CN102035002A

CN102035002A - Fuel cell module with water and thermal management capability

Info

Publication number: CN102035002A
Application number: CN201010566184XA
Authority: CN
Inventors: 侯中军; 王克勇; 王仁芳; 燕希强; 吕萍
Original assignee: Sunrise Power Co Ltd
Current assignee: Sunrise Power Co Ltd
Priority date: 2010-11-30
Filing date: 2010-11-30
Publication date: 2011-04-27
Anticipated expiration: 2030-11-30
Also published as: DE112011103046B4; WO2012071942A1; CN102035002B; DE112011103046T5

Abstract

The invention discloses a fuel cell module with water and thermal management capacity, comprising a fuel cell pile, a distribution unit, a power management unit, a voltage reducing and heating submodule, a liquid water management submodule, an external packing submodule and other parts. The distribution unit distributes hydrogen, air and a cooling medium which enter the modules into each single pile; the power management unit carries out state detection and management on the modules and controls the connection and the disconnection of power output; the voltage reducing and heating submodule regulates the temperature of the fuel cell pile and controls the output voltage; the liquid water management submodule carries out liquid water separation on the hydrogen and the air which enter a fuel cell pile module and discharges the liquid water at the hydrogen side; and the external packing submodule realizes water and dust prevention and heat preservation of the fuel cell pile module and discharges the hydrogen and steam in a packing module. The invention has the advantages that the fuel cell module can rapidly enter the ideal working state, thereby being beneficial to improving the performance, the stability, the safety and the like of the fuel cell module.

Description

A kind of fuel cell module with hydro-thermal managerial ability

Technical field

The invention belongs to fuel cell field, particularly fuel cell module.

Background technology

Traditional fuel cell module only comprises fuel cell pack, hydrogen allocation units, air distribution unit, coolant allocation units, unit voltage detecting unit and electric power output unit usually.The deficiency of traditional fuel cell module is that inside modules does not have the hydro-thermal management function, is unfavorable for that fuel cell enters the ideal operation state as early as possible when using.

Summary of the invention

The purpose of this invention is to provide a kind of fuel cell modular structure, make fuel cell module can enter desirable operating state fast with self-managed water heat ability.

Technical scheme of the present invention is: a kind of fuel cell module with hydro-thermal managerial ability, comprise the fuel cell pack, allocation units, unit voltage detecting unit and the electric power output unit that place in the external packing submodule, the external packing submodule comprises air intlet, air outlet slit, hydrogen inlet, hydrogen outlet, cooling medium inlet, coolant outlet, communication interface, the negative pole interface of fuel cell pack and the anode interface of fuel cell pack that is provided with on pack case and the pack case; Coolant inlet, coolant outlet, air intake, air outlet slit, hydrogen inlet are connected with fuel cell pack respectively with hydrogen outlet; The negative pole interface of fuel cell pack and the anode interface of fuel cell pack link to each other with the output of fuel cell pack, allocation units comprise hydrogen allocation units, air distribution unit and coolant allocation units, it is characterized in that described fuel cell module with hydro-thermal managerial ability also comprises Power Management Unit, step-down heating submodule and the aqueous water management submodule that places in the external packing submodule;

Described external packing submodule also comprises energy controller, energy-storage units, electric heating unit, hydrogen discharge mouth, ventilation air intake pipe interface and ventilation air-out pipe interface, described pack case inwall lays insulation material, described hydrogen discharge mouth, ventilation air intake pipe interface and ventilation air-out pipe interface are arranged on the pack case, ventilation air intake pipeline is connected with the air compressor machine/blower fan outlet of fuel cell generation, and the floss hole of ventilation air-out pipeline and fuel cell system links to each other; Described energy controller is in pack case, the energy controller input links to each other with the positive and negative level of fuel cell pack respectively, the energy controller output links to each other with electric heating unit with energy-storage units respectively, and the electric heating element of electric heating unit is arranged in the heat insulation material surface of pack case inwall; Described communication interface links to each other with the electronic control unit module of Power Management Unit; The hydrogen discharge mouth of described fuel cell module links to each other with the hydrogen outlet of fuel cell pack with impulse electromagnetic valve through the aqueous water water trap, and described fuel cell pack is fixed on the pack case by end plate;

