Method and apparatus for real time enhancing of the operation of a fluid transport pipeline

US 10,352,505 B2
Filed: 09/19/2016
Issued: 07/16/2019
Est. Priority Date: 06/27/2008
Status: Active Grant

First Claim

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1. A method of real time monitoring a pipeline network in a transport state to identify possible destabilizing events in the pipeline network, comprising:

establishing a normal fluid driver shutdown pressure loss profile for a normal fluid driver shutdown in the pipeline network;

deenergizing a fluid driver within the pipeline network;

sensing one or more pressure waves within the pipeline network at predetermined locations within the pipeline network;

using high speed chronological monitoring, determining that the deenergizing occurred after the one or more pressure waves was sensed;

establishing a pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing;

integrating an area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing;

comparing the area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing to an area under the normal fluid driver shutdown pressure loss profile for a normal fluid driver shutdown;

generating an alarm when the area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing is less than an acceptable area.

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Abstract

A real time method and dynamic logic-based system for enhancing the operation of a pipeline network is disclosed. The system and method perform monitoring of the operation of a pipeline network, generate alarms in response to differing levels of destabilized pipeline operations, manage the generation of alarms based upon known operating events and operating conditions, diagnose potential source of the detected destabilized events and manage the operation of the pipeline.

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12 Claims

1. A method of real time monitoring a pipeline network in a transport state to identify possible destabilizing events in the pipeline network, comprising:
- establishing a normal fluid driver shutdown pressure loss profile for a normal fluid driver shutdown in the pipeline network;
  
  deenergizing a fluid driver within the pipeline network;
  
  sensing one or more pressure waves within the pipeline network at predetermined locations within the pipeline network;
  
  using high speed chronological monitoring, determining that the deenergizing occurred after the one or more pressure waves was sensed;
  
  establishing a pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing;
  
  integrating an area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing;
  
  comparing the area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing to an area under the normal fluid driver shutdown pressure loss profile for a normal fluid driver shutdown;
  
  generating an alarm when the area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing is less than an acceptable area.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method according to claim 1, wherein the normal fluid driver shutdown pressure loss profile is an empirically determined pressure loss profile.
  - 3. The method according to claim 1, wherein the normal fluid driver shutdown pressure loss profile for a normal fluid driver shutdown is automatically adjusted based upon at least one of a current operating mode, current operating conditions and current operating events.
  - 4. The method of monitoring a pipeline network according to claim 1, further comprising:
    - determining a location of the possible destabilizing event in the pipeline network in response to the sensed pressure waves.
  - 5. The method according to claim 1, wherein the high-speed chronological monitoring includes monitoring pressures in pipeline network a frequencies greater than every 500 ms.
  - 6. The method according to claim 5, wherein the high-speed chronological monitoring includes monitoring pressures in pipeline network a frequencies greater than every 100 ms.

7. A method of real time monitoring an idle pipeline network to identify possible destabilizing events in the idle pipeline network, comprising:
- establishing a pressure profile for an idle pipeline segment in the pipeline network;
  
  establishing an examination period for the idle pipeline segment;
  
  establishing an integration floor by subtracting a non-discard offset from a current pressure value within the idle pipeline segment;
  
  integrating an area between the current pressure value and the integration floor to establish a minimum required integration area for a subsequent examination period;
  
  integrating the current pressure value and the integration floor for the subsequent examination period;
  
  comparing the two integrated areas to determine whether the integration area between the current pressure value and the integration floor for the subsequent examination period is greater than the minimum required integration area.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The method according to claim 7, wherein the pressure profile is an empirically determined pressure profile.
  - 9. The method according to claim 7, wherein establishing the pressure profile includes accounting for at least one of temperature variation, valve sealing effectiveness, and entrapped pressure.
  - 10. The method according to claim 7, wherein the non-discard offset value is determined based on at least one of signal noise, thermally induced pressure changes, valve sealing effectiveness, and operating mode.
  - 11. The method according to claim 7, wherein the examination period is 30-60 seconds.

12. A method of real time monitoring a pipeline network to identify possible destabilizing events in the pipeline network, comprising:
- (a) monitoring the pipeline network in a transporting mode to identify possible destabilizing events in the transporting mode of the pipeline network comprisingestablishing a normal fluid driver shutdown pressure loss profile for a normal fluid driver shutdown in the pipeline network,deenergizing a fluid driver within the pipeline network,sensing one or more pressure waves within the pipeline network at predetermined locations within the pipeline network,using high speed chronological monitoring, determining that the deenergizing occurred after the one or more pressure waves was sensed,establishing a pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing,integrating an area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing,comparing the area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing to an area under the normal fluid driver shutdown pressure loss profile for a normal fluid driver shutdown, andgenerating an alarm when the area under the pressure loss profile for the sensed one or more pressure waves and subsequent deenergizing is less than an acceptable area; and
  
  (b) monitoring the pipeline network in an idle state to identify possible destabilizing events in the idle pipeline network, comprising;
  
  establishing a pressure profile for an idle pipeline segment in the pipeline network,establishing an examination period for the idle pipeline segment,establishing an integration floor by subtracting a non-discard offset from a current pressure value within the idle pipeline segment,integrating an area between the between current pressure value and the integration floor to establish a minimum required integration area for a subsequent examination period,integrating the current pressure value and the integration floor for the subsequent examination period,comparing the two integrated areas to determine whether the integration area between the current pressure value and the integration floor for the subsequent examination period is greater than the minimum required integration area.

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Current Assignee
ExxonMobil Research & Engineering Company (Exxon Mobil Corporation)
Original Assignee
ExxonMobil Research & Engineering Company (Exxon Mobil Corporation)
Inventors
McDowell, Keith C., Cibils, Jacques A.
Primary Examiner(s)
Fan, Hongmin

Application Number

US15/269,328
Publication Number

US 20170003200A1
Time in Patent Office

1,030 Days
Field of Search
US Class Current
CPC Class Codes

F17D 5/06   using electric or acoustic ...

G01M 3/2815   using pressure measurements

Y10T 137/0318   Processes

Y10T 137/0452   Detecting or repairing leak

Method and apparatus for real time enhancing of the operation of a fluid transport pipeline

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

16 Citations

12 Claims

Specification

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Method and apparatus for real time enhancing of the operation of a fluid transport pipeline

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

16 Citations

12 Claims

Specification

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Solutions

Use Cases

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