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  1. Hi Brian, thats great, thanks for helping!
  2. Hi, Is it possible to model reactive transport in 2d crossection in GWB (y is my vertical axis)? Should a direction of gravity vector be specified somewhere? I was looking into GWB Reaction transport guide, but I didn't find the answer. Thanks!
  3. Hi Allison, I am a newbie, but I think that the reason why the modeled concentrations are too high is due to the fixed O2(g) buffer that supply infinite amount of oxidant for pyrhotite oxidation. I would consider using kinetic aproach and set up dissolution of pyrhotite and oxygen transfer from the atmosphere kineticaly. But the concentration will increase over time anyway. I think, using reaction transport in a column would be a good idea. Kind Regards, Michal
  4. Hi Brian, thank for your answer. Unfortunately GWB Pro license is not available in my company at the moment, so I cannot try out. Solving this principal problem might however result in purchasing the license. I think, that the solution you suggest would basically simulate flushing the soil profile by rainwater with a given amount of oxygen initially dissolved. I have set up similar simulation using React in "flush" configuration. The problem is, that the amount of oxygen brought into the system just by the rainwater is not high enough. The resulting sulphate concentration are however
  5. Hi, I need to set up a reaction transport model for oxidation of waste rock dump containing sulphide minerals (pyrite). The question is, is it possible in GWB Pro to set up a diffusion of O2(g) into a 1d column (partially saturated with water)? The conceptual model is, that O2(g) buffer in the soil profile would change according to O2(g) consumption rate by pyrite oxidation. Fugacity of O2(g) would be fixed on atmospheric value in one boundary cell of the column acting as O2(g) source. I hope I made myself clear Any ideas how to do that? Or is there some other way how to formulate th
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