Described Power Management Unit comprises the electronic control unit module, air temperature sensor, air pressure probe, the hydrogen temperature transducer, the Hydrogen Vapor Pressure transducer, the coolant temperature transducer, the pressure cooling medium transducer, voltage sensor, current sensor and rat tail, air temperature sensor and air pressure probe are connected on the fuel cell pack air inlet passageway, hydrogen temperature transducer and Hydrogen Vapor Pressure transducer are connected on the fuel cell pack hydrogen inlet passage, coolant temperature transducer and pressure cooling medium transducer are connected on the fuel cell pack cooling medium inlet passage, voltage sensor and current sensor are connected on the fuel cell pack electricity outlet line, air temperature sensor, air pressure probe, the hydrogen temperature transducer, the Hydrogen Vapor Pressure transducer, the coolant temperature transducer, the pressure cooling medium transducer, voltage sensor is connected with the electronic control unit module with holding wire with current sensor;

Described step-down heating submodule comprises the import unidirectional valve, the outlet unidirectional valve, heating water tank, resistance and circulating pump, the heating water tank outlet links to each other with the coolant inlet of fuel cell pack coolant allocation units, heating water tank inlet enters the mouth by import unidirectional valve and fuel cell module coolant on the pack case and links to each other, outlet unidirectional valve inlet links to each other with the coolant outlet of fuel cell pack coolant allocation units, outlet unidirectional valve outlet links to each other with fuel cell module coolant outlet on the pack case, circulating-pump outlet links to each other with heating water tank, pump entry links to each other with the coolant outlet of fuel cell pack coolant allocation units, the control switch of circulating pump links to each other with the electronic control unit module, be provided with resistance in the heating water tank, resistance one end is connected to the negative pole of fuel cell pack, and the other end is connected to the positive pole of fuel cell pack by the electronic control unit module;

Described aqueous water management submodule is by the hydrogen water knockout drum, the air water knockout drum, aqueous water water trap and impulse electromagnetic valve are formed, fuel cell module air intake on the pack case links to each other with the air intake of the air distribution unit of fuel cell pack by the air water knockout drum, fuel cell module air outlet slit on the pack case shell links to each other with the air outlet slit of the air distribution unit of fuel cell pack, fuel cell module hydrogen inlet on the pack case links to each other with the hydrogen inlet of fuel cell pack hydrogen allocation units by the hydrogen water knockout drum, the fuel cell module hydrogen outlet links to each other with the hydrogen outlet of fuel cell pack hydrogen allocation units on the pack case, aqueous water water trap one end links to each other with fuel cell module hydrogen outlet on the pack case, the other end links to each other with fuel cell module hydrogen discharge mouth on the pack case by impulse electromagnetic valve, the aqueous water water trap places the minimum point of fuel cell module, and impulse electromagnetic valve links to each other with the electronic control unit module of Power Management Unit.

A kind of fuel cell module of the present invention with hydro-thermal managerial ability, it is characterized in that described electronic control unit module is by the single battery voltage Acquisition Circuit, temperature collection circuit, the pressure acquisition circuit, the current acquisition circuit, the total voltage Acquisition Circuit, the resistance switch drive circuit, the pulse electromagnetic valve-driving circuit, the circulating pump switch driving circuit, communicating circuit and digital core are formed, described single battery voltage Acquisition Circuit, temperature collection circuit, the pressure acquisition circuit, the current acquisition circuit, the total voltage Acquisition Circuit respectively with the fuel cell pack monocell, air temperature sensor, the hydrogen temperature transducer, the coolant temperature transducer, air pressure probe, the Hydrogen Vapor Pressure transducer, the pressure cooling medium transducer, voltage sensor, current sensor connects by interface with holding wire, described resistance switch drive circuit is electrically connected with step-down heating submodule resistance, the break-make of control step-down heating submodule resistance, described pulse electromagnetic valve-driving circuit is connected with the controller of the impulse electromagnetic valve of aqueous water management submodule, the break-make of control impuls electromagnetically operated valve, described circulating pump switch driving circuit is electrically connected with step-down heating submodule circulating pump, the start and stop of control step-down heating submodule circulating pump, described communicating circuit is connected with the fuel cell generation control unit by communication interface.

A kind of fuel cell module of the present invention with hydro-thermal managerial ability, it is characterized in that described aqueous water water trap is made up of water knockout drum, incubation chamber and PTC thermistor, water knockout drum places in the incubation chamber, the PTC thermistor places the catchment outside of part of water knockout drum in the incubation chamber, and the PTC thermistor is connected with the load line of fuel cell.

