Method of detecting hot spots in a rotary heat exchanger

US 4,813,003 A
Filed: 06/23/1986
Issued: 03/14/1989
Est. Priority Date: 06/23/1986
Status: Expired due to Term

First Claim

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1. Apparatus for detecting a hot spot in a rotary regenerative heat exchanger, comprising:

a housing having an inlet and outlet ducts for a heating fluid and a fluid to be heated;

a cylindrical rotor of heat absorbent material in said housing mounted for rotation about the central axis of the rotor;

means for rotating the rotor to alternately subject the heat absorbent material thereof to the heating fluid and to the fluid to be heated;

infrared ray detecting means including a sensor confronting the heat absorbent material of the rotor for receiving infrared radiation thereon and for generating a signal proportional to the infrared radiation incident thereon that is indicative of the instantaneous rotor temperature;

means for moving the detecting means along a path in a plane parallel to and adjacent the end of the rotor;

a first circuit means for receiving the sensor signal indicative of the instantaneous temperature of the rotor, for integrating the sensor signal over a time period and for dividing the integrated result by the time period of integration to produce an average rotor temperature signal;

means for evaluating the temperature difference between the instantaneous temperature of the rotor and the average temperature of the rotor and for producing as an output the difference therebetween, the means for evaluating the difference having a first input port for receiving the instantaneous rotor temperature signal, a second input port for receiving the average rotor temperature signal and an output port at which the signal representing difference in temperature is presented;

a second circuit means for receiving the temperature difference output from the difference means and for computing the average value of the positive portion of the temperature difference by integrating the temperature difference signal over a time period and for dividing the integrated result by the time period of integration to produce a tracking trip level signal;

summing means for adding the tracking trip level signal to a predetermined trip level set point and for producing as an output a variable trip level signal representative of a variable threshold temperature, the summing means having a first input port for receiving the tracking trip level signal, a second input port for receiving the trip level set point, and an output port at which the variable trip level signal is presented;

means for comparing the temperature difference signal output from the difference means to the variable threshold temperature, the comparing means having a first input port for receiving the temperature difference signal, a second input port for receiving the variable trip level signal and an output port at which the compared temperature signal is presented; and

means responsive to the compared temperature signal for de-energizing the means for moving the detecting means upon the temperature difference signal exceeding the variable trip level signal.

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Abstract

A detector (32) monitors infrared ray emissions from an air preheater (10) rotor (14) to detect a temperature rise that precedes a fire within air preheater (10) with each sensor output being processed independently by signal processing electronics. The instantaneous minus the average temperature of rotor (14) is calculated and compared to a variable trip level signal to determine whether a hot spot has been detected. The detector (32) scans across the face of rotor (14) until an initial hot spot is detected, whereupon the scanner motor (58) ceases operation thereby locating the scanner over the rotor radial position of the detected hot spot. If the same hot spot is detected on the next subsequent rotor pass, a hot spot alarm (60) is energized. If the hot spot is not detected on the next subsequent rotor pass, detector scanning is resumed by energizing scan motor (58).

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25 Claims

1. Apparatus for detecting a hot spot in a rotary regenerative heat exchanger, comprising:
- a housing having an inlet and outlet ducts for a heating fluid and a fluid to be heated;
  
  a cylindrical rotor of heat absorbent material in said housing mounted for rotation about the central axis of the rotor;
  
  means for rotating the rotor to alternately subject the heat absorbent material thereof to the heating fluid and to the fluid to be heated;
  
  infrared ray detecting means including a sensor confronting the heat absorbent material of the rotor for receiving infrared radiation thereon and for generating a signal proportional to the infrared radiation incident thereon that is indicative of the instantaneous rotor temperature;
  
  means for moving the detecting means along a path in a plane parallel to and adjacent the end of the rotor;
  
  a first circuit means for receiving the sensor signal indicative of the instantaneous temperature of the rotor, for integrating the sensor signal over a time period and for dividing the integrated result by the time period of integration to produce an average rotor temperature signal;
  
  means for evaluating the temperature difference between the instantaneous temperature of the rotor and the average temperature of the rotor and for producing as an output the difference therebetween, the means for evaluating the difference having a first input port for receiving the instantaneous rotor temperature signal, a second input port for receiving the average rotor temperature signal and an output port at which the signal representing difference in temperature is presented;
  
  a second circuit means for receiving the temperature difference output from the difference means and for computing the average value of the positive portion of the temperature difference by integrating the temperature difference signal over a time period and for dividing the integrated result by the time period of integration to produce a tracking trip level signal;
  
