Flame comparison 1 bar & 10 bar CH4 combustion

- June 1, 2023 at 11:01 am
  
  Lukas Walther
  Subscriber
  
  Hello im simulating methane combustion partially premixed (chemical equilibrium). Im analyzing the effect of diffrent pressures. One simulation is computed with 1 bar and the other one with 10 bar (mass fractions are the same). Boundary conditions are the same in bouth simulations.
  According the literature the flame should be shorter under higher pressure, because the flame spread is accelarted.
  Im getting the oposite....the flame under pressure is longer than the one under atmosperic pressure.
  Why? ans idea?
  Simulation (10 bar)Simulation (1 bar)
  Heat release rate is plotted.
  
  Thanks
- June 1, 2023 at 11:03 am
  
  Lukas Walther
  Subscriber
  
  PS: sorry for the scaled screenshots. bouth simulation are made with the same geometry and mesh
- June 1, 2023 at 3:00 pm
  
  Rob
  Ansys Employee
  
  Can you replot using the same heat release scale? It's hard to tell if there is a difference because we're not looking at the same thing.
- June 2, 2023 at 7:17 am
  
  Lukas Walther
  Subscriber
  
  The 10bar simulation has a 10x higher poweroutput due to the increased density. if i apply the scale of the 10 bar simulation to the 1 bar simulation u can hardly see anything.
- June 2, 2023 at 7:25 am
  
  Lukas Walther
  Subscriber
  
  This is the 10 bar simulation with the same scale as the 1 bar simulation. i dont know wheter this is useful or not, because its limited to 1350 kg/m^3 s.
- June 2, 2023 at 7:28 am
  
  Lukas Walther
  Subscriber
  
  note: the hrr in this case is a named expression: Productformation rate * Density, not the default hrr of the pdf section.
- June 2, 2023 at 9:14 am
  
  Rob
  Ansys Employee
  
  Now compare the flame length: I can't easily do this as image size and position make it difficult. What gas density did you use?
- June 2, 2023 at 9:36 am
  
  Lukas Walther
  Subscriber
  
  on this screenshot it is cleary visible that the 10 bar flame is longer. the density in the 10 bar simulation is 11.4 kg/m^3. phi 0.7, 100 % CH4, 11.8 m/s inletvelocity
- June 2, 2023 at 12:33 pm
  
  Rob
  Ansys Employee
  
  On the above it's clear that the reported range is different too. If the report is product formation * density and there's a big density difference between the two models can we use that report as a metric?
- June 2, 2023 at 1:53 pm
  
  Lukas Walther
  Subscriber
  
  yes i think it can be used as a metric
- June 5, 2023 at 8:20 am
  
  Rob
  Ansys Employee
  
  So, next is check convergence and the assumptions in the model. How do the flow fields compare? Flame speed may be higher at high pressure (there's a curve as I vaguely remember doing it for my PhD) but combustion also required fuel & oxident to be in the right place at the right time.

Viewing 10 reply threads

You must be logged in to reply to this topic.

Ansys Innovation Space

Boost Ansys Fluent Simulations with AWS

Computational Fluid Dynamics (CFD) helps engineers design products in which the flow of fluid components is a significant challenge. These different use cases often require large complex models to solve on a traditional workstation. Click here to join this event to learn how to leverage Ansys Fluids on the cloud, thanks to Ansys Gateway powered by AWS.

Earth Rescue – An Ansys Online Series

The climate crisis is here. But so is the human ingenuity to fight it. Earth Rescue reveals what visionary companies are doing today to engineer radical new ideas in the fight against climate change. Click here to watch the first episode.

Ansys Blog

Subscribe to the Ansys Blog to get great new content about the power of simulation delivered right to your email on a weekly basis. With content from Ansys experts, partners and customers you will learn about product development advances, thought leadership and trends and tips to better use Ansys tools. Sign up here.

Trending discussions