A kind of fuel cell module of the present invention with hydro-thermal managerial ability, the energy controller that it is characterized in that described external packing submodule comprises the energy controller digital core, voltage changer, charge switch, heater switch, energy controller voltage acquisition module and energy controller temperature collect module, voltage changer is the voltage changer that voltage-dropping type constant current output circuit constitutes, the energy controller digital core is connected with voltage changer, be connected with the energy controller temperature collect module with the energy controller voltage acquisition module respectively by holding wire, the voltage changer input links to each other with negative pole with the positive pole of fuel cell module respectively, the voltage changer output is connected with energy-storage units by charge switch, the energy controller voltage acquisition module is connected with energy-storage units, and energy-storage units is connected with electric heating unit by heater switch; Described external packing submodule energy-storage units is ultracapacitor, lithium ion battery or Ni-MH battery; The electric heating element of described external packing submodule electric heating unit is heating wire, ribbon heater or electrothermal tube.

A kind of fuel cell module with hydro-thermal managerial ability of the present invention is characterized in that described ventilation air intake pipe interface and ventilation air-out pipe interface place respectively on a pair of opposed risers of pack case, highly are positioned at apart from 1/5 place, pack case top.

A kind of management control method of the present invention with fuel cell module of hydro-thermal managerial ability, it is characterized in that described management control method comprises power management control method, step-down heating management control method, fuel cell pack thermal-insulation control method and aqueous water management control method, described power management control method is: the electronic control unit module is according to setting fuel cell pack the dispatch from the factory output voltage and the output current of polarization curve, attenuation characteristic and online detection fuel cell module, the output state of on-line analysis fuel cell and current maximum fan-out capability; Described step-down heating management control method is: the electronic control unit module is by voltage sensor and coolant temperature sensor fuel cell module total voltage and coolant temperature, and the operating state of the energy management unit of submodule operating state and external packing submodule is heated in the control step-down; Described fuel cell pack thermal-insulation control method is: energy controller is controlled the heat tracing of fuel cell module by coolant temperature sensor fuel cell module coolant temperature; Described aqueous water management control method is: the electronic control unit module is by inner single battery voltage detecting unit, coolant temperature transducer and current sensor senses fuel cell pack single battery voltage, fuel cell stack operation temperature and fuel cell module output current, and the control aqueous water is managed the submodule operating state.

A kind of management control method of the present invention with fuel cell module of hydro-thermal managerial ability, it is characterized in that the control of described step-down heating submodule operating state comprises control of resistance on off operating mode and circulating pump start and stop State Control: described resistance on off operating mode is controlled to be: digital core is gathered the temperature T of coolant by temperature collection circuit, when temperature T is lower than set point T1, connect resistance by the control of resistance switch drive circuit, when temperature T is higher than set point T2, the output voltage V that digital core is gathered fuel cell pack to voltage collection circuit is judged, when the fuel cell pack output voltage V surpasses set point V1, then connect resistance by the control of resistance switch drive circuit, as fuel cell pack output voltage V low pressure set point V2, then by resistance switch drive circuit control off resistance; Described circulating pump start and stop State Control is: digital core is gathered the temperature T of coolant by temperature collection circuit, when temperature T is lower than set point T1, connect circulating pump by the control of circulating pump switch driving circuit, make coolant in the fuel cell module inner loop, be convenient to fuel cell module intensification and insulation, when temperature T is higher than set point T1, disconnect circulating pump by the control of circulating pump switch driving circuit, make the coolant circulation of the fuel cell system of coolant and fuel cell module outside, be convenient to reduce the battery pile temperature.

A kind of management control method of the present invention with fuel cell module of hydro-thermal managerial ability, its

Be characterised in that described external packing submodule fuel cell pack preservation and controlling is: the energy controller digital core charges to energy-storage units by the output current of control voltage changer, the energy controller digital core is gathered the voltage Ven of energy-storage units in real time by voltage acquisition module, if Ven surpasses set point Venset, then the energy controller digital core is controlled turn off charge switch, stop to charge to energy-storage units, the energy controller digital core is gathered fuel cell pack coolant temperature Tmod by temperature collect module, when Tmod is lower than set point Tmodset, then heater switch is connected in the control of the digital core of energy controller, gives the fuel cell module heat tracing by electrical heating elements.

