Method and system for flow rate control of hydraulic pump

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, a main fluid passage providing fluid communication between the valve inlet and the valve outlet, and one or more control orifices providing fluid communication between the main fluid passage and at least a portion of the valve chamber; and a spring member disposed between the housing and the valve body, wherein the spring member is configured to bias the valve body away from the valve seat and towards the first end of the valve chamber, and wherein the valve head of the valve body is configured to abut against at least a portion of the valve seat to control a flow of fluid from the one or more control orifices to the valve outlet. 2 . The valve assembly of claim 1 , wherein the valve body further comprises at least one fluid channel formed therein. 3 . The valve assembly of claim 2 , wherein the at least one fluid channel is formed in an outer periphery of the valve body. 4 . The valve assembly of claim 1 , wherein the main fluid passage is central disposed in the valve body. 5 . The valve assembly of claim 1 , wherein the valve head of the valve body is configured to sealingly abut against the valve seat to prevent a flow of fluid from the one or more control orifices from reaching the valve outlet. 6 . The valve assembly of claim 1 , wherein the valve outlet is in fluid communication with a tappet of a cryogenic pump. 7 . The valve assembly of claim 6 , wherein a flow rate through the valve outlet is regulated to move the tappet at about 1.2 m/s or less. 8 . A valve assembly comprising: a housing defining a valve chamber and a main fluid passage, 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, wherein the main fluid passage provides fluid communication between the valve inlet and the valve outlet; 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, a fluid chamber, and one or more control orifices providing fluid communication between the fluid chamber and at least a portion of the valve chamber; and a spring member disposed between the housing and the valve body, wherein the spring member is configured to bias the valve body away from the valve seat and towards the first end of the valve chamber, and wherein the valve head of the valve body is configured to abut against at least a portion of the valve seat to restrict a flow of fluid from the one or more control orifices toward the valve outlet. 9 . The valve assembly of claim 8 , wherein the valve body further comprises at least one fluid channel formed therein. 10 . The valve assembly of claim 9 , wherein the at least one fluid channel is formed in an outer periphery of the valve body. 11 . The valve assembly of claim 8 , wherein the main fluid passage bypasses a portion of the valve chamber to provide fluid communication between the valve inlet and the valve outlet independent of a position of the valve body in the valve chamber. 12 . The valve assembly of claim 8 , wherein the valve head of the valve body is configured to sealingly abut against the valve seat to prevent a flow of fluid from the one or more control orifices from reaching the valve outlet. 13 . The valve assembly of claim 8 , wherein the valve outlet is in fluid communication with a tappet of a cryogenic pump. 14 . The valve assembly of claim 13 , wherein a flow rate through the valve outlet is regulated to move the tappet at about 1.2 m/s or less. 15 . 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, a main fluid passage providing fluid communication between the valve inlet and the valve outlet, and one or more channels formed on an outer periphery of the valve body to provide fluid communication between the valve inlet and at least a portion of the valve chamber; and a spring member disposed between the housing and the valve body, wherein the spring member is configured to bias the valve body away from the valve seat and towards the first end of the valve chamber, and wherein the valve head of the valve body is configured to abut against at least a portion of the valve seat to control a flow of fluid from the one or more channels to the valve outlet. 16 . The valve assembly of claim 15 , wherein the valve body further comprises a protuberance disposed between two of the channels. 17 . The valve assembly of claim 15 , wherein the main fluid passage is central disposed in the valve body. 18 . The valve assembly of claim 15 , wherein the valve head of the valve body is configured to sealingly abut against the valve seat to prevent a flow of fluid from the one or more control orifices from reaching the valve outlet. 19 . The valve assembly of claim 15 , wherein the valve outlet is in fluid communication with a tappet of a cryogenic pump. 20 . The valve assembly of claim 19 , wherein a flow rate through the valve outlet is regulated to move the tappet at about 1.2 m/s or less.