def test_temp_injection(self): t = pti.temp(trajectory, 1) self.assertIsInstance(t.tft, list) self.assertIsInstance(t.tt, list) self.assertIsInstance(t.ta, list) self.assertIsInstance(t.tc, list) self.assertIsInstance(t.tsr, list) self.assertIsInstance(t.tfm, list)
def test_temp_behavior(self): t = 2 # For Drilling st = ptd.temp(t, log=True).behavior() self.assertEqual(len(st.tbot), len(st.tout)) self.assertIsInstance(st.finaltime, type(t)) self.assertIsInstance(st.tbot, list) self.assertIsInstance(st.tout, list) # For Production st = ptp.temp(t, log=True).behavior() self.assertIsInstance(st.finaltime, type(t)) self.assertIsInstance(st.tout, list) # For Injection st = pti.temp(t, log=True).behavior() self.assertIsInstance(st.finaltime, type(t)) self.assertIsInstance(st.tbot, list)
def define_inj_plot(): time = request.args.get("time") depth = request.args.get("depth") wd = request.args.get("wd") well_profile = request.args.get("well_profile") kop = request.args.get("kop") eob = request.args.get("eob") build_angle = request.args.get("build_angle") kop2 = request.args.get("kop2") eob2 = request.args.get("eob2") sod = request.args.get("sod") eod = request.args.get("eod") plot_type = request.args.get("plot_type") dt_tft = request.args.get("dt_tft") dt_ta = request.args.get("dt_ta") dt_tr = request.args.get("dt_tr") dt_tc = request.args.get("dt_tc") dt_tfm = request.args.get("dt_tfm") dt_tsr = request.args.get("dt_tsr") # TUBULAR n_casings = request.args.get("n_casings") dro = request.args.get("dro") dri = request.args.get("dri") dto = request.args.get("dto") dti = request.args.get("dti") # OPERATIONAL PARAMETERS tin = request.args.get("tin") q = request.args.get("q") # DENSITIES rhof = request.args.get("rhof") rhot = request.args.get("rhot") rhoc = request.args.get("rhoc") rhor = request.args.get("rhor") rhofm = request.args.get("rhofm") rhow = request.args.get("rhow") rhocem = request.args.get("rhocem") wtg = request.args.get("wtg") gt = request.args.get("gt") if time is None: time = 2 depth = 3000 wd = 150 well_profile = "V" kop = 600 eob = 1500 build_angle = 40 kop2 = 1800 eob2 = 2300 sod = 2000 eod = 2600 plot_type = 1 dt_tft = True dt_ta = False dt_tr = False dt_tc = False dt_tfm = True dt_tsr = False n_casings = 0 # TUBULAR casings_list = [] dro = 21 dri = 17.716 dto = 4.5 dti = 4 # OPERATIONAL PARAMETERS tin = 20 q = 144 # injection rate, m3/d # DENSITIES rhof = 1.198 # injection fluid density, sg rhot = 7.6 rhoc = 7.8 rhor = 7.8 rhofm = 2.245 rhow = 1.029 rhocem = 2.7 wtg = -0.005 gt = 0.0238 else: time = float(time) depth = float(depth) wd = float(wd) well_profile = str(well_profile) kop = float(kop) eob = float(eob) build_angle = int(build_angle) kop2 = float(kop2) eob2 = float(eob2) sod = float(sod) eod = float(eod) plot_type = int(plot_type) dt_tft = bool(dt_tft) dt_ta = bool(dt_ta) dt_tr = bool(dt_tr) dt_tc = bool(dt_tc) dt_tfm = bool(dt_tfm) dt_tsr = bool(dt_tsr) n_casings = int(n_casings) # TUBULAR casings_list = [] for i in range(1, n_casings + 1): csg_dict = { "od": float(request.args.get("od" + str(i))), "id": float(request.args.get("id" + str(i))), "depth": float(request.args.get("depth" + str(i))) } casings_list.append(csg_dict) dro = float(dro) dri = float(dri) dto = float(dto) dti = float(dti) # OPERATIONAL PARAMETERS tin = float(tin) q = float(q) # DENSITIES rhof = float(rhof) rhot = float(rhot) rhoc = float(rhoc) rhor = float(rhor) rhofm = float(rhofm) rhow = float(rhow) rhocem = float(rhocem) wtg = float(wtg) gt = float(gt) inputs = { 'time': time, 'depth': depth, 'wd': wd, 'well_profile': well_profile, 'kop': kop, 'eob': eob, 'build_angle': build_angle, 'kop2': kop2, 'eob2': eob2, 'sod': sod, 'eod': eod, 'plot_type': plot_type, 'n_casings': n_casings } # Others parameters: the ones which should be used for the attribute 'change_inputs' others = { 'wd': wd, 'q': q, 'tin': tin, 'rhof': rhof, 'rhot': rhot, 'rhoc': rhoc, 'rhor': rhor, 'rhofm': rhofm, 'rhow': rhow, 'rhocem': rhocem, 'dro': dro, 'dri': dri, 'dto': dto, 'dti': dti, 'wtg': wtg, 'gt': gt } inputs.update(others) # Merge 'others' into the 'inputs' dictionary error_raised = error_messages( inputs ) # Checking process for warning messages depending on the inputs if error_raised == 0: if plot_type != 5: temp = pti.temp(time, mdt=depth, casings=casings_list, profile=well_profile, change_input=others, build_angle=build_angle, kop=kop, eob=eob, kop2=kop2, eob2=eob2, sod=sod, eod=eod) if plot_type == 1: fig1 = create_figure1(temp) if plot_type == 4: fig1 = create_figure4(temp.behavior()) if plot_type == 5: temp = pti.temp(time, mdt=depth, log=True, profile=well_profile, change_input=others, build_angle=build_angle, kop=kop, eob=eob, kop2=kop2, eob2=eob2, sod=sod, eod=eod) fig1 = create_figure5(temp, tft=dt_tft, ta=dt_ta, tr=dt_tr, tc=dt_tc, tfm=dt_tfm, tsr=dt_tsr) wellpath = get(depth, profile=well_profile, build_angle=build_angle, kop=kop, eob=eob, kop2=kop2, eob2=eob2, sod=sod, eod=eod) fig2 = plot_wellpath(wellpath) p = row(fig2, fig1) else: p = figure(sizing_mode='stretch_both') return p, inputs