A kind of management control method of the present invention with fuel cell module of hydro-thermal managerial ability, it is characterized in that described aqueous water management submodule operating state is controlled to be: electronic control unit module digital core is according to minimum single battery voltage, stack temperature and current integration are by pulse electromagnetic valve-driving circuit control impuls electromagnetic valve switch cycle and duty ratio, when fuel cell pack monomer battery voltage Vcellmin is lower than set point Vcellminset, then continuous blow-down is N time, the discharging cycle is Tcell, duty ratio is 50%, when the fuel cell pack monomer battery voltage all is higher than set point Vcellminset, the discharging duty ratio is constant DRnorm, discharging period T dr determines according to coolant temperature and fuel cell pack output current integration

A kind of management control method of the present invention with fuel cell module of hydro-thermal managerial ability, it is characterized in that described pulse electromagnetic valve-driving circuit is an electronic drive circuit, its structure is: the signal of electronic control unit module digital core links to each other with resistance I one end, the other end of resistance I links to each other with the base stage of triode I, the end of resistance II is connected with the collector electrode of triode I, the other end links to each other with the optocoupler input, the grounded emitter of triode I, the optocoupler output links to each other with collector electrode with triode II base stage respectively, the grounded emitter of triode II, the optocoupler output is communicated with impulse electromagnetic valve with the circuit that triode II collector electrode is connected, and triode II collector electrode is by diode ground connection.

Principle of the present invention is: by air turnover pipeline is set on pack case, the hydrogen of module internal leakage can in time be got rid of, by setting up the cooling water circulation in the pack case and being communicated with the cooling water of the outer fuel cell system of pack case, making the interior battery pile of module reach ideal in the short time is working temperature, simultaneously, in the cooling water tank in pack case resistance is set, the output of resistance and battery pile establishes a connection, make the average voltage of fuel cell pack be lower than 0.85V, hydrogen gas side by battery pile in pack case is provided with the aqueous water water trap, and utilize the aqueous water heating in the thermistor liquid towards water water trap to make it to enter hydrogen outlet after the gasification, make that hydrogen survey draining is more complete, convenient, by insulation material and heating unit are set in pack case, make the Controllable Temperature in the pack case adjustable, thereby make fuel cell module have more stable performance.

The invention has the beneficial effects as follows: can make fuel cell module enter desirable operating state fast, help improving stability, fail safe of module etc.

Description of drawings

The present invention has accompanying drawing 9 width of cloth, wherein

Accompanying drawing 1 is that fuel cell module of the present invention constitutes schematic diagram

Accompanying drawing 2 is that Power Management Unit constitutes schematic diagram

Accompanying drawing 3 is that the pulse electromagnetic valve-driving circuit constitutes schematic diagram

Accompanying drawing 4 is impulse electromagnetic valve control flow charts

Accompanying drawing 5 is hydrogen gas side discharge structure schematic diagrames

Accompanying drawing 6 is water trap structural representations

Accompanying drawing 7 is fuel cell module external packing structural representations

Accompanying drawing 8 is energy manager structural representations

Accompanying drawing 9 is embodiment 40kw fuel cell module fuel cell pack connection diagrams

In the accompanying drawing, 100, fuel cell pack, 1001, fuel cell pack I, 1002, fuel cell pack II, 210, air intlet on the pack case, 220, air outlet slit on the pack case, 230, air distribution unit, 2301, fuel cell pack I air intake, 2302, fuel cell pack II air road inlet, 2303, fuel cell pack I air outlet slit, 2304, fuel cell pack II air way outlet, 240, the hydrogen water knockout drum, 310, hydrogen inlet on the pack case, 320, hydrogen outlet on the pack case, 330, the hydrogen allocation units, 3301 fuel cell pack I hydrogen inlets, 3302, fuel cell pack II hydrogen road inlet, 3303 fuel cell pack I hydrogen outlets, 3304, fuel cell pack II hydrogen way outlet, 340, the air water knockout drum, 350, the aqueous water water trap, 3501, dividing plate, 3502, aqueous water water trap water knockout drum, 3503, aqueous water water trap incubation chamber, 3504, aqueous water water trap water inlet, 3505, aqueous water water trap delivery port, 3506, the PTC thermistor, 360, impulse electromagnetic valve, 370 hydrogen discharge mouths, 410, cooling medium inlet on the pack case, 420, coolant outlet on the pack case, 430, the coolant allocation units, 4301, fuel cell pack I coolant inlet, 4302, fuel cell pack II coolant inlet, 4303, the outlet of fuel cell pack I coolant, 4304, the outlet of fuel cell pack II coolant, 440, the import unidirectional valve, 450, heating water tank, 460, resistance, 470, circulating pump, 480, the outlet unidirectional valve, 510, the electronic control unit module, 520, air temperature sensor, 530, air pressure probe, 540 hydrogen temperature transducers, 550, the Hydrogen Vapor Pressure transducer, 560, the coolant temperature transducer, 570, the pressure cooling medium transducer, 580, voltage sensor, 590, current sensor, 591,592, communication interface on the pack case, 5110, the single battery voltage Acquisition Circuit, 5111, temperature collection circuit, 5112, the pressure acquisition circuit, 5113, the current acquisition circuit, 5114, the total voltage Acquisition Circuit, 5115, the resistance switch drive circuit, 5116, the pulse electromagnetic valve-driving circuit, 51161, resistance I, 51162, triode I, 51163, resistance II, 51164, optocoupler, 51165, triode II, 51166, diode, 5117, the circulating pump switch driving circuit, 5118, communicating circuit, 5119, digital core, 610, the anode interface of the fuel cell pack on the pack case, 620, the negative pole interface of the fuel cell pack on the pack case, 6101, the positive pole of fuel cell pack I, 6102, the negative pole of fuel cell pack I, 6103, the positive pole of fuel cell pack II, 6104, the negative pole of fuel cell pack II, 710, pack case, 720, energy controller, 7200, the energy controller digital core, 7201, voltage changer, 7202, charge switch, 7203, heater switch, 7204, the energy controller voltage acquisition module, 7205, the energy controller temperature collect module, 730, energy-storage units, 740, electric heating unit, 750, ventilation air intake pipe interface, 760, ventilation air-out pipe interface, 800, air compressor machine/the blower fan of fuel cell generation.

