Bi-directional oil-flow adapter for attaching to a valve-controlled port of a transformer

That claimed disclosure is: 1. A system comprising: a transformer comprising a valve-controlled port for use when accessing oil contained inside the transformer; a bi-directional oil-flow adapter that is attachable to the valve-controlled port, the bi-directional oil-flow adapter comprising: an oil outlet port configured to output an oil sample acquired from the transformer via the valve-controlled port and the bi-directional oil-flow adapter when the bi-directional oil-flow adapter is attached to the valve-controlled port; a first conduit contained inside the bi-directional oil-flow adapter, the first conduit having a first cross-sectional area that is selected to provide a first oil flow velocity to the oil sample when flowing from the valve-controlled port and through the bi-directional oil-flow adapter to the oil outlet port; an oil inlet port configured to accept an inflow of a volume of oil into the bi-directional oil-flow adapter; and a second conduit contained inside the bi-directional oil-flow adapter, the second conduit having a second cross-sectional area that is smaller than the first cross-sectional area, the second cross-sectional area selected to provide a second oil flow velocity to the volume of oil when flowing from the oil inlet port and through the bi-directional oil-flow adapter into the valve-controlled port, the second oil flow velocity higher than the first oil flow velocity; and a dissolved gas analyzer coupled to the oil outlet port of the bi-directional oil-flow adapter, the dissolved gas analyzer operable to analyze the oil sample for evaluating at least one gas content of the oil sample; a purge tank configured to store the volume of oil, wherein the purge tank is further configured to store an oil sample as a part of the volume of oil, after analyzing by the dissolved gas analyzer; and a pump that is operable to pump the volume of oil from the purge tank and into the oil inlet port of the bi-directional oil-flow adapter. 2. The system of claim 1 , further comprising: a pressure sensor attached to the bi-directional oil-flow adapter; and a malfunction detection system coupled to at least one of the pressure sensor or the dissolved gas analyzer, the malfunction detection system configured to obtain at least one of an oil pressure reading from the pressure sensor or a gas level indication from the dissolved gas analyzer and to use the at least one of the oil pressure reading or the gas level indication to determine a malfunctioning of the valve-controlled port. 3. The system of claim 1 , further comprising: a gas sensor assembly coupled to the oil outlet port of the bi-directional oil-flow adapter, the gas sensor assembly configured to detect a rate of release of at least one gas contained in the oil sample and to generate one or more sensor signals that are provided to the dissolved gas analyzer. 4. The system of claim 3 , wherein the at least one gas is a low-k gas selected from a family of gases, the family of gases comprising hydrogen and carbon monoxide. 5. A bi-directional oil-flow adapter that is attachable to a valve-controlled port of a transformer, the bi-directional oil-flow adapter comprising: an oil outlet port outputting an oil sample acquired from the transformer via the valve-controlled port and the bi-directional oil-flow adapter when the bi-directional oil-flow adapter is attached to the valve-controlled port; a first conduit contained inside the bi-directional oil-flow adapter, the first conduit having a first cylindrically-shaped cross-sectional area that is selected to provide a first oil flow velocity to the oil sample when flowing from the valve-controlled port and through the bi-directional oil-flow adapter to the oil outlet port; an oil inlet port accepting an inflow of a volume of oil, the volume of oil including the sample of oil and an additional amount of oil, into the bi-directional oil-flow adapter; and a second conduit contained inside the bi-directional oil-flow adapter, the second conduit concentrically inside the first conduit, the second conduit being fixed in length and not projecting through the bi-directional flow adapter at the valve-controlled port attachment, the second conduit having a second cylindrically-shaped cross-sectional area that is smaller than the first cylindrically-shaped cross-sectional area, the second cylindrically-shaped cross-sectional area selected to provide a second oil flow velocity to the volume of oil when flowing from the oil inlet port and through the bi-directional oil-flow adapter into the valve-controlled port, the second oil flow velocity higher than the first oil flow velocity, wherein the second oil flow velocity of the volume of oil purges the valve-controlled port of old or stagnant oil. 6. The bi-directional oil-flow adapter of claim 5 , wherein each of a longitudinal axis of the first conduit and a longitudinal axis of the second conduit coincides with a longitudinal axis of the bi-directional oil-flow adapter. 7. The bi-directional oil-flow adapter of claim 5 , wherein the first conduit is arranged concentric to the second conduit. 8. The bi-directional oil-flow adapter of claim 5 , further comprising a pressure sensor operable to obtain an oil pressure reading of oil contained in the bi-directional oil-flow adapter. 9. A method comprising: providing a bi-directional oil-flow adapter connected to a valve-controlled port of a transformer; providing a dissolved gas analyzer that is coupled to an oil outlet port of the bi-directional oil-flow adapter; drawing oil from the valve-controlled port via a first conduit of the bi-directional oil-flow adapter, the first conduit having a first cross-sectional area that is selected to provide a first oil flow velocity; providing at least one oil sample to the dissolved gas analyzer, via the oil outlet port that is located at one end of the first conduit; analyzing, in the dissolved gas analyzer, the at least one oil sample for evaluating at least one gas content in the at least one oil sample; transferring the at least one oil sample from the dissolved gas analyzer to a purge tank containing a volume of oil; and pumping at least a portion of the volume of oil from the purge tank and into the valve-controlled port of the transformer via an oil inlet port located at one end of a second conduit of the bi-directional oil-flow adapter, the second conduit having a second cross-sectional area that is smaller than the first cross-sectional area of the first conduit, the second cross-sectional area providing a second oil flow velocity that is greater than the first oil flow velocity. 10. The method of claim 9 , wherein the at least one gas content in the at least one oil sample is indicative of a contaminant in oil contained inside the transformer. 11. The method of claim 10 , wherein the second oil flow velocity is directed at purging oil from an area inside at least one of the bi-directional oil-flow adapter, the valve-controlled port, or pipework associated with at least one of the bi-directional oil-flow adapter or the valve-controlled port. 12. The method of claim 10 , wherein the at least one oil sample comprises a plurality of oil samples obtained by the dissolved gas analyzer from the transformer over a period of time. 13. The method of claim 12 , further comprising: coupling a pressure sensor to a pressure sensing port of the bi-directional oil-flow adapter; using the pressure sensor to obtain an oil pressure reading of oil contained in the bi-directional oil-flow adapter; and determining from the oil pressure reading, a malfunctioning of the valve-controlled port. 14. T