Self-Contained, Fully Mechanical, 1 out of 2 Flowline Protection System

What is claimed is: 1 . A flowline protection system for a fully rated pipeline, the fully rated pipeline having a fluid flowing through the fully rated pipeline at an operation pressure, the system comprising: a first isolation valve and a second isolation valve, the first and second isolation valves being connected in series and connectable to the fully rated pipeline to prevent a flow of the fluid through the fully rated pipeline when either the first isolation valve or the second isolation valve is in a closed position; a first and second hydraulic control assembly, each of the hydraulic control assemblies including a high pressure safety pilot valve with a high pressure setting, and a low pressure safety pilot valve with a low pressure setting; wherein the first and second hydraulic control assemblies are configured to cause both the first isolation valve and the second isolation valve to return to the closed position if either of the high pressure safety pilot valves sense that the operating pressure is greater than the high pressure setting or if either of the low pressure safety pilot valves sense that the operating pressure is less than the low pressure setting; and wherein the isolation valves and the hydraulic control assemblies are part of a self-contained skid assembly free of a connection to any component other than the fully rated pipeline. 2 . The system according to claim 1 , further comprising: a first actuator associated the first isolation valve, the first actuator selectively maintaining the first isolation valve in the open position with a pressure media having an open hydraulic pressure applied to the first actuator; and a second actuator associated the second isolation valve, the second actuator selectively maintaining the second isolation valve in the open position with the pressure media having the open hydraulic pressure applied to the second actuator. 3 . The system according to claim 2 , further comprising a pressure media container in fluid communication with each low pressure safety pilot valve so that when at least one of the low pressure safety pilot valves senses that the operating pressure is less than the low pressure setting, the at least one of the low pressure safety pilot valves moves from a first position to a second position and the pressure media is drained into the pressure media container, reducing a pressure of the pressure media below the open hydraulic pressure and resulting in the isolation valves moving to the closed position. 4 . The system according to claim 2 , further comprising a pressure media container in fluid communication with each high pressure safety pilot valve so that when at least one of the high pressure safety pilot valves senses that the operating pressure is greater than the high pressure setting, the at least one of the high pressure safety pilot valves moves from a first position to a second position and the pressure media is drained into the pressure media container, reducing a pressure of the pressure media below the open hydraulic pressure and resulting in the isolation valves moving to the closed position. 5 . The system according to claim 2 , further comprising a first hand pump for providing the open hydraulic pressure to move the first isolation valve to the open position, and a second hand pump for providing the open hydraulic pressure to move the second isolation valve to the open position. 6 . The system according to claim 2 , further comprising a first high pressure accumulator in fluid communication with the first actuator and a second high pressure accumulator in fluid communication with the second actuator, each high pressure accumulator selectively storing the pressure media at the open pressure. 7 . The system according to claim 1 , further comprising a first pressure transfer assembly and a second pressure transfer assembly, each of the pressure transfer assemblies having a barrier that isolates the fluid of the fully rated pipeline from a pressure media of the first and second hydraulic control assemblies. 8 . The system according to claim 6 , wherein the first and second pressure transfer assemblies are each in hydraulic communication with both the first high pressure safety pilot valve and the second high pressure safety pilot valve, and conveying a magnitude of the operating pressure. 9 . The system according to claim 1 , wherein the first and second hydraulic control assemblies are hydraulically operated mechanical systems free of electrical power or electrical communications. 10 . The system according to claim 1 , wherein a fully rated interconnecting spool pipe is located between the first isolation valve and second isolation, the fully rated interconnecting spool pipe having a pressure gauge and a vent valve for use during field level isolation valve leak testing. 11 . The system according to claim 1 , wherein the flowline protection system is located upstream of an underrated pipeline system, and wherein the system interrupts the flow of fluid to the underrated pipeline system when either the first isolation valve or the second isolation valve is in a closed position. 12 . A flowline protection system for a fully rated pipeline, the fully rated pipeline having a fluid flowing through the fully rated pipeline at an operation pressure, the system comprising: a first isolation valve and a second isolation valve, the first and second isolation valves being connected in series and connectable to the fully rated pipeline to prevent a flow of a fluid through the fully rated pipeline when either the first isolation valve or the second isolation valve is in a closed position; a first actuator associated the first isolation valve, the first actuator selectively maintaining the first isolation valve in the open position with a pressure media having a first open hydraulic pressure applied to the first actuator; a second actuator associated the second isolation valve, the second actuator selectively maintaining the second isolation valve in the open position with the pressure media having a second open hydraulic pressure applied to the second actuator; a first and second hydraulic control assembly, each of the first and second hydraulic control assemblies being in hydraulic communication with both the first and second actuators and selectively providing the first open hydraulic pressure and the second open hydraulic pressure, the first hydraulic control assembly having a first high pressure safety pilot valve with a high pressure setting and the second hydraulic control assembly having a second high pressure safety pilot valve with the high pressure setting; and wherein the first and second hydraulic control assemblies are configured to cause both the first isolation valve and the second isolation valve to return to the closed position if either the first high pressure safety pilot valve or the second high pressure safety pilot valve sense that the operating pressure is greater than the high pressure setting. 13 . The system according to claim 12 , wherein the first hydraulic control assembly has a first low pressure safety pilot valve with a low pressure setting and the second hydraulic control assembly has a second low pressure safety pilot valve with the low pressure setting, and wherein the first and second hydraulic control assemblies are configured to cause both the first isolation valve and the second isolation valve to return to the closed position if either the first low pressure safety pilot valve or the second low pressure safety pilot valve sense that the operating pressure is less than the low pressure setting. 14 . The s