Embodiment

Embodiment is the 40kw fuel cell module with hydro-thermal managerial ability.

Two 20kw fuel cell packs are arranged, and each battery pile joint number is 150 joints, and operating pressure is lower than 100kpa, and its rate of decay Vt is 10mV/h, and air side resistance index is 20kpa@50Nm3/h, and hydrogen gas side resistance index is 25kpa@10Nm3/h.

The air road, hydrogen road and the parallel connection of coolant road, electric power is output as parallel connection, as shown in Figure 9,1001 and 1002 are respectively fuel cell pack, fuel cell pack 1001 air intakes 2301 link to each other with fuel cell pack 1002 air roads inlet 2302 by air distribution unit 230, fuel cell pack 1001 air outlet slits 2303 link to each other with fuel cell pack 1002 air way outlets 2304 by air distribution unit 230, fuel cell pack 1001 hydrogen inlets 3301 link to each other with fuel cell pack 1002 hydrogen roads inlet 3302 by hydrogen allocation units 330, fuel cell pack 1001 hydrogen outlets 3303 link to each other with fuel cell pack 1002 air way outlets 3304 by hydrogen allocation units 330, fuel cell pack 1001 coolants inlet 4301 links to each other with fuel cell pack 1002 coolants inlet 4302 by coolant allocation units 430, the outlet 4303 of fuel cell pack 1001 coolants links to each other with fuel cell pack 1002 coolants outlet 4304 by coolant allocation units 430,6101 is the positive pole of

fuel cell pack

1001,6102 is the negative pole of

fuel cell pack

1001,6103 is the positive pole of

fuel cell pack

1002, and 6104 is the negative pole of fuel cell pack 1002.

Aqueous water water trap 350 as shown in Figure 6.3501: baffle plate, 3502: divide the water box, 3503: incubation chamber, 3504: hydrogen intake interface, 3505: hydrogen exhaust port, 3506:PTC thermistor (operating voltage: 150-300V, heating-up temperature: 150-250 ℃, rated power: 300W), impulse electromagnetic valve 360 bores are Φ 5mm.

Heating water tank 450 is of a size of 200 * 300mm for the self-control stainless steel water tank, and step-down heating resistor 460 is 5000W/18 Ω, and circulating water pump 470 flows are 6L/min, and unidirectional valve 440 and 480 bores are Φ 25mm.

Power Management Unit 510 is for being the control core device with single-chip microcomputer MC9S12DP256.Air temperature sensor 520, hydrogen temperature transducer 540 and coolant temperature transducer 560 are PT1000, air pressure probe 530, Hydrogen Vapor Pressure transducer 550 and pressure cooling medium transducer 570 ranges are 0～100kpa, output signal is 1～5V, voltage sensor 580 ranges are 0～500V, and current sensor 590 ranges are 0～300A.

7201 is buck type reduction voltage circuit in the energy manager 720, and with constant current mode output, 7202 and 7203 is switch relay GV50 by digital core 7200 in output control.Energy-storage units is Ni-MH battery 24V/40Ah, and heating tape power is 200W.

