Hi Alf Thanks for your input Yes we are speaking of 3 phases compositional model here I both read ewoms and dumux manuals and from that reading alone [ no first hand experience and no interaction with people using it until today..], it seemed to me that the compositional and non isothermal models were more advanced in ewoms than in dumux. Did I made a mistake? Thanks JF
Jean-François Leon Galtenco Technology, Ltd Tel [Main-Worldwide Global]: +1 (415) 322-0376 Cell[France]: +33 (651) 168-014 On Sun, Oct 26, 2014 at 3:59 PM, Alf Birger Rustad <a...@statoil.com> wrote: > Hi Jean, > > Compiling (and linking) ERT should be fairly straight forward if you have > dependencies installed. > > For your needs it seems a three phase, thermal, four component simulator is > what you are looking for. You will find that in the dumux code, while the > ewoms repo in opm will provide dumux code combined with some file io code > from opm. > > The last year most simulator efforts in opm has been towards the fully > implicit blackoil simulator found in opm-autodiff, this is where you will > find the most mature functionality. We do want to expand into thermal and > compositional formulations during the next three years, so be ready to get > your hands dirty if you want that usage in opm now. > > Cheers, > Alf > > Jean Francois Leon <j...@galtenco.com> wrote: > > > Hi Everybody > > I am new to OPM (still trying to compile the latest release and stuck with > an ERT error with OPM-CORE... but will go through that). > > > My (small) company is facing a bunch of problems in soil thermal > remediation for which numerical simulations will be important in order to > optimize the remediation process. > > We would like to test OPM in that context for the usual reasons: > > We have a tradition to control what we are doing and add more sciences to > the models as needed. We also like to share our model developments when > possible: It increases the possibilities of finding and correcting mistakes > and return a little bit of what we have received. > > > However, we are not yet at this point, and we know we have a steep > learning curve ahead of us in this case. > > > This is why I am reaching out: > > Is there anybody out there that has played around with cases relevant to > this problem and could share their experience or a few test cases if > possible? > > > These problems are not the easiest to compute: > > Non isothermal ( with an heat source usually an electrically heated well) > 3 phases and a minimum of 4 components [NAPL + water+ dissolved gases both > in water and NAPL] > > > Any advices [do/don't for e.g.] or relevant example [ multiphase flow > with heat sources]to start from something and ease our learning curve will > be greatly appreciated. > > > Thanks in advance. > > Cheers > > JF > > Jean-François Leon > Galtenco Technology, Ltd > > Tel [Main-Worldwide Global]: +1 (415) 322-0376 > Cell[France]: +33 (651) 168-014 > > > ------------------------------------------------------------------- > The information contained in this message may be CONFIDENTIAL and is > intended for the addressee only. Any unauthorised use, dissemination of the > information or copying of this message is prohibited. If you are not the > addressee, please notify the sender immediately by return e-mail and delete > this message. > Thank you >
_______________________________________________ Opm mailing list Opm@opm-project.org http://www.opm-project.org/mailman/listinfo/opm
