def create_comps(self): self.comps['splitter'] = splitter(self.label + '_splitter') self.comps['merge'] = merge(self.label + '_merge') for i in range(self.num_branch): j = str(i) self.comps['valve_' + j] = valve(self.label + '_valve_' + j)
def create_comps(self): for i in range(self.num_consumer - 1): j = str(i) self.comps['feed_' + j] = pipe(self.label + '_pipe feed_' + j) self.comps['return_' + j] = pipe(self.label + '_pipe return_' + j) for i in range(self.num_consumer): j = str(i) self.comps['splitter_' + j] = splitter(self.label + '_splitter_' + j) self.comps['merge_' + j] = merge(self.label + '_merge_' + j) self.comps['consumer_' + j] = heat_exchanger_simple(self.label + '_consumer_' + j) self.comps['valve_' + j] = valve(self.label + '_valve_' + j)
def __init__(self, working_fluid): self.working_fluid = working_fluid fluids = ['water', self.working_fluid, 'air'] self.nw = network(fluids=fluids) self.nw.set_attr(p_unit='bar', T_unit='C', h_unit='kJ / kg') # geo parameters geo_mass_flow = 210 geo_steam_share = 0.1 T_brine_in = 144.8 T_reinjection = 70.8 # ambient parameters T_amb = 0 p_amb = 1 # main components geo_steam = source('steam source') geo_brine = source('brine source') geo_reinjection = sink('reinjection well') air_in = source('ambient air source') air_out = sink('ambient air sink') air_cond = condenser('main condenser') orc_cc = cycle_closer('orc cycle closer') evap_steam = condenser('steam evaporator') evap_splitter = splitter('splitter evaporation') evap_merge = merge('merge evaporation') evap_steam = condenser('steam evaporator') geo_steam_pump = pump('geosteam condensate pump') evap_brine = heat_exchanger('brine evaporator') dr = drum('drum') eco = heat_exchanger('economiser') feed_water_pump = pump('feed water pump') geo_merge = merge('brine merge') tur = turbine('turbine') ls_valve = valve('live steam valve') ihe = heat_exchanger('internal heat exchanger') # busses power_bus = bus('power output') power_bus.add_comps({ 'c': tur, 'char': -1 }, { 'c': feed_water_pump, 'char': -1 }, { 'c': geo_steam_pump, 'char': -1 }) geothermal_bus = bus('thermal input') geothermal_bus.add_comps({ 'c': eco, 'char': -1 }, { 'c': evap_brine, 'char': -1 }, { 'c': evap_steam, 'char': -1 }) self.nw.add_busses(power_bus, geothermal_bus) # turbine to condenser ls_in = connection(orc_cc, 'out1', ls_valve, 'in1') lsv_tur = connection(ls_valve, 'out1', tur, 'in1') tur_ihe = connection(tur, 'out1', ihe, 'in1') ihe_cond = connection(ihe, 'out1', air_cond, 'in1') self.nw.add_conns(ls_in, lsv_tur, tur_ihe, ihe_cond) # condenser to steam generator cond_fwp = connection(air_cond, 'out1', feed_water_pump, 'in1') fwp_ihe = connection(feed_water_pump, 'out1', ihe, 'in2') self.nw.add_conns(cond_fwp, fwp_ihe) # steam generator ihe_eco = connection(ihe, 'out2', eco, 'in2') eco_dr = connection(eco, 'out2', dr, 'in1') dr_esp = connection(dr, 'out1', evap_splitter, 'in1') esp_eb = connection(evap_splitter, 'out1', evap_brine, 'in2') esp_es = connection(evap_splitter, 'out2', evap_steam, 'in2') eb_em = connection(evap_brine, 'out2', evap_merge, 'in1') es_em = connection(evap_steam, 'out2', evap_merge, 'in2') em_dr = connection(evap_merge, 'out1', dr, 'in2') ls_out = connection(dr, 'out2', orc_cc, 'in1') self.nw.add_conns(ihe_eco, eco_dr, dr_esp, esp_eb, esp_es, eb_em, es_em, em_dr, ls_out) # air cold side air_cold = connection(air_in, 'out1', air_cond, 'in2') air_hot = connection(air_cond, 'out2', air_out, 'in1') self.nw.add_conns(air_cold, air_hot) # geo source gs_es = connection(geo_steam, 'out1', evap_steam, 'in1', label='geosteam') es_gsp = connection(evap_steam, 'out1', geo_steam_pump, 'in1') gsp_gm = connection(geo_steam_pump, 'out1', geo_merge, 'in1') gb_eb = connection(geo_brine, 'out1', evap_brine, 'in1', label='geobrine') eb_gm = connection(evap_brine, 'out1', geo_merge, 'in2') self.nw.add_conns(gs_es, es_gsp, gsp_gm, gb_eb, eb_gm) gm_eco = connection(geo_merge, 'out1', eco, 'in1') eco_gr = connection(eco, 'out1', geo_reinjection, 'in1', label='reinjection') self.nw.add_conns(gm_eco, eco_gr) # fluid settings ihe_eco.set_attr(fluid={self.working_fluid: 1, 'air': 0, 'water': 0}) air_cold.set_attr(fluid={self.working_fluid: 0, 'air': 1, 'water': 0}) gs_es.set_attr(fluid={self.working_fluid: 0, 'air': 0, 'water': 1}) gb_eb.set_attr(fluid={self.working_fluid: 0, 'air': 0, 'water': 1}) # connection parameters ls_stable_p0 = PSI('P', 'T', T_brine_in + 273.15, 'Q', 1, self.working_fluid) / 1e5 lsv_tur.set_attr(p0=ls_stable_p0) ws_stable_h0 = ( PSI('H', 'T', T_amb + 273.15, 'Q', 1, self.working_fluid) + 0.5 * (PSI('H', 'T', T_brine_in + 273.15, 'Q', 1, self.working_fluid) - PSI('H', 'T', T_amb + 273.15, 'Q', 1, self.working_fluid))) / 1e3 tur_ihe.set_attr(h=ws_stable_h0) ihe_cond.set_attr( Td_bp=2, design=['Td_bp'], p0=PSI('P', 'T', T_amb + 273.15, 'Q', 1, self.working_fluid) / 1e5) fwp_ihe.set_attr(h=ref(cond_fwp, 1, 1e3)) # steam generator gs_es.set_attr(m=geo_mass_flow * geo_steam_share, T=T_brine_in, x=1, p0=5) gb_eb.set_attr(m=geo_mass_flow * (1 - geo_steam_share), T=T_brine_in, x=0) em_dr.set_attr() eb_em.set_attr(x=0.5) es_em.set_attr(x=0.5, design=['x']) eb_gm.set_attr(T=T_brine_in - 20) eco_dr.set_attr(Td_bp=-2) # main condenser air_cold.set_attr(p=p_amb, T=T_amb) air_hot.set_attr(T=15) # component parameters # turbines tur.set_attr(design=['eta_s'], offdesign=['cone', 'eta_s_char']) ls_valve.set_attr(pr=1, design=['pr']) # condensing ihe.set_attr(pr1=1, pr2=1, offdesign=['kA_char']) air_cond.set_attr(pr1=1, pr2=1, ttd_u=10, design=['ttd_u'], offdesign=['kA_char']) feed_water_pump.set_attr(design=['eta_s'], offdesign=['eta_s_char']) # steam generator evap_steam.set_attr( pr1=0.99, offdesign=['kA_char']) # no pr2 due to drum pressure balance evap_brine.set_attr( pr1=1, ttd_l=10, offdesign=['kA_char']) # no pr2 due to drum pressure balance eco.set_attr(pr1=1, pr2=1) geo_steam_pump.set_attr(eta_s=0.75, design=['eta_s'], offdesign=['eta_s_char']) self.nw.set_attr(iterinfo=False) self.nw.solve('design') self.nw.print_results() tur.set_attr(eta_s=0.9) feed_water_pump.set_attr(eta_s=0.75) tur_ihe.set_attr(h=None) fwp_ihe.set_attr(h=None) eb_gm.set_attr(T=None)