Claims

1. fuel cell module with hydro-thermal managerial ability, comprise the fuel cell pack, allocation units, unit voltage detecting unit and the electric power output unit that place in the external packing submodule, the external packing submodule comprises air intlet (210), air outlet slit (220), hydrogen inlet (310), hydrogen outlet (320), cooling medium inlet (410), coolant outlet (420), communication interface (591,592), the negative pole interface (620) of fuel cell pack and the anode interface (610) of fuel cell pack that is provided with on pack case (710) and the pack case; Coolant inlet (410), coolant outlet (420), air intake (210), air outlet slit (220), hydrogen inlet (310) are connected with fuel cell pack (100) respectively with hydrogen outlet (320); The negative pole interface (620) of fuel cell pack and the anode interface (610) of fuel cell pack link to each other with the output of fuel cell pack, allocation units comprise hydrogen allocation units (330), air distribution unit (230) and coolant allocation units (430), it is characterized in that described fuel cell module with hydro-thermal managerial ability also comprises Power Management Unit, step-down heating submodule and the aqueous water management submodule that places in the external packing submodule;

Described external packing submodule also comprises energy controller (720), energy-storage units (730), electric heating unit (740), hydrogen discharge mouth (370), ventilation air intake pipe interface (750) and ventilation air-out pipe interface (760), described pack case (710) inwall lays insulation material, described hydrogen discharge mouth (370), ventilation air intake pipe interface (750) and ventilation air-out pipe interface (760) are arranged on the pack case (710), ventilation air intake pipeline (750) is connected with the air compressor machine or blower fan (800) outlet of fuel cell generation, and the floss hole of ventilation air-out pipeline (760) and fuel cell system links to each other; Described energy controller (720) is in pack case (710), energy controller (720) input links to each other with the positive and negative level (610,620) of fuel cell pack (100) respectively, energy controller (720) output links to each other with electric heating unit (740) with energy-storage units (730) respectively, and the electric heating element of electric heating unit (740) is arranged in the heat insulation material surface of pack case (710) inwall; Described communication interface (591,592) links to each other with the electronic control unit module (510) of Power Management Unit; The hydrogen discharge mouth (370) of described fuel cell module links to each other with the hydrogen outlet of fuel cell pack with impulse electromagnetic valve (360) through aqueous water water trap (350), and described fuel cell pack (100) is fixed on the pack case by end plate;

Described Power Management Unit comprises electronic control unit module (510), air temperature sensor (520), air pressure probe (530), hydrogen temperature transducer (540), Hydrogen Vapor Pressure transducer (550), coolant temperature transducer (560), pressure cooling medium transducer (570), voltage sensor (580), current sensor (590) and rat tail, air temperature sensor (520) and air pressure probe (530) are connected on the fuel cell pack air inlet passageway, hydrogen temperature transducer (540) and Hydrogen Vapor Pressure transducer (550) are connected on the fuel cell pack hydrogen inlet passage, coolant temperature transducer (560) and pressure cooling medium transducer (570) are connected on the fuel cell pack cooling medium inlet passage, voltage sensor (580) and current sensor (590) are connected on the fuel cell pack electricity outlet line, air temperature sensor (520), air pressure probe (530), hydrogen temperature transducer (540), Hydrogen Vapor Pressure transducer (550), coolant temperature transducer (560), pressure cooling medium transducer (570), voltage sensor (580) is connected with electronic control unit module (510) with holding wire with current sensor (590);

Described step-down heating submodule comprises import unidirectional valve (440), outlet unidirectional valve (480), heating water tank (450), resistance (460) and circulating pump (470), heating water tank (450) outlet links to each other with the coolant inlet of fuel cell pack coolant allocation units (430), heating water tank (450) inlet by import unidirectional valve (440) and fuel cell module coolant on the pack case (710) enter the mouth (410) link to each other, outlet unidirectional valve (480) inlet links to each other with the coolant outlet of fuel cell pack coolant allocation units (430), outlet unidirectional valve (480) outlet exports (420) with fuel cell module coolant on the pack case (710) and links to each other, circulating pump (470) outlet links to each other with heating water tank (450), circulating pump (470) inlet links to each other with the coolant outlet of fuel cell pack coolant allocation units (430), the control switch of circulating pump (470) links to each other with electronic control unit module (510), be provided with resistance (460) in the heating water tank (450), resistance (460) one ends are connected to the negative pole (620) of fuel cell pack, and the other end is connected to the positive pole (610) of fuel cell pack by electronic control unit module (510);

