FLUORIDE REMOVAL FROM WET-PROCESS PHOSPHORIC ACID REACTOR GASES By JOHN MUNRO CRAIG ADISSERTATIONPRESENTEDTOTHEGRADUATECOUNCILOF THEUNIVERSITYOF FLORIDA IN PARTIAL FULFILLMENTOF THE REQUIREMENTS FORTHE DEGREE OF DOCTOR OF PHILOSOPHY UNIVERSITY OF FLORIDA 1970 UNIVERSITYOFFLORIDA 111111111 3 1262085524733 ACKNOWLEDGMENTS The author wishes to express his appreciation to the many people and firms who made this project possible. Gratitude is extended to the members of the writer's supervisory committee, Dr. R. S. Sholt.es, chairman, Dr. R. 0. McCaldin, Dr. J. E, Singley, and Dr. D. T. Williams. Special recognition is due to the many companies who provided the items necessary for this work. The following are singled out for mentioning Tampa Electric : Company, Tri-Coat, Agrico Chemical Corporation, Airetron Engineering Corporation, American Air Filter Company, Inc., Peabody Engineering Corporation, and the Occidental Chemical Company. Special recognition is due Mr. P. Flanagan, Occidental Chemical Company, for his effores in coordinating the author's requirements with the main- tenance and operating departments at the plant site. The author is indebted to Mr. H. McGraw for his efforts in erecting the research equipment and to Mrs. J. Hunt for typing this manuscript. The author wishes to express deep appreciation to the Department of Health, Education, and Welfare, National Air Pollution Control Administration for financing his graduate studies and to the Agrico Chemical Company for partial funding of this research project. The author wishes to thank the many University of Florida faculty and staff members, whose names are too numerous to list, for their kind and patient assis- tance . In conclusion, the author,would like to thank his wife, Jo, and his children, John, Linda, and Kimi for their patience and understanding during this period in their lives. TABLE OE CONTENTS Page ACKNOWLEDGMENTS Li VLI LIST OE TABLES LIST OF FIGURES viii KEY TO MAIN ABBREVIATIONS xi-1 ABSTRACT xil-1 CHAPTER I. INTRODUCTION II. PHOSPHATE INDUSTRY IN FLORIDA 6 Phosphate Fertilizer Manufacturing Processes Geology Mining £ Washing and Flotation Q* Beneficiation }2 AFceirdtilMiazneurfacMtaunruifnagcturing jl|° Elemental Phosphorous Manufactur- ing 18 Air Pollution Associated With the Phosphate Industry ^1 Fluoride Toxicity 24 Vegetation Damage *j> Cattle Damage ^ Human Health Damage ^ Governmental Controls J4 III. WET-PROCESS PHOSPHORIC ACID 37 History 37 Prior to 1900 37 -11990300 ttoo 11993608 ^f1> iv Page Fundamental Principles of the Dihycirate Process 43 Raw Materials 45 Process Chemistry 49 Process Technology 52 Fluoride Evolution 57 IV. ABSORPTION THEORIES AND EMPIRICAL RELATIONSHIPS 60 Absorption Theories 60 General Principles 61 Two-Film Theory 66 Penetration Theory 68 Surface Renewal Theory 68 Film Penetration Theory 69 Absorption with Chemical Reaction 69 Fluoride Absorption 72 General Design Concepts 72 Absorption in the Cyclonic Spray Chamber 79 Absorption in the Venturi 81 Absorption in the Baffle Plate Impingement Column 82 Correlation of Scrubber Efficien- cies 83 V. THE EXPERIMENT 86 , Experiment Design 87 Operating Variables 87 Preliminary Investigations, 89 Response 90 Replication of Experiments ...... 90 Equipment Description 90 Wet-Process Phosphoric Acid Plant 93 Liquid Handling System 95 Gas Handling System 100 Cyclonic Spray Chamber Scrubber 103 . Venturi - Cyclonic Scrubber 105 Impingement Baffle Plate Column 105 Variable Throat Venturi . 108 Instrumentation 109 Experimental and Analytical Procedures 110 Preparation for the Study 110 Page Typical Experimental Run Ill Fluoride Sampling and Analysis .. 