Accumulator assembly, pump system having accumulator assembly, and method

What is claimed is: 1. An accumulator assembly for a pump system at a well site, the accumulator assembly arranged to fluidically connect to a flow line between a blender and a fracturing pump of the pump system, the accumulator assembly comprising: a pressurizable tank configured to contain pressurized fluid; and, a control valve fluidically connected between a discharge end of the tank and the flow line; an accumulator assembly pump fluidically connected to the tank, the accumulator assembly pump arranged at a discharge end of the tank, and disposed between the tank and the control valve; wherein the control valve opens and fluidically connects the tank to the flow line when a pressure on the flow line is less than a target pressure, and the control valve closes and fluidically blocks communication between the tank and the flow line when the pressure on the flow line is greater than or substantially the same as the target pressure. 2. The accumulator assembly of claim 1 , further comprising a transportable surface arranged to carry the tank and the control valve together as a unit, the transportable surface with the tank and control valve arranged thereon movable with respect to a remainder of the pump system. 3. The accumulator assembly of claim 2 , wherein the transportable surface is a trailer bed, and further comprising an engine to operate the accumulator assembly pump, the accumulator assembly pump and the engine additionally disposed on the trailer bed. 4. The accumulator assembly of claim 1 , further comprising an engine to operate the accumulator assembly pump. 5. The accumulator assembly of claim 1 , wherein the accumulator assembly pump is arranged to pressurize the tank. 6. The accumulator assembly of claim 5 , wherein the accumulator assembly pump is configured to connect to the blender as a fluid source to pressurize the tank with the pressurized fluid. 7. The accumulator assembly of claim 1 , further comprising a check valve between the control valve and the tank, wherein the check valve only permits flow in a direction from the tank to the control valve. 8. A pump system for use at a well site, the pump system comprising: a blender; a fracturing a flow line configured to transfer fluidic materials from the blender to the fracturing pump; and, an accumulator assembly arranged to fluidically connect to the flow line between the blender and the fracturing pump, the accumulator assembly comprising: a pressurizable tank configured to contain pressurized fluid; and, a control valve fluidically connected between a discharge end of the tank and the flow line; wherein the control valve opens and fluidically connects the tank to the flow line when a pressure on the flow line is less than a target pressure, and the control valve closes and fluidically blocks communication between the tank and the flow line when the pressure on the flow line is greater than or substantially the same as the target pressure, and the blender includes a blender tub, a first pump at an inlet of the blender tub, and a second pump at an outlet of the blender tub, the second pump discharging fracturing fluid from the blender into the flow line. 9. The pump system of claim 8 , further comprising a wheeled transportable surface arranged to carry the tank and the control valve, the wheeled transportable surface with the tank and the control valve arranged thereon movable as a unit with respect to a remainder of the pump system. 10. The pump system of claim 8 , further comprising an accumulator assembly pump fluidically connected to the tank, wherein the accumulator assembly pump is arranged to pressurize the tank. 11. The pump system of claim 10 , wherein the accumulator assembly pump is configured to connect to the blender as a fluid source to pressurize the tank. 12. The pump system of claim 8 , further comprising an accumulator assembly pump fluidically connected to the tank, wherein the accumulator assembly pump is arranged at a discharge end of the tank, and disposed between the tank and the control valve. 13. The pump system of claim 8 , further comprising a check valve on the flow line, the check valve positioned between the blender and the accumulator assembly, wherein fluid is blocked by the check valve from flowing back to the blender. 14. A method of protecting a fluid end of a fracturing pump from cavitation, the method comprising: transferring fluidic materials from a blender to a fracturing pump along a flow line, a pump at a discharge end of the blender providing pressure to the fracturing pump along the flow line; fluidically connecting an accumulator assembly to the flow line between the blender and the fracturing pump, the accumulator assembly including a pressurizable tank configured to contain pressurized fluid, and a control valve fluidically connected between a discharge end of the tank and the flow line; monitoring the pressure on the flow line; opening the control valve to fluidically connect the tank to the flow line when the pressure on the flow line is less than a target pressure; and, closing the control valve to fluidically block communication between the tank and the flow line when the pressure on the flow line is greater than or substantially the same as the target pressure. 15. The method of claim 14 , further comprising pressurizing the tank using an accumulator assembly pump. 16. The method of claim 14 , further comprising pressurizing the tank using fluid from the blender. 17. The method of claim 14 , further comprising arranging the accumulator assembly on a transportable surface, and transporting the accumulator assembly to the well site prior to fluidically connecting the accumulator assembly to the flow line. 18. The pump system of claim 8 , wherein the transfer of fluidic materials from the blender to the fracturing pump bypasses the accumulator assembly when the pressure on the flow line from the blender to the fracturing pump is greater than or substantially the same as the target pressure. 19. The method of claim 14 , wherein, when the control valve is closed, fluidic materials are passed from the blender to the frac pump at a pressure greater than or substantially the same as the target pressure, and, when the control valve is opened, the tank supplies fluid to the flow line until the target pressure on the flow line is reached. 20. The method of claim 14 , wherein the fluidic materials transferred from the blender to the fracturing pump include proppant.