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Title: Humidity control system with apparatus for removing combustible dust particles
Claims: What is claimed is: 1. Apparatus for safely removing combustible dust particles from a contaminated return air stream leaving an enclosed, heat-imparting work area, and at the same time maintaining a desired relative humidity within said work area comprising: a. a return air treatment means for receiving and treating a contaminated return air stream including combustible particles therein; b. a fan means for withdrawing said contaminated return air from a work area and delivering it to said air treatment means; c. a means downstream of said return air treatment means for drawing in fresh outside air to said apparatus; d. a mixing chamber downstream of said air treatment means including a vent means in the air path of both the air leaving said return air treatment means and the entering outside air; e. said return air treatment means including a scrubber means for introducing a water mist into all of said return air to both saturate said return air as well as to safely coalesce with said combustible particles, causing them to fall from the saturated return air; f. means for sensing the humidity in said work area and means for controlling said vent means to selectively interrupt the flow of saturated air from said return air treatment means and said entering outside air and introducing controlled amounts of clean, saturated return air and fresh, outdoor air to said mixing chamber in response to said sensed humidity; and g. first conduit means connecting said work area with said return air treatment means and a second conduit means connecting said mixing chamber with said work area. 2. The apparatus according to claim 1 wherein said vent means further includes an exhaust vent in the air path of air leaving said return air treatment means, said control means further controlling said exhaust vent in response to said sensed humidity, said exhaust vent and said vent means cooperating with each other and operated responsive to said humidity sensing means to exhaust a prescribed amount of saturated air to the outside, to pass a prescribed amount of said saturated air to the mixing chamber, and to pass a prescribed amount of outside air to said mixing chamber. 3. The apparatus according to claim 2 wherein said vent means in the air path of said entering outside air further includes a heating means for preheating the incoming air prior to being mixed with said saturated air. 4. The apparatus according to claim 1 wherein said air treatment means further includes a cyclonic separator upstream of said scrubber means for removing heavy particles from said return air, and a moisture eliminator downstream of said scrubber means for removing excess moisture from said return air. 5. The apparatus according to claim 1 wherein said scrubber means introduces approximately 0.14 pounds of water per cubic foot of air to insure both the safe and effective removal of combustible particles as well as saturation of the return air. 6. Method for maintaining the humidity of air within an enclosed, heat-imparting work area while removing combustible dust particles from contaminated return air removed therefrom comprising the steps of: a. collecting said contaminated air from said work area and moving it through a conduit to a return air treating apparatus; b. spraying a fine water mist into all of the dust contaminated return air to simultaneously saturate the air with moisture and to coalesce the combustible dust particles with water droplets; c. separating said water droplets from the saturated air; d. mixing a prescribed, regulated portion of the resulting purified, water saturated air with a prescribed, regulated quantity of outside air; e. conveying the air mixture obtained in step (d) to said work area where said air mixture undergoes a predetermined temperature rise to reduce the relative humidity to a desired level; f. the relative amount of return air and outside air used in said mixing step being automatically determined responsive to the existing relative humidity of said work area to thereby achieve a desired relative humidity when the mixture is heated in said work area. 7. The method according to claim 6 wherein said incoming outside air is selectively heated prior to being mixed with said saturated air. 8. The method according to claim 6 wherein said mixture obtained from step (d) is selectively heated to achieve said predetermined temperature rise at times when machinery in said work area is otherwise inactive and thereby not achieving said predetermined temperature rise. 9. The method according to claim 6 wherein said fine water mist is introduced at a rate of approximately 0.14 pounds of water per cubic foot of air. Other info: Inventors: Stockford, William F. (Salisbury, NC, US) Gamewell, Joseph M. (Salisbury, NC, US) Application Number: 506935 Filing Date: 1974-09-18 Publication_date: 1976-06-15 Assignee: Gamewell Mechanical, Inc. (Salisbury, NC) Primary Class(es): 95/10 55/321, 55/337, 95/227, 96/407, 165/60, 261/128, 261/130, 261/133, 261/136, 261/155, 261/DIG34 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Lutter, Frank W. Assistant Examiner: Prunner, Kathleen J. Attorney: |
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