114 VI. RESULTS OF THE EXPERIMENT 134 Cyclonic Spray Chamber 152 Venturi - Cyclonic Scrubber 156 Baffle Plate Impingement Column 153 Variable Throat Venturi . 160 VII. CONCLUSIONS AND RECOMMENDATIONS 163 APPENDIX I 170 APPENDIX II 1^7 LIST OF REFERENCES 191 BIOGRAPHICAL SKETCH 200 LIST OF TABLES Table Page FLUORIDE EVOLUTION ACCORDING TO SPECHT 1 AND CALACETO 23 2 FLUORIDE EMISSIONS ACCORDING TO HUFFSTUTLER .... 24 3 TYPICAL COMPOSITION OF COMMERCIAL GRADES OF FLORIDA PHOSPHATE ROCK 46 4 TYPICAL COMPOSITION OF OCCIDENTAL PHOSPHATE ROCK 46 5 FLUORIDE BALANCE IN SWIFT & CO. WET-PROCESS PHOSPHORIC ACID PLANT 56 6 LIQUID HANDLING SYSTEM ORIFICES 99 7 GAS HANDLING SYSTEM ORIFICES 102 8 OCCIDENTAL LABORATORY ANALYSIS 125 9 STATISTICAL ANALYSIS OF CALIBRATION CURVE DATA .126 10 SPRAY CHAMBER EXPERIMENTAL DATA SCRUBBING LIQUID - WELL WATER ..171 11 SPRAY CHAMBER EXPERIMENTAL DATA SCRUBBING LIQUID - GYPSUM POND WATER 173 12 VENTURI EXPERIMENTAL DATA SCRUBBING LIQUID - WELL WATER 175 13 VENTURI EXPERIMENTAL DATA SCRUBBING LIQUID - GYPSUM POND WATER 177 14 BAFFLE PLATE IMPINGEMENT COLUMN SCRUBBING LIQUID - WELL WATER 179 15 BAFFLE PLATE IMPINGEMENT COLUMN SCRUBBING LIQUID - GYPSUM POND WATER 181 16 VARIABLE THROAT VENTURI EXPERIMENTAL DATA SCRUBBING LIQUID - WELL WATER 183 17 VARIABLE THROAT VENTURI EXPERIMENTAL DATA SCRUBBING LIQUID - GYPSUM POND WATER 135 vii 2 LIST OF FIGURE'S Figure Page TYPICAL PHOSPHATE ROCK PROCESSING 1 FACILITY 10 2 WASHER AND FLOTATION PLANT FLOW DIAGRAM 11 3 TYPICAL PHOSPHATE ROCK BENEFICATION FLOW DIAGRAM 13 4 TYPICAL ACID-FERTILIZER MANUFACTURING COMPLEX FLOW DIAGRAM 15 5 TYPICAL CONTACT SULFURIC ACID PROCESS FLOW DIAGRAM 16 6 TYPICAL WET-PROCESS PHOSPHORIC ACID FLOW DIAGRAM 17 7 TYPICAL TRIPLE-SUPERPHOSPHATE FACILITY FLOW DIAGRAM 19 8 TYPICAL DIAMMQNIUM PHOSPHATE FACILITY FLOW DIAGRAM 20 9 TYPICAL ELEMENTAL PHOSPHORUS FACILITY FLOW DIAGRAM 22 10 RELATION OF CONCENTRATION AND DURATION OF EXPOSURE TO EFFECTS OF ATMOSPHERIC FLUORIDE ON TOMATO PLANTS 28 11 PRECIPITATION AND STABILITY OF CALCIUM SULFATES IN PHOSPHORIC ACID 51 1 EQUILIBRIUM DIAGRAM 62 13 DIFFUSION OF A THROUGH STAGNANT B 64 14 INTERFAC1AL CHARACTERISTICS IN PHYSICAL ABSORPTION 70 15 INTERFACIAL CHARACTERISTICS IN ABSORPTION WITH CHEMICAL REACTION 71 Vlll Figure Page 16 VAPOR PRESSURE OF HYDROFLUORIC ACID OVER DILUTE AQUEOUS SOLUTIONS 77 17 VAPOR PRESSURE OF SILICON TETRAFLUORIDE OVER AQUEOUS SOLUTIONS OF FLUOSILICIC ACID 77 18 EQUIPMENT TRAILER FROM ROOF OF ACID PLANT REACTOR TANK 91 19 SIDE VIEW OF EQUIPMENT TRAILER 92 20 FLOW DIAGRAM OCCIDENTAL WET-PROCESS PHOSPHORIC ACID PLANT 94 21 OCCIDENTAL WET-PROCESS PHOSPHORIC ACID PLANT EFFLUENT CONTROL SYSTEM 96 22 SCHEMATIC DIAGRAM OF LIQUID SYSTEM 97 23 LIQUID STORAGE TANK TRAILER 98 24 SCHEMATIC DIAGRAM OF GAS HANDLING SYSTEM 101 25 DIAGRAMMATICVIEW OF CYCLONIC SPRAY CHAMBER ... 104 26 DLAGRAMKATICVIEW OF VENTURI 106 27 DIAGRAMKATICVIEW OF IMPINGEMENT BAFFLE PLATE COLUMN 107 28 FRACTION OF FREE FLUORIDE AS A FUNCTION OF SOLUTION pH, WHERE HYDROGEN ION IS THE ONLY COMPLEXING SPECIES 118 29 EFFECT OF pH ON ELECTRODE RESPONSE (SODIUM FLUORIDE STANDARD) 118 30 CALIBRATION CURVE USING 2 PERCENT SODIUM ACETATE SOLUTION 121 31 FLUORIDE SAMPLING TRAIN 127 32 EFFECT OF LIQUID/GAS RATIO ON FLUORIDE REMOVAL EFFICIENCY IN SPRAY CHAMBER 135 33 EFFECT OF TOTAL CONTACTING POWER ON NUMBER OF TRANSFER UNITS IN SPRAY CHAMBER 136 34 EFFECT OF LIQUID/GAS RATIO ON NUMBER OF TRANSFER UNITS FOR SPRAY CHAMBER USING WELL WATER 137 IX