Processes and device for automatically controlling the level of packing fluid for drum type volumetric gas flow meters

What is claimed: 1. A pump control system for a wet test meter (WTM), comprising: a WTM comprising packing fluid, a control module comprising a DC power supply, the control module being configured to detect a packing fluid level of the packing fluid in the WTM, a pump configured to be controlled by the control module, wherein the pump is activated when the packing fluid in the WTM falls below a predetermined level, a level sensor/detector disposed outside of the WTM, wired to the control module, and configured to monitor the packing fluid level within the WTM, wherein when the packing fluid falls below the predetermined level as detected by the control module, the WTM is automatically filled by pumping packing fluid from a storage tank by the pump until the packing fluid level reaches above the predetermined level. 2. The pump control system of claim 1 , wherein the control module comprises: a Field Programmable Gate Array (FPGA) comprising program logic for turning the pump on/off, wherein the FPGA receives signals from the level sensor/detector and issues an operational signal to the DC Pump. 3. The pump control system of claim 1 , further comprising: a liquid level cell disposed outside of the WTM and operatively connected to the WTM and level sensor/detector, configured to indicate the packing fluid level within the WTM. 4. The pump control system of claim 3 , wherein: the liquid level cell is configured with three level position indicators comprising a low (L) level, a high (H) level, and a high-high (HH) level, and when the packing fluid level of the packing fluid reaches any one of the three packing fluid level positions, the level sensor/detector sends an operational signal to the control module. 5. The pump control system of claim 1 , wherein the level sensor/detector is one of a float, conductive, ultrasonic capacitance, optical interface, or differential pressure transmitter type. 6. The pump control system of claim 1 , further comprising: a storage tank operatively connected to the pump, comprising excess packing fluid to be pumped by the pump into the WTM. 7. The pump control system of claim 1 , wherein: the pump, the WTM, and the storage tank are connected by a tubing, and the tubing is one of a stainless steel, copper, or plastic material. 8. The pump control system of claim 1 , wherein the control module and level sensor/detector are connected wirelessly. 9. A valve control system for a wet test meter (WTM), comprising: a WTM comprising packing fluid, a control module comprising a DC power supply, the control module being configured to detect a packing fluid level of the packing fluid in the WTM, a valve configured to be controlled by the control module, wherein the valve is activated when the packing fluid in the WTM falls below a predetermined level, a level sensor/detector disposed outside of the WTM, wired to the control module, and configured to monitor the level of the packing fluid level in the WTM, wherein when the packing fluid falls below the predetermined level as detected by the control module, the WTM is automatically filled by gravity feeding packing fluid from a storage tank through the open valve until the packing fluid level reaches a desired level. 10. The valve control system of claim 9 , wherein the valve is one of a solenoid valve or a pneumatic valve. 11. The valve control system of claim 9 , the control module further comprising: a Field Programmable Gate Array (FPGA), comprising program logic for opening/closing the valve, wherein the FPGA receives signals from the level sensor/detector and issues an operational signal to the valve. 12. The valve control system of claim 9 , further comprising: a liquid level cell disposed outside of the WTM and operatively connected to the WTM and level sensor/detector, configured to indicate the packing fluid level within the WTM. 13. The valve control system of claim 12 , wherein the liquid level cell comprises: the liquid level cell is configured with three level position indicators comprising a low (L) level, a high (H) level, and a high-high (HH) level, wherein when the packing fluid reaches any one of the three packing fluid level positions, the level sensor/detector sends an operational signal to the control module. 14. The valve control system of claim 9 , wherein: the level sensor/detector is one of a float, conductive, ultrasonic capacitance, optical interface, or differential pressure transmitter type. 15. The valve control system of claim 9 , further comprising: a storage tank operatively connected to the pump, comprising excess packing fluid to be pumped by the DC pump into the WTM. 16. The valve control system of claim 9 , wherein: the pump, the WTM, and the storage tank are connected by a tubing, the tubbing is one of a stainless steel, copper, or plastic. 17. The valve control system of claim 9 , wherein: the control module and level sensor/detector are connected wirelessly. 18. A method to automatically control a packing fluid level in a WTM, comprising: monitoring the packing fluid level of the WTM by a liquid level cell and a level sensor/detector, activating or deactivating a packing fluid transfer device by a command issued from a control module when a signal is sent from the level sensor/detector to the control module that the packing fluid level has reached one of a three pre-determined liquid levels, and transferring packing fluid from a storage tank to the WTM by pump or gravity fed through an open valve when the packing fluid level is determined to be below the three pre-determined liquid levels. 19. The method of claim 18 , wherein the liquid level cell is configured with three level position indicators comprising a low (L) level, a high (H) level, and a high-high (HH) level. 20. The method of claim 19 , further comprising: when the packing fluid reaches one of the three level position indicators of the liquid level cell, sending an operational signal from the level sensor/detector to the control module.