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DOWNHOLE GAS LIFT AND THE FACILITY. John Martinez Production Associates ASME/API GAS LIFT WORKSHOP. DOWNHOLE GAS LIFT AND THE FACILITY. SYSTEM COMPONENTS SYSTEM BACKPRESSURE – NUMBER OF WELLS – OPERATING FACTOR POWER INPUT AND SYSTEM BACKPRESSURE COMPRESSION OPTIONS DEHYDRATION OPTIONS
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DOWNHOLE GAS LIFT AND THE FACILITY John Martinez Production Associates ASME/API GAS LIFT WORKSHOP
DOWNHOLE GAS LIFT AND THE FACILITY • SYSTEM COMPONENTS • SYSTEM BACKPRESSURE – NUMBER OF WELLS – OPERATING FACTOR • POWER INPUT AND SYSTEM BACKPRESSURE • COMPRESSION OPTIONS • DEHYDRATION OPTIONS • MEASUREMENT, CONTROL, REMOTE TRANSMISSION • FLOW RATE STABILITY & GAS INJECTION RATE
WHY IS GAS LIFT IMPORTANT? COURTESY EXXONMOBIL – MIKE JOHNSON
WHY IS GAS LIFT IMPORTANT? COURTESY SHELL – JIM HALL
FACILITY EQUIPMENT DRIVES GAS LIFT AND IS THE LARGEST CAPITAL EXPENDITURE • Onshore operator wanted more rig work and less wireline work • Standby compressor added due to the remote location
FACILITY EQUIPMENT DRIVES GAS LIFT AND IS THE LARGEST CAPITAL EXPENDITURE • Offshore operator depends totally on wireline work • Excellent dehydration was required because gas had CO2
SYSTEM BACKPRESSURE NUMBER OF WELLS OPERATING FACTOR • RATE PER WELL VARIES WITH SEPARATOR PRESSURE (SYSTEM BACKPRESSURE) • EXPLORATION TEST RATES AND PVT DATA • SIMULATE RESERVOIR BEHAVIOR • SIMULATE WELL DELIVERY • APPLY AN OPERATING FACTOR • SIMULATE WELLS NEEDED BASED ON BOTH RESERVIOR AND DELIVERY PERFORMANCE
COMPRESSOR SUCTION AND DISCHARGE PRESSURE EFFECTS Discharge Pressure vs. Gas Lift Gas Requirement
COMPRESSOR SUCTION AND DISCHARGE PRESSURE EFFECTS Suction Pressure vs. Gas Lift Gas Requirement
COMPRESSOR SUCTION AND DISCHARGE PRESSURE EFFECTSOptimize Compression Horsepower (BHP)
COMPRESSION OPTIONSOPERATING EFFECTS • WATER VAPOR IN THE GAS • REQUIRES MORE POWER FOR COMPRESSION COMPARED TO SIMULATING DRY GAS • HEAT DUTY FOR COOLERS GOES UP – EXCHANGER SIZE BASED ON DRY GAS IS TOO SMALL • TEMPERATURE OF GAS AND AMBIENT • AVERAGE USED IN DESIGN, ACTUAL OPERATING CAN BE SIGNIFICANTLY HIGHER • DRIVER DERATES, CANNOT SUPPY SUFFICIENT POWER • COMPRESSOR CYLINDER (RECIP) OR IMPELLER WHEELS (CENTRIFUGAL) CANNOT MOVE THE DESIGN RATE
COMPRESSION OPTIONS - RECIPROCATING • Reciprocating compression applied to smaller rates • Good discharge pressure flexibility, limit on cylinder capacity • Matched with gas engine or electric motor Dresser Industries
COMPRESSION OPTIONS - CENTRIFUGAL • Centrifugal compression applied to large rates offshore or internationally • Large gas throughput in a small package • Sensitive to gas composition changes • Mated with gas turbine or electric motor Solar Gas Turbine Dresser-Clark
DEHYDRATION OPTIONS Triethylene glycol (TEG) is the common absorption dehydration method Mole sieves adsorb water vapor onto the surface in the bead
DEHYDRATION OPTIONSWATER CONTENT BASED ON PRESSURE AND TEMPERATURE IS PREDICTABLEGPSA
MEASUREMENT, CONTROL, REMOTE TRANSMISSION • MEASURE INJECTION GAS LIFT GAS • SINGLE PHASE FLOW • STEADY PRESSURE (SHOULD BE) • MOST RELIABLE (COMPARED TO PRODUCTION SEPARATOR) • USE LOW POWER ACTUATED CHOKES USING SOLAR PANELS • RADIO TRANSMISSION OF GAS MEASUREMENT DATA, WELLHEAD AND CASING PRESSURE AND TEMPERATURE
MEASUREMENT, CONTROL, REMOTE TRANSMISSION • INSTALL DOWNHOLE PRESSURE SENSORS IN NEW WELLS • MONITOR FLOWING BOTTOMHOLE PRESSURE • ADJUST GAS LIFT GAS RATE TO KEEP MAINTAIN THE FLOWING BHP (NOT CONTINUOUSLY) • MONITOR SUDDEN INCREASES WHICH INDICATE VALVE PROBLEM OR SHIFT IN POINT OF LEFT • TRANSMIT DATA TO OPERATIONS CENTER, PLATFORM OR EVEN HOUSTON, FOR ANALYSIS AND ADJUSTMENT
FLOW STABILITY AND GAS INJECTION RATE • VALIDATED SIMULATION AND PRODUCION TESTS CAN DETECT UNDER PERFORMING WELLS DUE TO LIFT POINT SHIFT • COMPRESSOR OUTAGE AND FREEZING • SIMULATE VELOCITY AND FLOW PATTERN
FLOW STABILITY AND INJECTION RATEGAS RATE PERMITTING SLUG FLOW, VELOCITY LESS THAN 5 FT/SEC
FLOW STABILITY AND INJECTION RATEGAS RATE PROMOTES STABLE ANNULAR FLOW, VELOCITY GREATER THAN 5 FT/SEC
FLOW STABILITY AND INJECTION RATEGAS RATE PERMITS SLUG/CHURN FLOW, VELOCITY ABOUT 5 FT/SEC
GAS LIFT OPTIMIZATION DEPENDENT ON WELL PERFORMANCE AND FACILITY AVAILABILITY • COMPRESSION AVAILABLE >99% • EFFECTIVE DEHYDRATION • FREEZING IS A COMMON FIELD PROBLEM • 7 LB/MM (3 LB/MM IN COLD CLIMATES) • GAS SYSTEM DESIGN • LOW SUCTION PRESSURE • HIGH DISCHARGE PRESSURE • POWER REQUIRED PER BARREL IS LESS AT LOW SUCTION PRESSURE
GAS LIFT OPTIMIZATION DEPENDENT ON WELL PERFORMANCE AND FACILITY AVAILABILITY • FIELD SIMULATION FOR DEVELOPMENT • RESERVOIR PRESSURE DECLINE AND WATER INCREASE • RATE VS INJECTION GAS DELIVERABILITY AT EACH RESERVOIR CONDITION • WELL COUNT FOR DIFFERENT OPERATING CONDITIONS • GAS MEASUREMENT • MAKE THE INJECTION GAS METER RELIABLE • MATE WITH LOW POWER CHOKE ACTUATOR AND REMOTE TRANSMISSION CAPABILITY • FLOW STABILITY • SIMULATE FLOW PATTERNS AND MATCH TO MEASURED AND OBSERVED BEHAVIOR • ANNULAR FLOW • VELOCITY > 5 FT/SEC