Valve block having minimal deadleg

What is claimed is: 1. A valve block comprising: a housing having a first side, a second side, and a third side, wherein the first side opposes the second side and the third side is located adjacent to both of the first side and the second side; a first valve seat comprising a cylindrical depression located on the second side; a first conduit having a second opening that terminates on the second side and within the first valve seat and a first opening that terminates on the first side, the first conduit being linearly aligned from the first opening to the second opening, the first opening being selectively openable and closeable; a second valve seat located on the third side; and a second conduit extending at an angle from the first conduit, the second conduit being in fluid flow communication with the first conduit, the second conduit terminating as an opening on the third side within the second valve seat, the opening of the second conduit being selectively openable and closeable, said valve block further comprising a fifth opening located on a fourth side of the valve block, the fourth side being located opposite the third side, a fourth opening terminating in said first valve seat and a third conduit portion connected in fluid flow communication between the fourth opening and the fifth opening. 2. The valve block of claim 1 , wherein the second conduit is connected in fluid flow communication to the first conduit at a 90 degree angle. 3. The valve block of claim 1 , wherein the housing is in the shape of a rectangular prism. 4. The valve block of claim 1 , wherein the second valve seat is in the shape of a cylindrical depression and an additional opening to a fourth conduit terminates in the second valve seat. 5. A system comprising: a liquid refill source; a purge gas source; and a valve block having a first port opening connected in fluid flow communication to both the liquid refill source and the purge gas source, the first port opening located on a first side of the valve block, a second port opening, the second port opening located on a second side of the valve block in a first valve seat, the second side being located opposite the first side, a first conduit portion connected in fluid flow communication between the first port opening and the second port opening, the second port opening being selectively openable and closeable, the first port opening and the second port opening being axially aligned, and a second conduit portion that extends from the first conduit portion at a non-parallel angle thereto, the second conduit portion being in fluid flow communication with the first conduit portion, the second conduit portion terminating at a third port opening located in a second valve seat on a third side of the valve block, the third port opening being selectively openable and closeable and a fourth port opening located in the first valve seat on the second side of the valve block; a fifth port opening located on a fourth side of the valve block, the fourth side being located opposite the third side; and a third conduit portion connected in fluid flow communication between the fourth port opening and the fifth port opening. 6. The system of claim 5 , wherein the third side of the valve block is located adjacent to both of the first side and the second side of the valve block. 7. The system of claim 5 , wherein the second conduit portion extends from the first conduit portion at a 90 degree angle. 8. The system of claim 5 , wherein the third conduit portion has a bend therein. 9. The system of claim 5 , further comprising a container, wherein the fifth port opening is connected in fluid flow communication to the container. 10. The system of claim 5 , further comprising a sixth port opening located in the second valve seat on the third side of the valve block; a seventh port opening located on a fifth side of the valve block, the fifth side being located adjacent to each of the first, second, and third sides; and a fourth conduit portion connected in fluid flow communication between the seventh port opening and the sixth port opening. 11. The system of claim 10 , wherein the fourth conduit portion has a bend therein. 12. The system of claim 10 , further comprising a vent, wherein the seventh port opening is connected in fluid flow communication to the vent. 13. The system of claim 5 , wherein centerpoints of the first port opening and the second port opening lie in a first horizontal plane, the third port opening lies in a second horizontal plane, and the second horizontal plane is located above the first horizontal plane. 14. The system of claim 5 , wherein centerpoints of the first port opening and the second port opening lie in a first horizontal plane, a centerpoint of the fourth port opening lies in a second horizontal plane, and the first horizontal plane is located above the second horizontal plane. 15. A method of performing a purge step in a valve block after the valve block has undergone a fill step, the method comprising: delivering a purge gas into the valve block through a first port opening located on a first side surface of the valve block such that the purge gas is directly projected through a first conduit portion into contact with a seal that has been temporarily created over a second port opening, the first conduit portion being linear, the second port opening being located on a second side surface of the valve block, the second side surface being located on an opposing side of the valve block from the first side surface, such that the purge gas rebounds off of the seal and travels in the opposite direction through the first conduit portion and enters a second conduit portion that extends at an angle from the first conduit portion, the second conduit portion terminating at a top surface of the valve block. 16. The method of claim 15 , wherein the delivering step further comprises delivering the purge gas into the valve block at a rate of at least 100 liters per minute. 17. The method of claim 16 , further comprising heating the purge gas to at least 50 degrees Celsius prior to the delivering step. 18. The method of claim 15 , wherein the delivering step further comprises delivering the purge gas into the valve block at a rate of between 250 and 500 liters per minute. 19. The method of claim 15 , further comprising heating the purge gas to at least 50 degrees Celsius prior to the delivering step. 20. The method of claim 15 , further comprising the step of: after exiting said second conduit, said purge gas enters a fourth conduit portion located at said top surface of the valve block, said fourth conduit terminating in a vent.