SYSTEM AND METHOD FOR DETERMINING CHARACTERISTICS OF POWER CABLES USING DISTRIBUTED TEMPERATURE SENSING SYSTEMS
First Claim
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1. A method for determining and displaying future current power load characteristics of power cables comprising the components of conductor metals, insulators, sheathings, bedding, and armours using distributed temperature sensing (DTS) systems comprising the steps of:
- a. receiving current load measurements from the power cables;
b. receiving current temperature profiles of the power cable from the DTS system;
c. calculating, from static thermal models of the particular power cable, the static temperatures of the various components of conductor metals, insulators, sheathings, bedding, and armours consistent with the current temperature profiles from the DTS measurements;
d. calculating and updating all of the static heat losses and resistances of the components;
e. calculating the static power load of the power cable;
f. calculating, from transient thermal models, future power loads and temperatures reached for different future load scenarios; and
g. displaying these future temperatures and power loads on a display device suitable for creating graphic images and/or alphanumeric characters recognizable to a user.
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Abstract
A system and method using both static and transient modeling of power cables coupled with real time measurements of distributed temperature profiles of both the cable and it'"'"'s immediate environment to optimize the current loads of the power cable. The optical fibers used for measuring distributed temperature profiles can be integrated directly into the monitored power cables or be deployed alongside the power cables, including using the optical fibers deployed in optical power ground wire systems.
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Citations
6 Claims
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1. A method for determining and displaying future current power load characteristics of power cables comprising the components of conductor metals, insulators, sheathings, bedding, and armours using distributed temperature sensing (DTS) systems comprising the steps of:
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a. receiving current load measurements from the power cables; b. receiving current temperature profiles of the power cable from the DTS system; c. calculating, from static thermal models of the particular power cable, the static temperatures of the various components of conductor metals, insulators, sheathings, bedding, and armours consistent with the current temperature profiles from the DTS measurements; d. calculating and updating all of the static heat losses and resistances of the components; e. calculating the static power load of the power cable; f. calculating, from transient thermal models, future power loads and temperatures reached for different future load scenarios; and g. displaying these future temperatures and power loads on a display device suitable for creating graphic images and/or alphanumeric characters recognizable to a user. - View Dependent Claims (2, 3, 4)
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5. A system for determining power load characteristics of a power cable system comprising:
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a. a processor; b. a DTS system coupled to the processor, the DTS system configured to; i. receive as input a load measurement of a power cable; ii. receive signals relating to the distributed temperature profile of the power cable, including any hot spots; and iii. forward the received load measurement and signals relating to the temperature to the processor; c. a fiber optic sensor connected to said DTS system and deployed next to, in proximity of, in direct contact to the exterior wall, or within said power cable; d. a memory device coupled to said processor operable to retain program instructions and store data from said processor and said DTS system; e. a network port operable to transmit information from said system for determining characteristics of power cables to an exterior network; and f. a display device operable for creating graphic images and/or alphanumeric characters recognizable to a user; wherein the processor is programmed to determine the characteristics of the power cable based at least on the received load measurement and signals relating to the temperature of the power cable system. - View Dependent Claims (6)
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Specification
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Current AssigneeSensortran Incorporated (Halliburton Company)
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Original AssigneeSensortran Incorporated (Halliburton Company)
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InventorsKalar, Kent, Jaaskelainen, Kari-Mikko, Algaonkar, Mahesh U
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current703/13
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CPC Class CodesG01K 11/32 using changes in transmitta...
