Method and system for damping a check valve

We claim: 1 . A valve assembly comprising: a housing defining a valve chamber, wherein the valve chamber comprises a first end and a second end opposite the first end; a valve inlet disposed adjacent the first end of the valve chamber and in fluid communication therewith, wherein the valve chamber is configured to receive a flow of fluid from the valve inlet; a valve outlet in fluid communication with the valve chamber to receive a flow of fluid from the valve chamber; a valve seat fixedly disposed at the first end of the valve chamber; a valve body movably disposed within the valve chamber, the valve body comprising a valve head and a base portion having one or more fluid passages formed therein or adjacent thereto; a retainer sealingly engaging the housing and defining a cavity between the base portion of the valve body and the retainer, wherein the one or more fluid passages are configured to provide fluid communication to the cavity to regulate a position of the valve body between the first end and the second end of the valve chamber based on at least a pressure difference between the valve inlet and the cavity; and a spring member disposed between the retainer and the valve body, wherein the spring member is configured to bias the valve body towards the first end of the valve chamber, and wherein the valve head of the valve body is configured to abut against the valve seat to prevent a flow of fluid between the valve inlet and the valve chamber. 2 . The valve assembly of claim 1 , wherein the valve head further comprises a fluted portion having at least one fluid channel formed therein. 3 . The valve assembly of claim 1 , wherein the valve outlet is disposed along a length of the valve chamber between the first end of the valve chamber and a second end of the valve chamber. 4 . The valve assembly of claim 1 , wherein the valve body further comprises an indented portion disposed between the valve head and the base portion. 5 . The valve assembly of claim 1 , wherein the one or more fluid passages comprise an orifice, a channel, or a clearance, or a combination thereof. 6 . The valve assembly of claim 1 , wherein the valve inlet is in fluid communication with an outlet of a cryogenic pump. 7 . A valve assembly comprising: a housing defining a valve chamber, wherein the valve chamber comprises a first end and a second end opposite the first end; a valve inlet disposed adjacent the first end of the valve chamber and in fluid communication therewith, wherein the valve chamber is configured to receive a flow of fluid from the valve inlet; a valve outlet adjacent the second end of the valve chamber and in fluid communication therewith, wherein the valve outlet is configured to receive a flow of fluid from the valve chamber; a valve seat fixedly disposed at the first end of the valve chamber; a valve body movably disposed within the valve chamber, the valve body comprising a valve head and a base portion comprising one or more control orifices extending through the base portion and providing fluid communication between a portion of the valve chamber and the valve outlet to regulate a position of the valve body between the first end and the second end of the valve chamber based on at least a pressure difference between the valve inlet and the valve outlet; a retainer sealingly engaging the housing and defining a cavity between the base portion of the valve body and the retainer, wherein a clearance between the base portion and the housing is configured to provide fluid communication to the cavity to regulate a position of the valve body between the first end and the second end of the valve chamber based on at least a pressure difference between the valve inlet and the cavity; and a spring member disposed between the retainer and the valve body, wherein the spring member is configured to bias the valve body towards the first end of the valve chamber, and wherein the valve head of the valve body is configured to abut against the valve seat to prevent a flow of fluid between the valve inlet and the valve chamber. 8 . The valve assembly of claim 7 , wherein the valve head further comprises a fluted portion having at least one fluid channel formed therein. 9 . The valve assembly of claim 7 , wherein the valve body further comprises an indented portion disposed between the valve head and the base portion. 10 . The valve assembly of claim 7 , wherein the valve inlet is in fluid communication with an outlet of a cryogenic pump. 11 . The valve assembly of claim 7 , wherein the base portion further comprises a guide portion defining a guide clearance between the housing and the guide portion, and wherein the guide clearance comprises the clearance that provides fluid communication to the cavity to regulate a position of the valve body between the first end and the second end of the valve chamber based on at least a pressure difference between the valve inlet and the cavity. 12 . The valve assembly of claim 11 , wherein a shoulder defined by the guide portion defines at least a portion of the cavity. 13 . The valve assembly of claim 7 , wherein the base portion further comprises a control portion disposed adjacent the retainer and defining a control clearance between the control portion and the retainer, and wherein the control clearance provides fluid communication between the cavity and the valve outlet to regulate a position of the valve body between the first end and the second end of the valve chamber based on at least a pressure difference between the cavity and the valve outlet. 14 . A valve assembly comprising: a housing defining a valve chamber, wherein the valve chamber comprises a first end and a second end opposite the first end; a valve inlet disposed adjacent the first end of the valve chamber and in fluid communication therewith, wherein the valve chamber is configured to receive a flow of fluid from the valve inlet; a valve outlet adjacent the second end of the valve chamber and in fluid communication therewith, wherein the valve outlet is configured to receive a flow of fluid from the valve chamber; a valve seat fixedly disposed at the first end of the valve chamber; a valve body movably disposed within the valve chamber, the valve body comprising a valve head and a base portion; a retainer sealingly engaging the housing and defining a cavity between the base portion of the valve body and the retainer, wherein a clearance between the base portion and the retainer is configured to provide fluid communication to the cavity to regulate a position of the valve body between the first end and the second end of the valve chamber based on at least a pressure difference between the valve inlet and the cavity; and a spring member disposed between the retainer and the valve body, wherein the spring member is configured to bias the valve body towards the first end of the valve chamber, and wherein the valve head of the valve body is configured to abut against the valve seat to prevent a flow of fluid between the valve inlet and the valve chamber. 15 . The valve assembly of claim 14 , wherein the valve head further comprises a fluted portion having at least one fluid channel formed therein. 16 . The valve assembly of claim 14 , wherein the valve inlet is in fluid communication with an outlet of a cryogenic pump. 17 . The valve assembly of claim 14 , wherein the base portion further comprises a guide portion disposed adjacent the retainer and defining a guide clearance between the retainer and the guide portion, and wherein the guide clearan