mass_flow_rate_steam = 20.4 T_brine_in = 146.6 T_reinjection = 69.1 # cooling air part mass_flow_rate_air = 6142 T_air = -4.7 p_air = 0.61 # calculation secondary variables p_before_turbine = PropsSI('P', 'T', T_brine_in + 273.15 - 28, 'Q', 1, 'Isopentane') / 1e5 p_steam_in = PropsSI('P', 'T', T_brine_in + 273.15, 'Q', 1, 'water') / 1e5 # main components evaporator = evaporator('evaporator') pump_c = pump('condensate pump') merge = merge('geo-fluid merge point') preheater = heat_exchanger('preheater') turbine = turbine('turbine') ihe = heat_exchanger('internal heat exchanger') condenser = condenser('condenser') pump = pump('feeding pump') # working fluid source_wf = source('working fluid source') sink_wf = sink('working fluid sink') close_cycle = cycle_closer('cycle closer before preheater') #brine source_s = source('steam source') source_b = source('brine source') sink_s = sink('steam sink') sink_b = sink('brine sink') # cooling air
def __init__(self): self.nw = network( fluids=['BICUBIC::water'], p_unit='bar', T_unit='C', h_unit='kJ / kg', iterinfo=False) # components # main cycle eco = heat_exchanger_simple('economizer') eva = heat_exchanger_simple('evaporator') sup = heat_exchanger_simple('superheater') cc = cycle_closer('cycle closer') hpt = turbine('high pressure turbine') sp1 = splitter('splitter 1', num_out=2) mpt = turbine('mid pressure turbine') sp2 = splitter('splitter 2', num_out=2) lpt = turbine('low pressure turbine') con = condenser('condenser') pu1 = pump('feed water pump') fwh1 = condenser('feed water preheater 1') fwh2 = condenser('feed water preheater 2') dsh = desuperheater('desuperheater') me2 = merge('merge2', num_in=2) pu2 = pump('feed water pump 2') pu3 = pump('feed water pump 3') me = merge('merge', num_in=2) # cooling water cwi = source('cooling water source') cwo = sink('cooling water sink') # connections # main cycle cc_hpt = connection(cc, 'out1', hpt, 'in1', label='feed steam') hpt_sp1 = connection(hpt, 'out1', sp1, 'in1', label='extraction1') sp1_mpt = connection(sp1, 'out1', mpt, 'in1', state='g') mpt_sp2 = connection(mpt, 'out1', sp2, 'in1', label='extraction2') sp2_lpt = connection(sp2, 'out1', lpt, 'in1') lpt_con = connection(lpt, 'out1', con, 'in1') con_pu1 = connection(con, 'out1', pu1, 'in1') pu1_fwh1 = connection(pu1, 'out1', fwh1, 'in2') fwh1_me = connection(fwh1, 'out2', me, 'in1', state='l') me_fwh2 = connection(me, 'out1', fwh2, 'in2', state='l') fwh2_dsh = connection(fwh2, 'out2', dsh, 'in2', state='l') dsh_me2 = connection(dsh, 'out2', me2, 'in1') me2_eco = connection(me2, 'out1', eco, 'in1', state='l') eco_eva = connection(eco, 'out1', eva, 'in1') eva_sup = connection(eva, 'out1', sup, 'in1') sup_cc = connection(sup, 'out1', cc, 'in1') self.nw.add_conns(cc_hpt, hpt_sp1, sp1_mpt, mpt_sp2, sp2_lpt, lpt_con, con_pu1, pu1_fwh1, fwh1_me, me_fwh2, fwh2_dsh, dsh_me2, me2_eco, eco_eva, eva_sup, sup_cc) # cooling water cwi_con = connection(cwi, 'out1', con, 'in2') con_cwo = connection(con, 'out2', cwo, 'in1') self.nw.add_conns(cwi_con, con_cwo) # preheating sp1_dsh = connection(sp1, 'out2', dsh, 'in1') dsh_fwh2 = connection(dsh, 'out1', fwh2, 'in1') fwh2_pu2 = connection(fwh2, 'out1', pu2, 'in1') pu2_me2 = connection(pu2, 'out1', me2, 'in2') sp2_fwh1 = connection(sp2, 'out2', fwh1, 'in1') fwh1_pu3 = connection(fwh1, 'out1', pu3, 'in1') pu3_me = connection(pu3, 'out1', me, 'in2') self.nw.add_conns(sp1_dsh, dsh_fwh2, fwh2_pu2, pu2_me2, sp2_fwh1, fwh1_pu3, pu3_me) # busses # power bus self.power = bus('power') self.power.add_comps( {'comp': hpt, 'char': -1}, {'comp': mpt, 'char': -1}, {'comp': lpt, 'char': -1}, {'comp': pu1, 'char': -1}, {'comp': pu2, 'char': -1}, {'comp': pu3, 'char': -1}) # heating bus self.heat = bus('heat') self.heat.add_comps( {'comp': eco, 'char': 1}, {'comp': eva, 'char': 1}, {'comp': sup, 'char': 1}) self.nw.add_busses(self.power, self.heat) # parametrization # components hpt.set_attr(eta_s=0.9) mpt.set_attr(eta_s=0.9) lpt.set_attr(eta_s=0.9) pu1.set_attr(eta_s=0.8) pu2.set_attr(eta_s=0.8) pu3.set_attr(eta_s=0.8) eco.set_attr(pr=0.99) eva.set_attr(pr=0.99) sup.set_attr(pr=0.99) con.set_attr(pr1=0.99, pr2=0.99, ttd_u=5) fwh1.set_attr(pr1=0.99, pr2=0.99, ttd_u=5) fwh2.set_attr(pr1=0.99, pr2=0.99, ttd_u=5) dsh.set_attr(pr1=0.99, pr2=0.99) # connections eco_eva.set_attr(x=0) eva_sup.set_attr(x=1) cc_hpt.set_attr(m=200, T=650, p=100, fluid={'water': 1}) hpt_sp1.set_attr(p=20) mpt_sp2.set_attr(p=3) lpt_con.set_attr(p=0.05) cwi_con.set_attr(T=20, p=10, fluid={'water': 1})
# define unit systems and fluid property ranges nw = network(fluids=fluid_list, p_unit='bar', T_unit='C', p_range=[0.5, 10], T_range=[10, 1200]) # %% components # sinks & sources amb = source('ambient') sf = source('fuel') fg = sink('flue gas outlet') cw_in1 = source('cooling water inlet1') cw_in2 = source('cooling water inlet2') cw_out1 = sink('cooling water outlet1') cw_out2 = sink('cooling water outlet2') split = splitter('splitter') merge = merge('merge') # combustion chamber chp = combustion_engine(label='combustion engine') # %% connections amb_comb = connection(amb, 'out1', chp, 'in3') sf_comb = connection(sf, 'out1', chp, 'in4') comb_fg = connection(chp, 'out3', fg, 'in1') nw.add_conns(sf_comb, amb_comb, comb_fg) cw1_chp1 = connection(cw_in1, 'out1', chp, 'in1') cw2_chp2 = connection(cw_in2, 'out1', chp, 'in2')
# %% network btes = network(fluids=["water"], T_unit="K", p_unit="bar", h_unit="kJ / kg") # %% components fc = cycle_closer("cycle closer") pu = pump("pump") sp = splitter("splitter", num_out=3) # bhe: bhe1 = heat_exchanger_simple("BHE1") bhe2 = heat_exchanger_simple("BHE2") bhe3 = heat_exchanger_simple("BHE3") mg = merge("merge", num_in=3) cons = heat_exchanger_simple("consumer") ## components paramerization # pump # flow_char # provide volumetric flow in m^3 / s x = np.array( [ 0.00, 0.00001952885971862, 0.00390577194372, 0.005858657915586, 0.007811543887448, 0.00976442985931, 0.011717315831173,
pu = pump('pump') sp = splitter('splitter', num_out=3) # bhe: bhe_name = 'BHE1' assert 'BHE1' in bhe_name, "BHE should be named with 'BHE1'" bhe1 = heat_exchanger_simple(bhe_name) bhe_name = 'BHE2' assert 'BHE2' in bhe_name, "BHE should be named with 'BHE2'" bhe2 = heat_exchanger_simple(bhe_name) bhe_name = 'BHE3' assert 'BHE3' in bhe_name, "BHE should be named with 'BHE3'" bhe3 = heat_exchanger_simple(bhe_name) mg = merge('merge', num_in=3) cons = heat_exchanger_simple('consumer') # %% connections fc_pu = connection(fc_in, 'out1', pu, 'in1') pu_sp = connection(pu, 'out1', sp, 'in1') sp_bhe1 = connection(sp, 'out1', bhe1, 'in1') sp_bhe2 = connection(sp, 'out2', bhe2, 'in1') sp_bhe3 = connection(sp, 'out3', bhe3, 'in1') bhe1_mg = connection(bhe1, 'out1', mg, 'in1') bhe2_mg = connection(bhe2, 'out1', mg, 'in2') bhe3_mg = connection(bhe3, 'out1', mg, 'in3')
