Packing system and diagnostic method for a packing system of a valve assembly

The invention claimed is: 1. A packing system for use with a valve including a valve body having an inlet, an outlet, and a flow passage extending between the inlet and the outlet, the packing system comprising: a bonnet configured for connection to the valve body; a bore extending through the bonnet and opening into the valve body to receive a stem of the valve, so that the stem moves within the bore to move a control member in the flow passage to control flow through the flow passage; a first packing arrangement arranged in the bore about a first portion of the stem; a second packing arrangement arranged in the bore about a second portion of the stem so that the first packing arrangement is located between the second packing arrangement and the valve body, the first packing arrangement configured to, during normal operation, passively leak at a first leakage rate that is greater than a second leakage rate of the second packing arrangement, for a given pressure drop, when the control member is in an open position, and an inter-packing volume being defined in the bore between the first packing arrangement and the second packing arrangement; and a bore port extending through the bonnet and opening into the inter-packing volume of the bore, the bore port providing fluid communication between the inter-packing volume and the outlet of the valve body. 2. The packing system of claim 1 , wherein the bore port is in fluid communication with the outlet of the valve body via an outlet port that opens into a portion of the flow passage that is downstream of the control member, the bore port and the outlet port being in fluid communication via an external flow path that extends outside of the valve body and the bonnet. 3. The packing system of claim 1 , wherein the bore port is in fluid communication with the outlet of the valve body via a bonnet passage extending within a body of the bonnet. 4. The packing system of claim 3 , wherein the bonnet passage extends within the body of the bonnet, from the bore port to an interface between the bonnet and the valve body, and wherein a check valve is disposed within the bonnet to control flow along the bonnet passage. 5. The packing system of claim 3 , wherein a bonnet port extends through the bonnet to be in fluid communication with the flow passage via an interface between the bonnet and the valve body, and wherein the bore port and the bonnet port are in fluid communication via a flow path that is external to the bonnet. 6. The packing system of claim 1 , wherein first packing arrangement includes a labyrinth seal. 7. The packing system of claim 1 , further comprising: a pressure relief valve in communication with the bore port and the outlet of the valve body to define a set pressure for flow between the bore port and the outlet of the valve body. 8. The packing system of claim 7 , further comprising: a first pressure sensor arranged upstream of the pressure relief valve in fluid communication with the bore port; a second pressure sensor arranged downstream of the pressure relief valve in fluid communication with the outlet of the valve body; a temperature sensor arranged to measure temperature of flow from the bore port to the outlet of the valve; and a block valve configured to selectively provide a bypass flow that bypasses the pressure relief valve. 9. The packing system of claim 1 , wherein the first and second packing arrangements are arranged entirely within the bonnet. 10. A valve assembly comprising: a valve body including an inlet, an outlet, and a flow passage extending between the inlet and the outlet; a bonnet mounted to the valve body and having a bore that opens into the valve body; a stem extending through the bore and operatively connected to a control member arranged in the flow passage, the stem being configured to move the control member between a closed position and an open position to control flow through the flow passage; a first packing arrangement arranged in the bore about a first portion of the stem; a second packing arrangement arranged in the bore about a second portion of the stem, the second packing arrangement being downstream of the first packing arrangement along a leakage flow path through the bore; and a bore port extending through the bonnet to provide fluid communication between (i) an inter-packing location of the bore that is between the first packing arrangement and the second packing arrangement, and (ii) the outlet of the valve body; wherein the first packing arrangement is configured to, during normal operation, passively leak at a first leakage rate that is greater than a second leakage rate of the second packing arrangement, for a given pressure drop, when the control member is in the open position. 11. The valve assembly of claim 10 , wherein the bore port is in fluid communication with the outlet of the valve body via an outlet port that extends through an outlet portion of the valve body to receive flow from a location in the flow passage that is downstream of the control member. 12. The valve assembly of claim 11 , wherein the outlet port is in fluid communication with the flow passage via a pitot tube that is arranged within the flow passage so that flow from the control member to the outlet within the flow passage generates a reduced pressure at the pitot tube. 13. The valve assembly of claim 11 , wherein the outlet port is in fluid communication with the flow passage via a venturi tube that is arranged within the flow passage so that flow from the control member to the outlet within the flow passage generates a reduced pressure at the venturi tube. 14. The valve assembly of claim 10 , wherein the bore port is in fluid communication with the outlet of the valve body via a bonnet passage that extends through a portion of the bonnet adjacent to the control member. 15. The valve assembly of claim 14 , wherein the control member is surrounded by a cage within the valve body, and wherein the bonnet passage is in fluid communication with the outlet of the valve body via a cage passage that extends through a portion of the cage. 16. The valve assembly of claim 10 , wherein the first packing arrangement is a labyrinth seal. 17. The valve assembly of claim 10 , wherein the bore port extends from the inter-packing location to a vacuum source. 18. A method of evaluating a seal provided by a packing system for a valve, with respect to a leakage flow path from the valve that extends between an area of system pressure for the valve and an exterior of the valve, the method comprising: determining a rate of increase of an inter-packing pressure, the inter-packing pressure being a pressure of an inter-packing volume that is along the leakage flow path between an upstream packing arrangement and a downstream packing arrangement of the packing system, the upstream packing arrangement configured to, during normal operation, passively leak at a first leakage rate that is greater than a second leakage rate of the downstream packing arrangement for a given pressure drop; determining a reference pressure at a reference location that is downstream of the inter-packing volume along a sensing flow path, the sensing flow path providing fluid communication between the inter-packing volume and an outlet of the valve; and calculating a leakage rate of the upstream packing arrangement of the packing system based on the rate of increase and the reference pressure. 19. The method of claim 18 , further comprising, before determining the rate of increase o