  summing means for adding the tracking trip level signal to a predetermined trip level set point and for producing as an output a variable trip level signal representative of a variable threshold temperature, the summing means having a first input port for receiving the tracking trip level signal, a second input port for receiving the trip level set point, and an output port at which the variable trip level signal is presented;
  
  means for comparing the temperature difference signal output from the difference means to the variable threshold temperature, the comparing means having a first input port for receiving the temperature difference signal, a second input port for receiving the variable trip level signal and an output port at which the compared temperature signal is presented; and
  
  means responsive to the compared temperature signal for de-energizing the means for moving the detecting means upon the temperature difference signal exceeding the variable trip level signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. Apparatus as recited in claim 1 wherein the period of integration of the first circuit means is synchronized with the period of integration of the second circuit means, whereby the average values computed by the first and second circuit means are computed over the same period.
  - 3. Apparatus as recited in claim 1 wherein the first circuit means is an analog integrator.
  - 4. Apparatus as recited in claim 1 wherein the second circuit means is an analog integrator.
  - 5. Apparatus as recited in claim 1 wherein the predetermined trip level set point is adjustable.
  - 6. Apparatus as recited in claim 1 further comprising:
    - means for comparing the average rotor temperature to a predetermined low temperature set point, the comparing means having a first input port for receiving the average rotor temperature signal, a second input port for receiving the predetermined low temperature set point and an output port at which the compared low temperature signal is presented; and
      
      means responsive to the compared low temperature signal for energizing an alarm upon detecting the average rotor temperature is less than the predetermined low temperature set point.
  - 7. Apparatus as recited in claim 6 wherein the predetermined low temperature set point is adjustable.
  - 8. Apparatus as recited in claim 1 further comprising a preamplifier interposed between the infrared ray detecting means and the first circuit to amplify the instantaneous rotor temperature signal generated by the infrared ray detecting means to be of sufficient magnitude for signal processing.
  - 9. Apparatus as recited in claim 8 further comprising a converter interposed between the preamplifier and the first circuit to convert the signal received from the preamplifier into a current signal.

10. Apparatus for detecting a hot spot in a rotary regenerative heat exchanger, comprising:
- a housing having an inlet and outlet ducts for a heating fluid and a fluid to be heated;
  
  a cylindrical rotor of heat absorbent material in said housing mounted for rotation about the central axis of the rotor;
  
  means for rotating the rotor to alternately subject the heat absorbent material thereof to the heating fluid and to the fluid to be heated;
  
  infrared ray detecting means including a sensor confronting the heat absorbent material of the rotor for receiving infrared radiation thereon and for generating a signal proportional to the infrared radiation incident thereon that is indicative of instantaenous rotor temperature;
  
  means for moving the detecting means along a path in a plane parallel to and adjacent the end of the rotor;
  
  a first circuit means for receiving the sensor signal indicative of the instantaneous temperature of the rotor, for integrating the sensor signal over a time period and for dividing the integrated result by the time period of integration to produce an average rotor temperature signal;
  
  means for evaluating the temperature difference between the instantaneous temperature of the rotor and the average temperature of the rotor and for producing as an output the difference therebetween, the means for evaluating the difference having a first input port for receiving the instantaneous rotor temperature signal, a second input port for receiving the average rotor temperature signal and an output port at which the signal representing difference in temperature is presented;
  
  a second circuit means for receiving the temperature difference output from the difference means and for computing the average value of the positive portion of the temperature difference by integrating the temperature difference signal over a time period and for dividing the integrated result by the time period of integration to produce a tracking trip level signal;
  
  summing means for adding the tracking trip level signal to a predetermined trip level set point and for producing as an output a variable trip level signal representative of a variable threshold temperature, the summing means having a first input port for receiving the tracking trip level signal, the second input port for receiving the trip level set point, and an output port at which the variable trip level signal is presented;
  
  a peak detector comparing means for comparing the temperature difference output from the difference means to the variable threshold temperature, the peak detector comparing means having a first input port for receiving the temperature difference signal, a second input port for receiving the variable trip level signal, a first output port at which the compared temperature signal is presented, and a second output port which is energized when the temperature difference signal exceeds the variable trip level signal a second time in approximately 1.5 time periods, whereby the same hot spot is detected on two successive passes of the rotor past the infrared ray detecting means; and
  