nw.set_attr(p_unit='bar', T_unit='C', h_unit='kJ / kg') # main components cond1 = condenser('condenser 1') cond2 = condenser('condenser 2') ihe1 = heat_exchanger('internal heat exchanger 1') ihe2 = heat_exchanger('internal heat exchanger 2') pu1 = pump('feeding pump 1') pu2 = pump('feeding pump 2') turb1 = turbine('turb 1') turb2 = turbine('turb 2') val1 = valve('control valve 1') val2 = valve('control valve 2') spl = splitter('main cycle splitter') mer = merge('main cycle merge') preh = heat_exchanger('preheater') evap = heat_exchanger('evaporator') # cooling air source_ca_1 = source('cooling air source 1') sink_ca_1 = sink('cooling air sink 1') source_ca_2 = source('cooling air source 2') sink_ca_2 = sink('cooling air sink 2') #brine source_b = source('brine source') sink_b = sink('brine sink') # working fluid
combustion_chamber = combustion_chamber('combustion') gas_turbine = turbine('gas turbine') fuel_source = source('fuel source') combustion_air_source = source('ambient air') rauchgas = sink('Rauchgas') steam_generator_gas = heat_exchanger('Abhitzekessel') # steam turbine part fs_source = source('Frischdampf') hp_turbine = turbine('Hochdruck Turbine') splitter_1 = splitter('splitter hp-extraction') lp_turbine = turbine('low pressure turbine') merge = merge('Merge vor Kondensator') condenser_stp = condenser('Kondensator') pump = pump('Speisewasserpumpe') # DH Network dh_source = source('District Heating source') dh_sink = sink('dh sink') valve_1 = valve('valve 1') dh_heater_2 = heat_exchanger('Dh_heater_2') valve_2 = valve('valve 2') dh_heater = condenser('dh heater 1') # Kuehlwasser cw_source = source('Kuehlwasser Einlass')
fluids = ['water'] nw = network(fluids=fluids, p_unit='bar', T_unit='C', h_unit='kJ / kg') # %% components # turbine part valve_turb = valve('turbine inlet valve') turbine_hp = turbine('high pressure turbine') split = splitter('extraction splitter') turbine_lp = turbine('low pressure turbine') # condenser and preheater cond = condenser('condenser') preheater = condenser('preheater') merge_ws = merge('waste steam merge') valve_pre = valve('preheater valve') # feed water pump = pump('pump') steam_generator = heat_exchanger_simple('steam generator') closer = cycle_closer('cycle closer') # source and sink for cooling water source_cw = source('source_cw') sink_cw = sink('sink_cw') # %% connections # turbine part
fluids = ['water'] nw = network(fluids=fluids, p_unit='bar', T_unit='C', h_unit='kJ / kg') # %% components # turbine part turb_hp = turbine('high pressure turbine') split = splitter('extraction splitter') turb_lp = turbine('low pressure turbine') # condenser and preheater cond = condenser('condenser') preheat = condenser('preheater') mer = merge('waste steam merge') val = valve('valve') # feed water pu = pump('pump') sg = heat_exchanger_simple('steam generator') closer = cycle_closer('cycle closer') # source and sink for cooling water dh_in = source('district heating backflow') dh_out = sink('district heating feedflow') # %% connections # turbine part