Vertical Rocket Test Stand

The test stand contains a system of load cells that enable engineers to measure the thrust the motor produces and verify their predictions.

Vertical rocket test stand.

The vertical test stand vts began as a variation of the original h ybrid test stand and has now been retired and replaced by the horizontal test stand. The solid rocket motor test firing will burn so hot the sand at the aft end of the motor will turn to glass. It fires vertically nozzle up and measures chamber pressure up to 2200 psi 15 megapascal and thrust up to m class motors. Originally the stand was designed for vertical firing of small liquid rocket motors.

The rocket exhaust is directed into a flame bucket or trench. The prc recently upgraded the test stand cryogenic flow systems and instrumentation capabilities in the rocket test cell. The high energy rocket engine research facility b 1 and nuclear rocket dynamics and control facility b 3 were vertical test stands with cryogenic fuel and steam ejector systems that permitted rocket fuel systems to be studied in simulated altitude conditions. The b 1 side is equipped for single engine tests.

Fluid systems include high pressure nitrogen liquid nitrous oxide and liquid isopropyl alcohol. Converting the tripod stand was chosen as the fastest route to an additional raptor test facility in a vertical configuration. Each test stand had several levels a test section and ground floor shop areas. Liquid rocket engines are usually fired in a vertical position because the propellant pump intakes are designed to draw fuel from the bottoms of the fuel tanks.

A typical sea level test stand may be designed to restrain the rocket engine in either a horizontal or vertical position. The effect of the propellant weight on the thrust measurement system tms must be accounted for as the engine is firing. Operators can also configure the test stand for either horizontal firing or inclined firing up to 45 degrees for cryogenic liquid engines. Lthe b 1 b 2 test stand is a dual position vertical firing facility built in the 1960s to test saturn v rocket stages that carried humans to the moon during the apollo program.

Hi guys i m currently examining the differences and pros cons of vertical and horizontal test stand setups for testing a relatively small liquid rocket engine. Construction was well underway by mid october 2019. The thrust stand shown below has thrust load capabilities from 500 lbf to 2 000 lbf. Vts supported cold flow and hot fire operations for lotus development engines.

The test stand will hold everything from the injector down so gravity shouldn t play a huge. The b 2 side is designed to test rocket stages. This is a prototype and so the tanks will most likely be separate from the engine i e.