  means responsive to the compared temperature signal presented at the first output port of the peak detector comparing means for terminating moving the detecting means adjacent the end of the rotor upon the temperature difference signal exceeding the variable trip level signal.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 11. Apparatus as recited in claim 10 wherein the means responsive to the compared temperature signal presented at the first output port of the peak detector comparing means further comprises means for resuming moving the detecting means adjacent the end of the rotor upon the temperature difference signal not exceeding the variable trip level signal a second time in approximately 1.5 time periods.
  - 12. Apparatus as recited in claim 10 further comprising means responsive to the second outlet port of the peak detector comparing means for energizing a hot spot alarm when the second outlet port is energized.
  - 13. Apparatus as recited in claim 10 wherein the period of integration of the first circuit means is synchronized with the period of integration of the second circuit means, whereby the average values computed by the first and second circuit means are computed over the same period.
  - 14. Apparatus as recited in claim 10 wherein the first circuit means is an analog integrator.
  - 15. Apparatus as recited in claim 10 wherein the second circuit means is an analog integrator.
  - 16. Apparatus as recited in claim 10 wherein the predetermined trip level set point is adjustable.
  - 17. Apparatus as recited in claim 10 further comprising:
    - means for comparing the average rotor temperature to a predetermined low temperature set point, the comparing means having a first input port for receiving the average rotor temperature signal, a second input port for receiving the predetermined low temperature set point and an output port at which the compared low temperature signal is presented; and
      
      means responsive to the compared low temperature signal for energizing an alarm upon detecting the average rotor temperature is less than the predetermined low temperature set point.
  - 18. Apparatus as recited in claim 10 wherein the predetermined low temperature set point is adjustable.
  - 19. Apparatus as recited in claim 10 further comprising a preamplifier interposed between the infrared ray detecting means and the first circuit means to amplify the instantaneous rotor temperature signal generated by the infrared ray detecting means to be of sufficient magnitude for signal processing.

20. A method of detecting a hot spot in a rotary regenerative heat exchanger having a housing surrounding a cylindrical rotor of heat absorbent material, the rotor mounted for rotation about the central axis thereof and driven by a rotation means to alternately subject the heat absorbent material to the heating fluid and to the fluid to be heated, the method comprising the steps of:
- scanning the end of the rotor with a temperature measuring means;
  
  measuring the instantaneous temperature of the rotor;
  
  calculating the average rotor temperature over one period;
  
  evaluating the temperature difference between the instantaneous rotor temperature and the average rotor temperature;
  
  calculating as a trip level temperature the average value of the positive portion of the temperature difference;
  
  comparing the temperature difference to the trip level temperature; and
  
  ceasing scanning of the end of the rotor upon the average rotor temperature exceeding the trip level temperature.
- View Dependent Claims (21, 22, 23, 24, 25)
- - 21. A method of detecting a hot spot as recited in claim 20, further comprising restarting the scanning of the end of the rotor upon the temperature difference not exceeding the trip level signal a second time in approximately 1.5 time periods.
  - 22. A method of detecting a hot spot as recited in claim 20, further comprising energizing an alarm upon the temperature difference exceeding the trip level temperature a second time in approximately 1.5 time periods.
  - 23. A method of detecting a hot spot as recited in claim 20, further comprising adding a predetermined trip level set point to the trip level temperature prior to comparing the temperature difference to the trip level temperature.
  - 24. A method of detecting a hot spot as recited in claim 20, further comprising:
    - comparing the average rotor temperature to a low temperature set point; and
      
      energizing an alarm upon the average rotor temperature decreasing below the low temperature set point.
  - 25. A method of detecting a hot spot as recited in claim 20, wherein a time period is one revolution of the rotor.

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Current Assignee
The Air Preheater Company Incorporated
Original Assignee
The Air Preheater Company Incorporated
Inventors
Goetschius, Gary C., Cox, William C., Casagrande, Mark T.
Primary Examiner(s)
Lall, Parshotam S.
Assistant Examiner(s)
Cosimano, Edward R.

Application Number

US06/877,034
Time in Patent Office

995 Days
Field of Search

165/11.1, 250/338, 250/342, 250/349, 250/338.3, 364/550, 364/557, 374/120, 374/121, 374/124, 374/137
US Class Current

702/135
CPC Class Codes

F28F 27/006 specially adapted for regen...

G01J 5/0022 for sensing the radiation o...

Method of detecting hot spots in a rotary heat exchanger

First Claim

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Abstract

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25 Claims

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Method of detecting hot spots in a rotary heat exchanger

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

13 Citations

25 Claims

Specification

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Solutions

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