Example #1
0
    if res.success and res.fun < 1.0e-5 and volfrac <= 1.0:
        return comp_mf(cas, BOB, spids, propvec, volfrac), volfrac
    else:
        eff = comp_mf(cas, BOB, spids, propvec, 1.0)
        return eff, 1.0


if __name__ == '__main__':
    print("=================================================================")
    print("Finding blend levels for fixed efficiency")
    print("=================================================================")
    matplotlib.rc('xtick', labelsize=24)
    matplotlib.rc('ytick', labelsize=24)
    matplotlib.rc('axes', titlesize=24)
    matplotlib.rc('font', size=24)
    propDB = load_propDB('testDB.xls')
    ncomp, spids, propvec = make_property_vector_all(propDB)

    # Volume fractions:
    wb = xlrd.open_workbook('test_list.xlsx')
    ws = wb.sheet_by_index(0)
    cas_list = []
    nm_list = []
    jbm_list = []
    cas_col = ws.col(0)
    for c, jb, nm in zip(cas_col[1:], ws.col(2)[1:], ws.col(1)[1:]):
        cas_list.append(c.value)
        jbm_list.append(jb.value)
        nm_list.append(nm.value)

    if True:
        f.write("{}\t".format(c[h]))
    f.write("\n")


if __name__ == '__main__':

    t0 = time.time()
    print("=================================================================")
    print("Welcome to the Co-optimizer")
    print("=================================================================")

    print('-----------------------------------------------------------------')
    print("Setting up:")
    print("Reading fuel component properties from: ",
          cooptimizer_input.component_properties_database)
    propDB = load_propDB(cooptimizer_input.component_properties_database,
                         maxrows=18, maxcols=14)
    print("Reading fuel component costs from: ",
          cooptimizer_input.component_cost_database)
    propDB = load_propDB(cooptimizer_input.component_cost_database,
                         propDB_initial=propDB, maxrows=18, maxcols=3)
    print('-----------------------------------------------------------------')

    output_files = []

    for t, v in cooptimizer_input.task_list.items():
        if v:
            ans = 'Yes'
        else:
            ans = 'No'
        print('Planning to perform task: ', t, '\t\t', ans)
Example #3
0
            if k in comp.keys():
                ws.write(j, i, comp[k])
            i += 1
        j += 1

    wb.save(output_file)


if __name__ == '__main__':
    cas = read_input_list('assert_20.xls')
    # Add blendstocks to this as well as flag for is it a blend so that
    # know how to map it to fpdatabase fields
    print("{}".format(cas))

    keys = ['Pure_CAS', 'pk_UUID', 'Pure_Molecular_Formula', 'Pure_IUPAC_name',
            'Pure_Molecular_Weight', 'Pure_Boiling_Point',
            'Pure_LHV', 'Pure_Heat_of_Vaporization',
            'Pure_RON', 'Pure_MON', 'Pure_PMI', 'Pure_Density',
            'Blend_Name', 'Blend_Density', 'Blend_HoV', 'Blend_LHV',
            'Blend_MON', 'Blend_RON', 'Blend_PMI']

    data = load_raw_fpdatabase('Fuel Engine Co Optimization-2.csv', cas, keys)

    write_propDB_remap('testpropDB.xls', data)

    # Now re-read that file, combine with the bRON data and write
    # out the result:
    propDB = load_propDB('testpropDB.xls')
    propDB = load_propDB('bRON_data_with_CAS.xls', propDB_initial=propDB)
    write_propDB('testDB.xls', propDB)