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6 3 2 NUTRIENT-REQUIREMENTS AND TOXICITY 11 <br /> 6 3 3 INOCULATION WELLS 12 <br /> 6 3 4 ' MONITORING ACTIVITIES 12 ' <br /> 6 3 5 DURATION 12 <br /> 6 3 6 FEASIBILITY 13 <br /> 637 ESTIMATED COSTS FOR IN-SITUBIOREMEDIATION 13 ' <br /> 7 0 REMEDIATION OF HYDROCARBON-IMPACTED GROUND WATER 13 <br /> 71 IN-SITU AIR SPARGING 13 s <br /> 711 PRINCIPLES 13 <br /> 7 12 BASIC SYSTEM DESIGN 14 , <br /> 7 13 MONITORING ACTIVITIES 14 <br /> 714 FEASIBILITY 15 <br /> ' 7 15 DURATION 15 <br /> 72 GROUND WATER EXTRACTION - 15 <br /> 7 2 1 BASIC PRINCIPLES 15 <br /> 7 2 2 TREATMENT METHODS 15 <br />' 7 2 3 FEASIBILITY TESTING 16 <br /> 7 2 4 DURATION 16 <br />' 7 2 5 COST 16 <br /> 73 IN-SITU BIOREMEDIATION/BIOENHANCEMENT 17 <br /> 7 3 1' BASIC PRINCIPLES 17 <br /> 7 3 2 NUTRIENT REQUIREMENTS AND TOXICITY 17 <br /> 7 3 3 'FEASIBILITY STUDIES 17 <br /> 7 3 4 DURATION 17 <br /> 7 3 5 COST 18 <br /> 8 0 RECOMMENDATIONS FOR REMEDIATION OF HYDROCARBON- <br /> IMPACTED SOIL 18 , _ <br /> I <br /> 9 0 RECOMMENDATIONS FOR REMEDIATION OF HYDROCARBON-IMPACTED <br /> GROUND WATER 19 <br /> 100 LIMITATIONS v 20 <br /> I, <br /> s <br /> LIST GF'FIGURES <br /> Figure 1 -Location Map " f <br /> 5 r F <br /> Figure 2 Site Plan <br /> Figure 3 - Ground Water Elevation , <br />' Figure 4 -Effective Radius of Influence <br /> Figure 5 - Proposed Soil Vapor Extraction Wells <br /> Figure 6 -Proposed Air Spargmg Wells <br /> , <br /> i <br /> - ENE= <br />