GUNT Nozzle Pressure Distribution provides a practical platform for analyzing flow characteristics in convergent and convergent-divergent (de Laval) nozzles under compressible air flow conditions. The system enables precise measurement of pressure curves, highlighting different velocity ranges such as subsonic, supersonic, and the presence of shock waves.
Product Features
- Designed to measure pressure curves in convergent and de Laval nozzles
- Demonstrates choked flow conditions at critical pressure ratios
- Air used as compressible medium to simulate real-world aerodynamic scenarios
- Three interchangeable nozzles included: one convergent, two de Laval with different nozzle extensions
- Pressure measured along the flow direction across multiple measuring points
- Adjustable air pressure upstream and downstream of the nozzle for flexible test conditions
- Allows study of velocity and pressure ratios in various nozzle geometries
- Data collection includes temperature, pressure, and mass flow rate measurements
Benefits
- Ideal for teaching compressible fluid dynamics and nozzle flow principles
- Supports hands-on learning of supersonic flow and shock wave analysis
- Enables visual and quantitative understanding of subsonic and supersonic transitions
- Applicable for aerospace, mechanical, and propulsion system studies
Why Choose GUNT Nozzle Pressure Distribution?
GUNT’s nozzle pressure trainer is an essential tool for exploring compressible flow behavior in different nozzle designs. Its interchangeable nozzles, detailed pressure mapping, and real-time measurement capabilities make it an excellent choice for fluid mechanics laboratories focused on high-speed aerodynamics and propulsion theory.
