Method and apparatus for measuring spatial temperature distribution of flames
First Claim
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1. A method for measuring spatial temperature distribution of a flame, comprising:
- (a) providing a flame having a height dimension and a width dimension;
(b) positioning a discrete length of an optical fiber within the flame so that the optical fiber produces thermally emitted light which is transmitted along the optical fiber;
(c) creating relative movement of the optical fiber and the flame;
(d) measuring the power of the thermally emitted light produced by the optical fiber at each of a number of different positions along the height and width dimensions of the flame, said power measurements being proportional to the spatial temperature distribution of the flame at said discrete length of the optical fiber.
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Abstract
A method and apparatus is provided for measuring the spatial temperature distribution of a flame emitted from a burner nozzle for use in the fabrication of tapered optical fibers and fused couplers so that the position of the burner can be calibrated to locate the optical fiber within the most thermally stable part of the flame during production.
11 Citations
12 Claims
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1. A method for measuring spatial temperature distribution of a flame, comprising:
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(a) providing a flame having a height dimension and a width dimension;
(b) positioning a discrete length of an optical fiber within the flame so that the optical fiber produces thermally emitted light which is transmitted along the optical fiber;
(c) creating relative movement of the optical fiber and the flame;
(d) measuring the power of the thermally emitted light produced by the optical fiber at each of a number of different positions along the height and width dimensions of the flame, said power measurements being proportional to the spatial temperature distribution of the flame at said discrete length of the optical fiber. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of measuring spatial temperature distribution of a flame, comprising:
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(a) providing a flame having a height dimension and a width dimension;
(b) positioning a discrete length of an optical fiber along an X axis within the flame, the optical fiber producing thermally emitted light which is transmitted along the optical fiber;
(c) moving the flame relative to the optical fiber within a plane containing both a Y axis and a Z axis which are transverse to the X axis;
(d) measuring the power of the thermally emitted light produced by the optical fiber at each of a number of different positions relative to the height and width dimensions of the flame, said power measurements being proportional to the spatial temperature distribution of the flame at said discrete length of the optical fiber. - View Dependent Claims (8, 9)
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10. Apparatus for measuring spatial temperature distribution of a flame, comprising:
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a burner nozzle movable within a plane containing a Y axis and a Z axis, said burner nozzle emitting a flame having a height dimension and a width dimension;
a mounting structure for supporting a discrete length of an optical fiber along an X axis, perpendicular to said Y and Z axes, within the flame emitted by said burner nozzle, said optical fiber having a first end and being capable of transmitting thermally emitted light to said first end which is produced when said optical fiber is heated by said flame;
a power meter coupled to said first end of said optical fiber, said power meter being effective to measure the power of thermally emitted light produced by said optical fiber at each of a number of different locations along said height and width dimensions of said flame as said burner nozzle moves within said plane relative to said optical fiber, said power measurements being proportional to the spatial temperature distribution of the flame at said discrete length of the optical fiber. - View Dependent Claims (11, 12)
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Specification