Valve structure for propane tank and method thereof

What is claimed is: 1. A propane tank configured to control gas flow through a passageway defined in a flow limiting device, the propane tank comprising: a tank sized and configured to hold propane gas therein; and a valve assembly coupled to the tank and configured to be coupled to the flow limiting device, the valve assembly including: a valve body coupled to the tank, the valve body including a valve passageway with a valve seat at one end of the valve passageway, the valve passageway defined with an internal passage surface, the internal passage surface extending to the valve seat with a radial surface extending adjacent the valve seat at the one end of the valve passageway such that the radial surface defines a widest portion of the valve passageway; a plug with a flat surface and a tapered portion, the flat surface positionable against the valve seat, the tapered portion of the plug extending from the flat surface so as to be extendable into the valve passageway adjacent the valve seat; and a handle operatively coupled to the plug such that the handle is moveable to move the plug between a closed plug position and an open plug position; wherein, upon the plug being in the closed plug position, the flat surface of the plug is directly engaged with the valve seat with the tapered portion of the plug extending into the valve passageway and adjacently over the radial surface of the valve passageway such that a gap is maintained between the tapered portion and the internal passage surface; and wherein, upon the plug being initially moved from the closed plug position to the open plug position, the tapered portion of the plug is sized and configured to initially minimize the gas flow from the valve passageway and through the flow limiting device such that movement of the tapered portion from the closed plug position initially expands the gap between the tapered portion and the internal passage surface of the valve passageway. 2. The propane tank of claim 1 , wherein the valve passageway extends longitudinally to define a valve passageway axis, the valve passageway axis extending through the plug and the handle. 3. The propane tank of claim 1 , wherein the tapered portion extends with a conical configuration. 4. The propane tank of claim 1 , wherein the tapered portion of the plug is sized and configured to maintain the gas flow below a predetermined flow rate upon the plug initially being moved to the open plug position. 5. The propane tank of claim 1 , wherein the tapered portion extends to define a curved surface. 6. The propane tank of claim 1 , wherein the handle comprises a handle stem with external threads thereon. 7. The propane tank of claim 6 , wherein the handle stem engages internal threads of an insert, the insert at least partially positioned within the valve body. 8. The propane tank of claim 1 , wherein the handle is configured to rotate to linearly move the plug, the handle rotating about a handle axis. 9. The propane tank of claim 8 , wherein the valve passageway extends longitudinally to define a valve passageway axis, the valve passageway axis extending through the plug and the handle, the valve passageway axis extending coaxial with the handle axis. 10. The propane tank of claim 1 , wherein the tapered portion of the plug extends with a first surface and a second surface with a tapered surface extending between the first and second surfaces. 11. The propane tank of claim 10 , wherein, upon the plug being in the closed plug position, the first surface directly engages an end surface of the valve seat. 12. A propane tank valve configured to couple to a tank and control gas through a passageway defined in a flow limiting device, the propane tank valve comprising: a valve assembly coupled to the tank and configured to be coupled to the flow limiting device, the valve assembly including a valve body coupled to the tank, the valve body including a valve passageway with a valve seat at one end of the valve passageway, the valve passageway defined with an internal passage surface, the internal passage surface extending to the valve seat with a radial surface adjacent the valve seat at the one end of the valve passageway such that the radial surface defines a widest portion of the valve passageway; a plug with a flat surface and a tapered portion, the flat surface positionable against the valve seat, the tapered portion of the plug extending from the flat surface so as to be extendable into the valve passageway adjacent the valve seat; and a handle operatively coupled to the plug such that the handle is moveable to move the plug between a closed plug position and an open plug position; wherein, upon the plug being in the closed plug position, the flat surface of the plug is directly engaged with the valve seat with the tapered portion of the plug extending into the valve passageway and adjacently over the radial surface of the valve passageway such that a gap is maintained between the tapered portion and the internal passage surface; and wherein, upon the plug being initially moved from the closed plug position to the open plug position, the tapered portion of the plug is sized and configured to initially minimize the gas flow from the valve passageway and through the flow limiting device such that movement of the tapered portion from the closed plug position initially expands the gap between the tapered portion and the internal passage surface of the valve passageway. 13. The propane tank of claim 12 , wherein the tapered portion extends with a conical configuration. 14. The propane tank of claim 12 , wherein the tapered portion of the plug is sized and configured to maintain the gas flow below a predetermined flow rate upon the plug initially being moved to the open plug position. 15. The propane tank of claim 12 , wherein the tapered portion extends to define a curved surface. 16. The propane tank of claim 12 , wherein the tapered portion of the plug extends with a first surface and a second surface with the tapered surface extending between the first and second surfaces. 17. The propane tank of claim 16 , wherein, upon the plug being in the closed plug position, the first surface directly engages an end surface of the valve seat. 18. A method for controlling gas flow through a flow limiting device, the method comprising: maintaining propane gas within a propane tank with a plug positioned in a closed plug position so as to block a valve passageway defined in a valve body coupled to the propane tank, the valve passageway defined by an internal passage surface with a radial surface of the internal passage surface extending from the valve seat, the plug having a flat surface and a tapered portion such that, upon the plug being in the closed plug position, the flat surface directly contacts a valve seat of the valve body and the tapered portion extend into the valve passageway and adjacently over the radial surface such that a gap is maintained between the tapered portion and the radial surface of the internal passage surface of the valve passageway, the radial surface of the internal passage surface defining a widest portion of the valve passageway; and turning a handle of the propane tank such that rotation of the handle linearly moves the plug from the closed plug position to an open plug position such that the tapered portion initially moves in the valve passageway to expand the gap between the tapered portion and the internal passage surface of the valve passageway to facilitate gas flow through the gap and through the flow limiting devic