Systems and methods for gas disposal

What is claimed is: 1. A discharge system, comprising: a mixing vessel; a feedstock tank having a pressure sensor configured to obtain a pressure measurement of a source feedstock in the feedstock tank; a feedstock input line defining a feedstock flow path in fluid communication with the mixing vessel; a solvent input line in fluid communication with the mixing vessel, wherein the solvent input line includes a solvent temperature sensor operatively connected thereto and a solvent pressure sensor operatively connected thereto; a discharge output in fluid communication with an outlet of the mixing vessel; and a feedstock valve on the feedstock input line to control the flow of a feedstock being fed into the mixing vessel to dissolve within a solvent thereby generating an effluent discharge solution having a known gas solubility saturation. 2. The discharge system of claim 1 , comprising: a controller configured to be operatively connected to the feedstock valve, wherein the controller includes a processor operatively connected to a memory, wherein the memory includes instructions recorded thereon that, when read by the processor, cause the processor to: obtain temperature and pressure measurements of a solvent, and obtain a pressure measurement of a source feedstock in the feedstock tank; correlate the temperature and pressure measurements of the solvent and the pressure measurement of the source feedstock to baseline data to generate a theoretical uptake rate for the source feedstock into the solvent and a theoretical flow rate of the source feedstock into the mixing vessel; determine a required opening setting for a feedstock valve in the feedstock input line as a function of a flow rate of the feedstock in order to achieve a desired liquid displacement in the mixing vessel due to the feedstock being fed into the mixing vessel; determine an uptake duration, based on the theoretical uptake rate, for the source feedstock to uptake into the solvent forming an effluent discharge solution and achieve an uptake displacement equivalent to the reverse of the desired liquid displacement; and generate a valve operating control law for how the feedstock valve should function in a cycle based on the required opening setting of the feedstock valve and the uptake duration for the desired liquid displacement. 3. The discharge system of claim 1 , a differential pressure (dP) sensor operatively connected between the feedstock input line and the discharge output to measure the differential pressure between the feedstock input line and the discharge output and operatively connected to a controller to provide the change in pressure data thereto. 4. The discharge system of claim 1 , wherein the mixing vessel includes a nozzle proximate to a first side of the mixing vessel, wherein the solvent input line is operatively connected to the nozzle to direct the solvent toward a gas pocket generated by the gas entering with the feedstock through the feedstock input line. 5. A discharge system, comprising: a mixing vessel including a nozzle proximate to a first side of the mixing vessel; a feedstock input line defining a feedstock flow path in fluid communication with the mixing vessel; a solvent input line in fluid communication with the mixing vessel; a discharge output in fluid communication with an outlet of the mixing vessel; and a feedstock valve on the feedstock input line to control the flow of a feedstock being fed into the mixing vessel to dissolve within a solvent thereby generating an effluent discharge solution having a known gas solubility saturation, wherein the solvent input line is operatively connected to the nozzle to direct the solvent toward a gas pocket generated by the gas entering with the feedstock through the feedstock input line, wherein the solvent input line is split into two lines, wherein a first of the two lines defines a flow path to the mixing vessel through the nozzle, and wherein a second of the two lines defines a flow path to the mixing vessel through an inlet on a second side of the mixing vessel.