System for multiphase (oil-gas-water) flow meter calibration

The invention claimed is: 1. A multiphase flow meter calibration system, comprising: an oil-gas-water separation unit; a multiphase fluid inlet, wherein a multiphase fluid mixture flows into the oil-gas-water separation unit through the multiphase fluid inlet; a single phase water outlet, wherein the single phase water outlet is in fluid communication with a water section of the oil-gas-water separation unit through a variable flow water pump and a water flow meter; a single phase oil outlet, wherein the single phase oil outlet is in fluid communication with an oil section of the oil-gas-water separation unit with a variable flow oil pump and an oil flow meter; a phase combination piping joint, wherein the single phase water outlet and the single phase oil outlet are in fluid communication with the phase combination piping joint; a gas flow outlet, wherein the gas flow outlet is in fluid communication with a pressurized gas tank through a gas pressure regulator and a gas flow meter; the gas flow outlet being in fluid communication with the phase combination piping joint; a downstream homogenizer, wherein the downstream homogenizer comprises a homogenizer inlet and a homogenizer outlet; a piping outlet of the phase combination piping joint being in fluid communication with the homogenizer inlet; the homogenizer outlet being in fluid communication with an inlet of a multiphase flow calibration unit; and the multiphase flow calibration unit being in fluid communication with the oil-gas-water separation unit. 2. The multiphase flow meter calibration system as of claim 1 further comprising: a first water gate valve; a second water gate valve; a one way water valve; the water section being in fluid communication with the variable flow water pump through the first gate valve, wherein the water section the oil-gas-water separation unit is separated from the oil section with a fluid separation weir; and the variable flow water pump being in fluid communication with the one way water valve through the water flow meter and the second water gate valve. 3. The multiphase flow meter calibration system as of claim 1 further comprising: a first oil gate valve; a second oil gate valve; a one way oil valve; the oil section being in fluid communication with the variable flow oil pump through the first oil gate valve, and the variable flow oil pump being in fluid communication with the one way oil valve through the oil flow meter and the second oil gate valve. 4. The multiphase flow meter calibration system as of claim 1 , wherein a gas flow section comprises a gas gate valve, at least one temperature sensor, at least one pressure sensor, a gas flow control valve, and a one way gas valve; the pressurized gas tank, the gas gate valve, the gas pressure regulator, the gas flow meter, the gas flow control valve, and the one way gas valve being in fluid communication with each other; and the at least one temperature sensor and the at least one pressure sensor being operatively coupled with a gas line extending from the pressurized gas tank. 5. The multiphase flow meter calibration system as of claim 1 further comprising: a flow data acquisition unit; a programmable logic controller (PLC), wherein the PLC is communicably coupled with the flow data acquisition unit; wherein the water flow meter, the oil flow meter, and the gas flow meter are communicably coupled with the flow data acquisition unit; and wherein the PLC is operatively coupled with the variable flow water pump, the variable flow oil pump, and the gas pressure regulator. 6. The multiphase flow meter calibration system as of claim 5 , wherein the data acquisition system is a microprocessor based flow data acquisition unit. 7. The multiphase flow meter calibration system as of claim 1 further comprising: a flow controller; the water flow meter and the oil flow meter being communicably coupled with the flow controller; the gas flow meter being communicably coupled with the flow controller; the flow controller being operatively coupled with a variable flow water pump, and a variable flow oil pump; and the flow controller being operatively coupled with the gas flow control valve. 8. The multiphase flow meter calibration system as of claim 1 , wherein a single phase flow calibration section comprises a single phase calibration tank, a fluid level sensor, a drain gate valve, a single phase solenoid valve, a return single phase solenoid valve, a return fluid pump, a fluid level sighting glass, an air vent, and a removable lid; the fluid level sensor being positioned within the single phase calibration tank; the removable lid being removably attached to the single phase calibration tank; the fluid level sighting glass extending outwards from the single phase calibration tank; the air vent traversing through the removable lid; the multiphase flow calibration unit being in fluid communication with the single phase calibration tank through the single phase solenoid valve; the drain gate valve being in fluid communication with the single phase calibration tank; the single phase calibration tank being in fluid communication with the return fluid pump through the return single phase solenoid valve; and the return fluid pump being in fluid communication with a water section of the oil-gas-water separation unit. 9. The multiphase flow meter calibration system as of claim 1 further comprising: a multiphase solenoid valve; and the multiphase flow calibration unit being in fluid communication with the oil-gas-water separation unit through the multiphase solenoid valve. 10. A method of multiphase flow meter calibration using the multiphase flow meter calibration system as of claim 1 comprising: receiving, at a flow data acquisition unit, a plurality of feedback signals from the oil-gas-water separation unit, the multiphase flow calibration unit, a single phase flow calibration section, and a gas flow section; and controlling, with a programmable logic controller (PLC), the oil-gas-water separation unit, the multiphase flow calibration unit, and the single phase flow calibration section according to the plurality of feedback signals, wherein the PLC is communicably coupled with the flow data acquisition unit; wherein the oil-gas-water separation unit, the multiphase flow calibration unit, and the single phase flow calibration section are in fluid communication with each other through a piping system; wherein the gas flow section is operatively coupled with the piping system in between the oil-gas-water separation unit and the multiphase flow calibration unit; wherein the oil-gas-water separation unit, the multiphase flow calibration unit, the single phase flow calibration section, and the gas flow section being communicably coupled with a flow data acquisition unit. 11. The method of multiphase flow meter calibration using the multiphase flow meter calibration system as of claim 10 further comprising: calibrating the water flow meter, wherein the first water gate valve and the second water gate valve that are in fluid communication with the water flow meter are in an open position, wherein a first oil gate valve and a second oil gate valve that are in fluid communication with an oil flow meter are in a closed position, wherein the oil flow meter is positioned in parallel with the water flow meter, wherein a drain gate valve in fluid communication with a single phase calibration tank is in a closed position, wherein a multiphase solenoid valve, a single phase solenoid valve, and a return single phase solenoid valve are in a closed position through the programmable logic controller (PLC), wherei