Aging testing apparatus and use thereof

What is claimed is: 1 . An aging test method comprising: providing a test cell apparatus comprising: a test cell body having an open end for receiving a treatment fluid into an interior of the test cell body, the interior having a floating piston for separating the treatment fluid from a pressurization fluid; a sampling port extending from the open end and having a sample valve for receiving samples of the treatment fluid from the sampling port, the sample valve has an open position and a closed position; a pressure input for pressurizing the interior; and a sealing assembly adapted to be inserted into the test cell body in contact with the interior to fluidly seal the open end and through which the sampling port extends, the sealing assembly comprising a retainable test cell cap; introducing an oilfield treatment fluid into the test cell body; closing the sample valve to the closed position; sealing the open end with the sealing assembly; exposing the oilfield treatment fluid in the test cell body to a condition selected from the group consisting of elevated pressure, elevated temperature, and any combination thereof; opening the sample valve to the open position; receiving at least one sample of the treatment fluid from the sampling port; and closing the sample valve to the closed position. 2 . The aging test method of claim 1 , further comprising receiving at least two samples of the treatment fluid from the sampling port over time. 3 . The aging test method of claim 1 , further comprising determining fluid flow behavior of the treatment fluid. 4 . The aging test method of claim 1 , further comprising determining a measurement selected from the group consisting of a density measurement, a viscosity measurement, and any combination thereof of the at least one sample of the treatment fluid from the sampling port. 5 . The aging test method of claim 1 , further comprising altering the condition or maintaining the condition constant. 6 . The aging test method of claim 1 , wherein the pressure input is fluidly coupled to a pressure control device. 7 . The aging test method of claim 1 , wherein the pressure input is fluidly coupled to a pressure control device and the test cell apparatus is operable at a pressure in the range of 0.1 megapascal (MPa) to about 300 MPa. 8 . The aging test method of claim 1 , wherein the test cell apparatus is operable at a temperature in the range of 20° C. to about 250° C. 9 . The aging test method of claim 1 , wherein the sealing assembly is removably connected to the test cell apparatus. 10 . The aging test method of claim 1 , wherein the open end is tapered and comprises conical settling channels. 11 . The aging test method of claim 1 , wherein the open end is tapered and comprises conical settling channels, and further comprising collecting solids in the treatment fluid with the conical settling channels. 12 . The aging test method of claim 1 , wherein the test cell apparatus further comprises a flow restriction device at a location selected from the group consisting of the interior, the open end, the sampling port, the sample valve, and any combination thereof. 13 . An aging test system comprising: a retaining ring; and a test cell apparatus comprising: a test cell body having an open end for receiving a treatment fluid into an interior of the test cell body, the interior having a floating piston for separating the treatment fluid from a pressurization fluid; a sampling port extending from the open end and having a sample valve for receiving samples of the treatment fluid from the sampling port, the sample valve has an open position and a closed position; a pressure input for pressurizing the interior; and a sealing assembly adapted to be inserted into the test cell body in contact with the interior to fluidly seal the open end and through which the sampling port extends, the sealing assembly comprising a retainable test cell cap. 14 . The aging test system of claim 13 , wherein the pressure input is fluidly coupled to a pressure control device. 15 . The aging test system of claim 13 , wherein the pressure input is fluidly coupled to a pressure control device and the test cell apparatus is operable at a pressure in the range of 0.1 megapascal (MPa) to about 300 MPa. 16 . The aging test system of claim 13 , wherein the test cell apparatus is operable at a temperature in the range of 20° C. to about 250° C. 17 . The aging test system of claim 13 , wherein the sealing assembly is removably connected to the test cell apparatus. 18 . The aging test system of claim 13 , wherein the open end is tapered and comprises conical settling channels. 19 . The aging test system of claim 13 , wherein the test cell apparatus further comprises a flow restriction device at a location selected from the group consisting of the interior, the open end, the sampling port, the sample valve, and any combination thereof. 20 . A test cell apparatus comprising: a test cell body having an open end for receiving a treatment fluid into an interior of the test cell body, the interior having a floating piston for separating the treatment fluid from a pressurization fluid; a sampling port extending from the open end and having a sample valve for receiving samples of the treatment fluid from the sampling port, the sample valve has an open position and a closed position; a pressure input for pressurizing the interior; and a sealing assembly adapted to be inserted into the test cell body in contact with the interior to fluidly seal the open end and through which the sampling port extends, the sealing assembly comprising a retainable test cell cap.