Method and system using NIR spectroscopy for in-line monitoring and controlling content in continuous production of engineered wood products
First Claim
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1. An in-line spectroscopic method for monitoring and control of additive solid levels during continuous production of resin-wood composite material members comprising a resin composition, wood pieces, wax, and moisture, comprising:
- (a) providing a plurality of training samples comprising a selected additive of a resin-wood composite material having quantitatively predetermined respective amounts of solids;
(b) irradiating said plurality of training samples with NIR radiation using NIR spectroscopic instrumentation including an associated source of NIR radiation, wherein said irradiating comprises exposing said training samples to NIR radiation at a succession of different wavelength values spanning a selected NIR spectral range of wavelengths;
(c) generating a calibration with reference to the training sample spectral data sets for the NIR spectroscopic instrumentation for quantitatively correlating spectral results with solid concentrations in the selected additive to be used in a resin-wood composite member production run;
(d) irradiating the feed stream of the selected additive comprising a quantitatively unknown amount of solids with NIR radiation using the NIR spectroscopic instrumentation in-line and prior to blending of the wood pieces, the resin composition, wax and moisture, wherein said irradiating comprises exposing said selected additive feed stream to unfiltered NIR radiation at a succession of different wavelength values spanning the selected NIR spectral range of wavelengths;
(e) predicting, using the calibration and the selected additive feed stream spectral data, a solid concentration of the selected additive feed stream;
(f) comparing the predicted selected additive solids concentration with a pre-selected target value;
(g) adjusting at one least process variable effective to compensate for any difference determined between the predicted and target selected additive solids concentration values when compared in step (f);
(h) blending resin composition, wax, wood pieces, and moisture in a blender, providing a resin-wood composite composition;
(i) hot-pressing the resin-wood composite composition effective to form a unitary resin-wood composite member; and
(j) repeating steps (d) to (g) intermittently during at least a portion of a given resin-wood composite material member production run.
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Abstract
Method and system using near infrared (NIR) spectroscopy for dynamically monitoring and controlling the proportion of resin solids or other additive solids in combination with other ingredients used in continuous production of resin-wood composite articles.
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Citations
21 Claims
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1. An in-line spectroscopic method for monitoring and control of additive solid levels during continuous production of resin-wood composite material members comprising a resin composition, wood pieces, wax, and moisture, comprising:
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(a) providing a plurality of training samples comprising a selected additive of a resin-wood composite material having quantitatively predetermined respective amounts of solids;
(b) irradiating said plurality of training samples with NIR radiation using NIR spectroscopic instrumentation including an associated source of NIR radiation, wherein said irradiating comprises exposing said training samples to NIR radiation at a succession of different wavelength values spanning a selected NIR spectral range of wavelengths;
(c) generating a calibration with reference to the training sample spectral data sets for the NIR spectroscopic instrumentation for quantitatively correlating spectral results with solid concentrations in the selected additive to be used in a resin-wood composite member production run;
(d) irradiating the feed stream of the selected additive comprising a quantitatively unknown amount of solids with NIR radiation using the NIR spectroscopic instrumentation in-line and prior to blending of the wood pieces, the resin composition, wax and moisture, wherein said irradiating comprises exposing said selected additive feed stream to unfiltered NIR radiation at a succession of different wavelength values spanning the selected NIR spectral range of wavelengths;
(e) predicting, using the calibration and the selected additive feed stream spectral data, a solid concentration of the selected additive feed stream;
(f) comparing the predicted selected additive solids concentration with a pre-selected target value;
(g) adjusting at one least process variable effective to compensate for any difference determined between the predicted and target selected additive solids concentration values when compared in step (f);
(h) blending resin composition, wax, wood pieces, and moisture in a blender, providing a resin-wood composite composition;
(i) hot-pressing the resin-wood composite composition effective to form a unitary resin-wood composite member; and
(j) repeating steps (d) to (g) intermittently during at least a portion of a given resin-wood composite material member production run. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An in-line spectroscopic method for monitoring and control of resin solids content during continuous production of oriented strand board including multiple stacked layers comprising a resin composition, wood strands, wax, and moisture, comprising:
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(i) generating a calibration with reference to training sample spectral data sets for NIR spectroscopic instrumentation for quantitatively correlating spectral results with respect to solid concentrations in resin compositions to be used in an oriented strand board production run;
(ii) irradiating a resin composition feed stream comprising a quantitatively unknown amount of solids with NIR radiation using the NIR spectroscopic instrumentation in-line and prior to blending of the wood strands, the resin composition, wax and moisture, wherein said irradiating comprises exposing said resin composition feed stream to unfiltered NIR radiation at a succession of different wavelength values spanning a selected spectral range of wavelengths;
(iii) predicting, using the calibration and the resin composition feed stream data, a solid concentration of the resin composition feed stream;
(iv) comparing the predicted resin composition solids concentration with a pre-selected target value;
(v) adjusting at one least process variable selected from resin composition application rate to wood strands in a blender, wax application rate to wood strands in the blender, wood strand feed rate for resin-loading in the blender, or water blending rate with resin to be added to wood strands in the blender, effective to compensate for any difference determined between the predicted and target resin composition solids concentration values when compared in step (iv);
(vi) blending the resin composition, wax, wood strands, and moisture in the blender, providing a resin-wood composite composition;
(vii) forming a stack comprising multiple layers of resin-wood composite composition wherein at least two of the stacked layers have strands generally oriented in differing angles relative to a machine direction of the process;
(viii) hot pressing the stack effective to form a unitary composite member; and
(ix) repeating steps (ii) to (v) intermittently during at least a portion of the given oriented strand board production run. - View Dependent Claims (9, 10, 11)
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12. An in-line spectroscopic method for monitoring and control of resin solids content during continuous production of oriented strand board including multiple stacked layers comprising a resin composition, wood strands, wax, and moisture, comprising:
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(a) providing a plurality of training samples comprising a resin composition having quantitatively predetermined respective amounts of solids;
(b) irradiating said plurality of training samples with NIR radiation using NIR spectroscopic instrumentation including an associated source of NIR radiation, wherein said irradiating comprises exposing said training samples to NIR radiation at a succession of different wavelength values spanning a selected spectral range of wavelengths including a range of about 1200 nm to about 2400 nm;
(c) generating a calibration with reference to the training sample spectral data sets for the NIR spectroscopic instrumentation for quantitatively correlating spectral results with solid concentrations in resin compositions to be used in an oriented strand board production run;
(d) irradiating a resin composition feed stream comprising a quantitatively unknown amount of solids with NIR radiation using the NIR spectroscopic instrumentation in-line and prior to blending of the wood strands, the resin composition, wax and moisture, wherein said irradiating comprises exposing said resin composition feed stream to unfiltered NIR radiation at a succession of different wavelength values spanning a selected spectral range of wavelengths including a range of about 1200 nm to about 2400 nm;
(e) predicting, using the calibration and the resin composition feed stream data, a solid concentration of the resin composition feed stream;
(f) comparing the predicted resin composition solids concentration with a pre-selected target value;
(g) adjusting at one least process variable selected from resin composition application rate to wood strands in a blender, wax application rate to wood strands in the blender, wood strand feed rate for resin-loading in the blender, or water blending rate with resin to be added to wood strands in the blender, effective to compensate for any difference determined between the predicted and target resin composition solids concentration values when compared in step (f);
(h) blending the resin composition, wax, and wood strands in the blender, providing a resin-wood composite composition;
(i) forming a stack comprising multiple layers of resin-wood composite composition wherein at least two of the stacked layers have strands generally oriented in differing angles relative to a machine direction of the process;
(j) hot pressing the stack effective to form a unitary composite member; and
(k) repeating steps (d) to (g) intermittently during at least a portion of the given oriented strand board production run. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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21. A system for in-line spectroscopic monitoring and control of resin solids content during continuous production of oriented strand board including multiple stacked layers comprising a resin composition, wood strands, wax, and moisture, comprising:
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(A) calibration-generating software for generating a calibration with reference to training sample spectral data sets for NIR spectroscopic instrumentation for quantitatively correlating spectral results with respect to solid concentrations in resin compositions to be used in an oriented strand board production run;
(B) NIR spectroscopic instrumentation for irradiating a resin composition feed stream comprising a quantitatively unknown amount of solids with NIR radiation using the NIR spectroscopic instrumentation in-line and prior to blending the wood strands, the resin composition and the wax, wherein said irradiating comprises exposing said resin composition feed stream to unfiltered NIR radiation at a succession of different wavelength values spanning a selected spectral range of wavelengths;
(C) predicting software for predicting, using the calibration and the resin composition feed stream data, a solid concentration of the resin composition feed stream;
(D) comparing software for comparing the predicted resin composition solids concentration with a pre-selected target value and generating output signals indicative of the comparison results;
(E) a controller, adapted for communication with and acquisition of the output signals of the comparing software, operable to adjust at one least process variable selected from a resin composition application rate to wood strands in a blender, a wax application rate to wood strands in the blender, wood strand feed rate for resin-loading in the blender, or water blending rate with resin to be added to wood strands in the blender, effective to compensate for any difference determined between the predicted and target resin composition solids concentration values when compared in step (iv);
(F) blender for blending the resin composition, wax, and wood strands, providing a resin-wood composite composition;
(G) stack assembler equipment for forming a stack comprising multiple layers of resin-wood composite composition wherein at least two of the stacked layers have strands generally oriented in differing angles relative to a machine direction of the process;
(H) hot-press for hot pressing the stack effective to form a unitary composite member.
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Specification
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Current AssigneeHuber Engineered Woods LLC
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Original AssigneeHuber Engineered Woods LLC
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InventorsLanders, Albert, Chambers, Kenneth, Khanna, Vinay, Husted, Steve
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Application NumberUS11/384,417Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current264/109CPC Class CodesB27N 1/00 Pretreatment of moulding ma...B27N 1/029 Feeding; Proportioning; Con...B27N 3/08 Moulding or pressing presse...