Described aqueous water management submodule is by hydrogen water knockout drum (240), air water knockout drum (340), aqueous water water trap (350) and impulse electromagnetic valve (360) are formed, fuel cell module air intake (210) on the pack case (710) links to each other with the air intake of the air distribution unit (230) of fuel cell pack by air water knockout drum (240), fuel cell module air outlet slit (220) on the pack case (710) links to each other with the air outlet slit of the air distribution unit (230) of fuel cell pack, fuel cell module hydrogen inlet (310) on the pack case (710) links to each other with the hydrogen inlet of fuel cell pack hydrogen allocation units (330) by hydrogen water knockout drum (340), pack case (710) goes up fuel cell module hydrogen outlet (320) and links to each other with the hydrogen outlet of fuel cell pack hydrogen allocation units (330), aqueous water water trap (350) one ends link to each other with fuel cell module hydrogen outlet (320) on the pack case (710), the other end links to each other with fuel cell module hydrogen discharge mouth (370) on the pack case by impulse electromagnetic valve (360), aqueous water water trap (350) places the minimum point of fuel cell module, and impulse electromagnetic valve (360) links to each other with the electronic control unit module (510) of Power Management Unit.

2. a kind of fuel cell module according to claim 1 with hydro-thermal managerial ability, it is characterized in that described electronic control unit module (510) is by single battery voltage Acquisition Circuit (5110), temperature collection circuit (5111), pressure acquisition circuit (5112), current acquisition circuit (5113), total voltage Acquisition Circuit (5114), resistance switch drive circuit (5115), pulse electromagnetic valve-driving circuit (5116), circulating pump switch driving circuit (5117), communicating circuit (5118) and digital core (5119) are formed, described single battery voltage Acquisition Circuit (5110), temperature collection circuit (5111), pressure acquisition circuit (5112), current acquisition circuit (5113), total voltage Acquisition Circuit (5114) respectively with fuel cell pack (100) monocell, air temperature sensor (520), hydrogen temperature transducer (540), coolant temperature transducer (560), air pressure probe (530), Hydrogen Vapor Pressure transducer (550), pressure cooling medium transducer (570), voltage sensor (580), current sensor (590) connects by interface with holding wire, described resistance switch drive circuit (5115) is electrically connected with step-down heating submodule resistance (460), the break-make of control step-down heating submodule resistance (460), described pulse electromagnetic valve-driving circuit (5116) is connected with the controller of the impulse electromagnetic valve (360) of aqueous water management submodule, the break-make of control impuls electromagnetically operated valve (360), described circulating pump switch driving circuit (5117) is electrically connected with step-down heating submodule circulating pump (470), the start and stop of control step-down heating submodule circulating pump (470), described communicating circuit (5118) is connected with the fuel cell generation control unit by communication interface (591/592).

3. a kind of fuel cell module according to claim 1 with hydro-thermal managerial ability, it is characterized in that described aqueous water water trap is made up of water knockout drum (3502), incubation chamber (3503) and PTC thermistor (3506), water knockout drum (3502) places in the incubation chamber (3503), PTC thermistor (3506) place the interior water knockout drum of incubation chamber (3503) catchment the part the outside, PTC thermistor (3506) is connected with the load line of fuel cell.

4. a kind of fuel cell module according to claim 1 with hydro-thermal managerial ability, the energy controller (720) that it is characterized in that described external packing submodule comprises energy controller digital core (7200), voltage changer (7201), charge switch (7202), heater switch (7203), energy controller voltage acquisition module (7204) and energy controller temperature collect module (7205), voltage changer (7201) is the voltage changer that voltage-dropping type constant current output circuit constitutes, energy controller digital core (7200) is connected with voltage changer (7201), be connected with energy controller temperature collect module (7205) with energy controller voltage acquisition module (7204) respectively by holding wire, voltage changer (7201) input links to each other with negative pole (620) with the positive pole (610) of fuel cell module respectively, voltage changer (7201) output is connected with energy-storage units (730) by charge switch (7202), energy controller voltage acquisition module (7204) is connected with energy-storage units (730), and energy-storage units (730) is connected with electric heating unit (740) by heater switch (7203); Described external packing submodule energy-storage units (730) is ultracapacitor, lithium ion battery or Ni-MH battery; The electric heating element of described external packing submodule electric heating unit (740) is heating wire, ribbon heater or electrothermal tube.

5. a kind of fuel cell module according to claim 1 with hydro-thermal managerial ability, it is characterized in that described ventilation air intake pipe interface (750) and ventilation air-out pipe interface (760) place respectively on a pair of opposed risers of pack case, highly are positioned at apart from 1/5 place, pack case top.

