment
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Accused Products
Abstract
A boiler system includes a boiler having at least one heat exchanger having a surface on which a deposit may form. The boiler system further includes at least one retractable sootblower having a lance tube for carrying a high pressure fluid into the boiler. The lance tube is configured such that the high pressure fluid impacts the heat exchanger surface to effect a vibration in the boiler system. The boiler system also includes at least one vibration measuring device coupled to the boiler system. The vibration measuring device is configured to measure the vibration in the boiler system, and the measured vibration indicates presence or absence of the deposit on the heat exchanger surface. The vibration measuring device may optionally detect a vibration caused by the release of the deposit from the surface of the heat exchanger or the impact of the released deposit with a surface in the boiler system.
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Citations
12 Claims
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1. A method of evaluating the operation of a lance tube in a boiler system, the method comprising:
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operating a sootblower comprising moving a lance tube along a path into and out of a boiler wherein said lance tube includes a rotating nozzle that moves past at least one heat exchanger surface in the boiler; impacting the at least one heat exchanger surfaces with a high pressure fluid discharged from the lance tube thereby transferring energy from the high pressure fluid to the at least one heat exchanger surface and resulting in a vibration in the boiler system; measuring the vibration in the boiler system caused by the impact of the high pressure fluid at a plurality of locations on the at least one heat exchanger surface, wherein the vibration is measured with a vibration measuring device; and analyzing the measured vibration to evaluate the operation of the lance tube. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of evaluating the energy transfer from a high pressure fluid discharged from a lance tube to a surface in a boiler system, the method comprising:
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operating a sootblower comprising moving a lance tube along a path into and out of a boiler wherein said lance tube includes a rotating nozzle that moves past at least one heat exchanger surface in the boiler; impacting the at least one heat exchanger surfaces with a high pressure fluid discharged from the lance tube thereby transferring energy from the high pressure fluid to the at least one heat exchanger surface and resulting in a vibration in the boiler system; measuring the vibration in the boiler system caused by the impact of the high pressure fluid at a plurality of locations on the at least one heat exchanger surface, wherein the vibration is measured with a vibration measuring device; and analyzing the measured vibration to evaluate the energy transfer from the high pressure fluid discharged from the lance tube to the at least one heat exchanger surface. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification