Method of balancing paint booth air flows
First Claim
1. A method of rapidly balancing air flows in a complex paint spray booth having a series of cells supplied by a common air flow that is pushed by an adjustable speed supply fan and then divided into downdrafts for each of the said cells accompanied by cross-flows between said cells, the downdrafts and cross-flows converging into exhaust flows drawn by an adjustable speed exhaust fan, the system having control elements for changing the downdrafts and/or cross-flows, and further having means for passing the exhaust flow through a waste paint water scrubber having an adjustable venturi gap width, the method comprising:
- (a) setting an exhaust fan speed and venturi gap width by correlating perturbed exhaust air flow rate data with a desired exhaust air flow rate at a desired exhaust pressure drop to establish a target fan curve as a function of pressure drop and exhaust flow rate, the setting for the exhaust fan speed and venturi gap width being derived from such curve; and
(b) setting a supply fan speed and control position for each cross-flow damper by solving an objective optimization function for the sum of the cross-flows by using perturbed supply fan speed values and cross-flow rate values that establish distinct optimum cross-flows velocities at a specific air supply velocity from which the supply fan speed and cross flow speed damper positions can be derived.
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Accused Products
Abstract
A method of rapidly balancing air flows in a complex paint spray booth having a series of cells supplied by a common air flow that is pushed by an adjustable speed supply fan and then divided into downdrafts for each of the said cells accompanied by cross-flows between said cells. The downdrafts and cross-flows converging into exhaust flows drawn by an adjustable speed exhaust fan, the system having control elements for changing the downdrafts and/or cross-flows, and further having means for passing the exhaust flow through a waste paint water scrubber having an adjustable venturi gap width. The method comprising (a) setting an exhaust an speed and venturi gap width by correlating perturbed exhaust air flow rate data with a desired exhaust air flow rate at a desired exhaust pressure drop to establish a target fan curve as a function of pressure drop and exhaust flow rate, the setting for the exhaust fan sped and venturi gap width being derived from such curve; and (b) setting a supply fan speed and control position for each cross-flow damper by solving an objective optimization function for the sum of the cross-flows by using perturbed supply fan speed values and cross-flow rate values that establish distinct optimum cross-flow velocities at a specific air supply velocity from which the supply fan speed and cross-flow speed damper positions can be derived.
50 Citations
9 Claims
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1. A method of rapidly balancing air flows in a complex paint spray booth having a series of cells supplied by a common air flow that is pushed by an adjustable speed supply fan and then divided into downdrafts for each of the said cells accompanied by cross-flows between said cells, the downdrafts and cross-flows converging into exhaust flows drawn by an adjustable speed exhaust fan, the system having control elements for changing the downdrafts and/or cross-flows, and further having means for passing the exhaust flow through a waste paint water scrubber having an adjustable venturi gap width, the method comprising:
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(a) setting an exhaust fan speed and venturi gap width by correlating perturbed exhaust air flow rate data with a desired exhaust air flow rate at a desired exhaust pressure drop to establish a target fan curve as a function of pressure drop and exhaust flow rate, the setting for the exhaust fan speed and venturi gap width being derived from such curve; and
(b) setting a supply fan speed and control position for each cross-flow damper by solving an objective optimization function for the sum of the cross-flows by using perturbed supply fan speed values and cross-flow rate values that establish distinct optimum cross-flows velocities at a specific air supply velocity from which the supply fan speed and cross flow speed damper positions can be derived. - View Dependent Claims (2, 3, 8)
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3. The method as in claim 1 in which the exhaust fan speed and venturi gap width are derived from the equations:
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8. The method as in claim 1, in which the perturbation of the system is obtained by shutting down the water to said waste paint scrubber while keeping the exhaust fan running at its current speed for obtaining said measurements.
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4. A method for more rapidly balancing air flows in a paint spray booth system having a series of cells supplied by an air flow that is pushed by an adjustable speed supply fan and then divided into downdrafts for each of the cells including cross-flows between the cells, the downdrafts and cross-flows converging into an exhaust flow drawn by an adjustable speed exhaust fan, the system having control elements for changing the downdrafts and/or cross-flows, and having means for passing the exhaust flow through a waste paint water scrubber having an adjustable venturi gap width, the method comprising:
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(a) changing the exhaust flow rate by (i) collecting exhaust flow data by choosing and calculating a target exhaust air flow rate, and then measuring the actual initial operating exhaust flow rate, as well as measuring the initial operating pressure drop of the exhaust flow rate across the venturi gap width;
(ii) finding an adjusted speed for said exhaust fan and an adjusted width for said venturi gap that meets the target exhaust volume air flow rate, by correlating measured perturbed exhaust flow and perturbed venturi pressure drop data to the target and initial operating data for the exhaust flow and venturi, and (iii) setting the exhaust fan speed according to such findings; and
(b) changing the downdrafts and cross-flows by (i) choosing and calculating data for target downdrafts and cross-flow rates, and booth pressurization values;
(ii) measuring actual downdrafts and cross-flow air flow rates and booth pressurization values by perturbing one or more control elements to generate downdraft and cross-flow rate data as well as booth pressurization values;
(iii) calculating an optimized combination of control elements effecting downdrafts and cross-flows at a target booth pressurization, the calculation using an objective function simultaneously to satisfy all of the target downdrafts and cross-flow rates; and
(iv) adjusting the control elements according to the optimized calculations to obtain a balanced system.- View Dependent Claims (5, 6, 7, 9)
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7. The method as in claim 6, in which said results of the use of the objective function is further refined by the use of a Jacobean Sensitivity Matrix of the cross-flow velocity.
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9. The method as in claim 4, in which said control elements are speed adjustable fans, and adjustable flow dampers in each duct or opening between cells.
Specification