6. the described a kind of management control method of claim 1 with fuel cell module of hydro-thermal managerial ability, it is characterized in that described management control method comprises the power management control method, step-down heating management control method, fuel cell pack thermal-insulation control method and aqueous water management control method, described power management control method is: electronic control unit module (510) is according to setting the fuel cell pack polarization curve that dispatches from the factory, the output voltage of attenuation characteristic and online detection fuel cell module and output current, the output state of on-line analysis fuel cell and current maximum fan-out capability; Described step-down heating management control method is: electronic control unit module (510) detects fuel cell module total voltage and coolant temperature by voltage sensor (580) and coolant temperature transducer (570), control step-down heating submodule operating state; Described fuel cell pack thermal-insulation control method is: energy controller (720) detects the fuel cell module coolant temperature by coolant temperature transducer (570), the heat tracing of control fuel cell module; Described aqueous water management control method is: electronic control unit module (510) detects fuel cell pack single battery voltage, fuel cell stack operation temperature and fuel cell module output current by inner single battery voltage detecting unit, coolant temperature transducer (570) and current sensor (590), control aqueous water management submodule operating state.

7. a kind of management control method according to claim 6 with fuel cell module of hydro-thermal managerial ability, it is characterized in that the control of described step-down heating submodule comprises control of resistance (460) on off operating mode and circulating pump (470) start and stop control: described resistance (460) on off operating mode is controlled to be: digital core (5119) is gathered the temperature T of coolant by temperature collection circuit (5111), when temperature T is lower than set point T1, connect resistance (460) by resistance switch drive circuit (5115) control, when temperature T is higher than set point T2, the output voltage V that digital core (5119) is gathered fuel cell pack to total voltage Acquisition Circuit (5114) is judged, when the fuel cell pack output voltage V surpasses set point V1, then connect resistance (460) by resistance switch drive circuit (5115) control, as fuel cell pack output voltage V low pressure set point V2, then by resistance switch drive circuit (5115) control off resistance (460); The disconnected State Control of described circulating pump is: digital core (5119) is gathered the temperature T of coolant by temperature collection circuit (5111), when temperature T is lower than set point T1, connect circulating pump (470) by switch driving circuit (5115) control, make coolant in the fuel cell module inner loop, be convenient to fuel cell module intensification and insulation, when temperature T is higher than set point T1, disconnect circulating pump (470) by switch driving circuit (5115) control, make the coolant circulation of the fuel cell system of coolant and fuel cell module outside, be convenient to reduce the battery pile temperature.

8. a kind of management control method according to claim 6 with fuel cell module of hydro-thermal managerial ability, it is characterized in that described external packing submodule fuel cell pack preservation and controlling is: energy controller digital core (7200) is given energy-storage units (730) charging by the output current of control voltage changer (7201), energy controller digital core (7200) is gathered the voltage Ven of energy-storage units in real time by voltage acquisition module (7204), if Ven surpasses set point Venset, then energy controller digital core (7200) is controlled turn off charge switch (7202), stop to charge to energy-storage units (730), energy controller digital core (7200) is gathered fuel cell pack coolant temperature Tmod by temperature collect module (7205), when Tmod is lower than set point Tmodset, then heater switch (7203) is connected in the control of the digital core (7200) of energy controller (720), gives the fuel cell module heat tracing by electrical heating elements (740).

9. a kind of management control method according to claim 6 with fuel cell module of hydro-thermal managerial ability, it is characterized in that described aqueous water management submodule is controlled to be: electronic control unit module (510) digital core (5119) is according to minimum single battery voltage, stack temperature and current integration are by pulse electromagnetic valve-driving circuit (5116) control impuls electromagnetically operated valve (360) switch periods and duty ratio, when fuel cell pack monomer battery voltage Vcellmin is lower than set point Vcellminset, then continuous blow-down is N time, the discharging cycle is Tcell, duty ratio is 50%, when the fuel cell pack monomer battery voltage all is higher than set point Vcellminset, the discharging duty ratio is constant DRnorm, and discharging period T dr determines according to coolant temperature and fuel cell pack output current integration.

10. a kind of management control method according to claim 9 with fuel cell module of hydro-thermal managerial ability, it is characterized in that described pulse electromagnetic valve-driving circuit (5116) is an electronic drive circuit, its structure is: the signal of electronic control unit module (510) digital core (5119) links to each other with resistance I (51161) one ends, the other end of resistance I (51161) links to each other with the base stage of triode I (51162), the end of resistance II (51163) is connected with the collector electrode of triode I (51162), the other end links to each other with optocoupler (51164) input, the grounded emitter of triode I (51162), optocoupler (51164) output links to each other with collector electrode with triode II (51165) base stage respectively, the grounded emitter of triode II (51165), the circuit that optocoupler (51164) output is connected with triode II (51165) collector electrode is communicated with impulse electromagnetic valve (360), and triode II (51165) collector electrode is by diode (51166) ground connection.