Preventing an over pressure condition with a mechanical shutdown valve

The invention claimed is: 1. A shutdown valve comprising: a valve body having an inlet, an outlet, and a channel extending from the inlet to the outlet; a valve seat positioned in the valve body; a diaphragm positioned in the valve body, the diaphragm is movable between an open position spaced apart from the valve seat to allow a fluid flow through the valve body and a closed position engaging the valve seat to stop the fluid flow through the valve body; a mesh coupled to the diaphragm such that the mesh and the diaphragm separate an upstream portion of the channel from a downstream portion of the channel, the mesh extending from the diaphragm to an inner surface of the valve body and limiting fluid flow between the diaphragm and the valve body; a mount coupled to the inner surface of the valve body and the mesh, the mount movable along the inner surface of the valve body responsive to the fluid flow; and a spring biasing the diaphragm towards the open position, wherein a characteristic of the spring determines a differential pressure threshold between the upstream portion of the channel and a downstream portion of the channel at which the diaphragm engages the valve seat. 2. The shutdown valve of claim 1 , wherein the mount comprises a roller disposed in a track defined in the inner surface of the valve body. 3. The shutdown valve of claim 1 , wherein the mount comprises a guide rail positioned on the inner surface of the valve body. 4. The shutdown valve of claim 1 , wherein the diaphragm compresses the spring to move from the open position to the closed position. 5. The shutdown valve of claim 1 , wherein the characteristic of the spring is one of at least a spring constant, a spring length, or a spring material. 6. The shutdown valve of claim 5 , wherein the spring length or the spring constant is adjustable. 7. The shutdown valve of claim 1 , wherein the spring moves the diaphragm from the closed position to the open position when a differential pressure across the mesh is less than the differential pressure threshold. 8. The shutdown valve of claim 1 , wherein the mesh is a first mesh and a first end of the spring is coupled to the diaphragm, the shutdown valve further comprises a second mesh, the second mesh fixed to the valve seat and a second end of the spring. 9. The shutdown valve of claim 1 , wherein the valve seat comprises a tube positioned in the valve body, the diaphragm stopping the fluid flow through the valve body when the diaphragm contacts the tube. 10. The shutdown valve of claim 9 , wherein the spring is positioned inside the tube. 11. The shutdown valve of claim 9 , further comprising a second mount coupling the tube to the valve body. 12. The shutdown valve of claim 11 , wherein moving the tube by the second mount adjusts a length of the spring. 13. A membrane test assembly comprising: a pressure source to flow a fluid; a membrane test cell fluidly coupled to the pressure source receive the fluid and to hold a membrane; a test instrument fluidly coupled to an outlet of the membrane test cell to perform a test on a membrane; and a mechanical shutdown valve positioned in between the membrane test cell and the test instrument, the mechanical shutdown valve configured to stop a fluid flow to the test instrument when a differential pressure created by the fluid flow through the mechanical shutdown valve is greater than or equal to a differential pressure threshold, the mechanical shutdown valve comprising: a diaphragm movable between an open position to allow a fluid flow and a closed position to stop the fluid flow through the mechanical shutdown valve; a mesh coupled to the diaphragm, the mesh extending from the diaphragm to an inner surface of the mechanical shutdown valve such that the mesh and the diaphragm limit fluid flow between the diaphragm and the inner surface; a mount coupled to the inner surface of the valve body and the mesh, the mount movable along the inner surface of the valve body responsive to the fluid flow; and a spring biasing the diaphragm towards the open position, wherein a characteristic of the spring determines the differential pressure threshold at which the diaphragm stops the fluid flow through the mechanical shutdown valve. 14. The membrane test assembly of claim 13 , the mechanical shutdown valve further comprising: a valve body having an inlet, an outlet, and a channel extending from the inlet to the outlet; and a valve seat positioned in the valve body; wherein the diaphragm is positioned in the valve body, the diaphragm movable between the open position spaced apart from the valve seat to allow the fluid flow through the valve body and the closed position engaging the valve seat to stop the fluid flow through the valve body; and the characteristic of the spring determines the differential pressure threshold between an upstream portion of the channel and a downstream portion of the channel at which the diaphragm engages the valve seat. 15. The membrane test assembly of claim 14 , wherein the mesh is coupled to the diaphragm such that the mesh and the diaphragm separate the upstream portion of the channel from the downstream portion of the channel, the mesh extending from the diaphragm to the inner surface of the valve body and limiting fluid flow between the diaphragm and the valve body. 16. The membrane test assembly of claim 15 , wherein the mesh is a first mesh and the mount is a first mount, the first mount coupled to the inner surface of the valve body and the first mesh, the first mount movable along the inner surface of the valve body; the mechanical shutdown valve further comprises a second mount coupled to the inner surface of the valve body and the valve seat comprising a tube, wherein the spring is positioned in the tube and coupled to the tube by a second mesh.