CN102235274A - Liquefied fuel power system and method for operating same - Google Patents

Abstract

The invention discloses a liquefied fuel power system which comprises an engine and a fuel supply system for supplying gas fuel to the engine. The fuel supply system comprises a vaporizing device and a heating device, wherein the vaporizing device is configured to vaporize liquid fuel into gas fuel so as to supply the gas fuel to the engine; the heating device is coupled with the vaporizing device through a cooling liquid circulating system so as to provide the heat for vaporizing the liquid fuel into the gas fuel. In addition, the invention also provides a method for operating the liquefied fuel power system. According to the liquefied fuel power system, the heating device can be ignited before cold start so as to preheat the vaporizing device and further provide enough gas fuel for the engine during cold start, improve the starting performance and the exhaust performance of the engine and improve the environmental suitability of the engine.

Description

Liquefied fuel power system and the method that is used to operate this liquefied fuel power system

Technical field

The present invention relates to the technical field of gas fuel engine, relate more particularly to liquefied fuel power system and the method that is used to operate this liquefied fuel power system.

Background technique

Along with increasing rapidly of China's rapid economic development and vehicle population, China is being faced with many baptisms aspect energy development, such as the energy source of car demand increase, the national energy security situation is urgent, environmental protection requirement strictness etc.Therefore, the substitute fuel of development cleaning, control vehicle discharge of poisonous waste has become ten minutes important and pressing task in the vehicle development strategy.

The liquefied fuel motor, such as LNG Liquefied natural gas (LNG) motor, coming with liquefied fuel is that vehicle provides power, numerous advantages such as discharging is low, the continuation of the journey mileage is long that it has.Therefore, the application such as the liquefied fuel motor of LNG motor is current a kind of development trend.This liquefied fuel that the liquefied fuel motor uses stores with the cryogenic liquide form usually, and converts the fuel of liquid form to gas form by vaporizing unit and offer motor.

In some areas of China, the vehicle that the LNG motor is housed has begun to drop into actual use at present, but the LNG motor still is faced with some problems in actual applications.Northern area in China, winter temperature are low especially usually, sometimes even reach subzero 30 to 40 degrees below zero.Common LNG jar leads to when bringing into use or can normal flow go out liquid fuel under higher temperature, and when temperature is low or after having used a period of time, the flow of liquid fuel will diminish, when being lower than certain temperature even can not trickle fuel.Therefore this can cause LNG engine start difficulty.Present at the LNG jar that also can obtain under lower temperature, normally to flow out LNG on the market, however this LNG jar need use special made, and its manufacture cost is very high.

In addition, make the LNG vaporization need a large amount of heats.When starting cold, may can't provide enough heats to be used for vaporization because ambient temperature is crossed to hang down, thereby cause that vaporization is bad.The air feed deficiency that this can cause then to the LNG motor causes LNG engine start difficulty.

In addition, under situation, can cause that also burning is insufficient, thereby further cause deterioration of emission LNG motor air feed deficiency.

Summary of the invention

In view of this, the invention discloses a kind of improved technological scheme, be used to solve or to small part, alleviate the above-mentioned problem that occurs in the prior art.

According to a first aspect of the invention, provide a kind of liquefied fuel power system.The fuel system that this liquefied fuel power system can comprise motor and be used for supplying to motor vaporized fuel.Wherein this fuel system can comprise: vaporizing unit, being configured to vaporization of liquid fuel is that vaporized fuel is to be supplied to motor, and heating equipment, it is by a coolant circulation system and the coupling of described vaporizing unit, so that the heat that liquefied fuel is vaporized into vaporized fuel to be provided to described vaporizing unit.

A mode of execution according to a first aspect of the invention, this vaporizing unit also by another coolant circulation system and motor coupling, are vaporized into vaporized fuel with the heat that is used to spontaneous motivation cooling liquid with liquefied fuel.

Another mode of execution according to a first aspect of the invention, this heating equipment are configured to provide the heat that liquefied fuel is vaporized into vaporized fuel at engine start forward direction vaporizing unit at least.

A mode of execution more according to a first aspect of the invention, this fuel system also comprises: the device for storing liquid of storing liquid fuel, it is via first pipeline and the coupling of described vaporizing unit, to supply liquefied fuel to described vaporizing unit; And the caisson that stores vaporized fuel, it, and enters the mouth with motor fuel via the 3rd pipeline and to link to each other to provide vaporized fuel to motor receiving the vaporized fuel that vaporization obtains via second pipeline and vaporizing unit coupling.In this embodiment, this caisson is also via the 4th pipeline and heating equipment coupling, so that the vaporized fuel of heated cooling fluid to be provided to heating equipment.This heating equipment utilizes vaporized fuel ignition remaining in the described caisson in addition.

Another mode of execution according to a first aspect of the invention, this fuel system also comprises first temperature transducer that is arranged in coolant circulation system, the temperature that is used for sensing coolant circulation system liquid, wherein motor is configured to start when sensed temperature surpasses the starting threshold value.

Another mode of execution according to a first aspect of the invention, this fuel system comprise that also configuration is used for regularly first timer is carried out in the operation of heating equipment, and motor is configured in response to this first timer overtime and start.

A mode of execution more according to a first aspect of the invention, this liquefied fuel power system can also comprise: second temperature transducer that is arranged in described another coolant circulation system, the coolant temperature that is used for aforementioned another coolant circulation system of sensing, wherein heating equipment is configured in when second temperature transducer institute sensed temperature surpasses setting threshold and stops to provide heat to vaporizing unit.

Another mode of execution according to a first aspect of the invention, this liquefied fuel power system can also comprise: be configured to regularly second timer is carried out in the operation of heating equipment, wherein heating equipment is configured in response to second timer overtime and stop to provide heat to vaporizing unit.

Another mode of execution according to a first aspect of the invention, this liquefied fuel power system can also comprise: supercharging device, configuration is used to increase the internal pressure of device for storing liquid.This supercharging device is a self-supercharging device, for example is empty bath formula vaporizer.

A mode of execution more according to a first aspect of the invention, this liquefied fuel power system can also comprise: guiding device, configuration is used for the hot gas that heating equipment gives off is guided to the self-supercharging device place.

Another mode of execution according to a first aspect of the invention, heating equipment also with the coupling of the after-treatment system of vehicle, introduce in the described after-treatment system with the hot gas that heating equipment is given off and to handle.

A mode of execution more according to a first aspect of the invention, this liquefied fuel power system can also comprise the warm braw heat-exchanger rig, it is communicated with cooling liquid in the heating equipment, to provide warm braw by the heat exchange with the heating equipment cooling liquid.

A mode of execution more according to a first aspect of the invention, this liquefied fuel power system also comprises one or more pump arrangement that is arranged in the described coolant circulation system.

According to a second aspect of the invention, provide a kind of method of operating the liquefied fuel power system.This method can comprise: utilize vaporized fuel remaining in this system to come the ignition heating equipment; Utilize heating equipment to come the vaporizing unit that is used for liquefied fuel is vaporized into vaporized fuel is preheated; And after piloting engine, come heating and vaporizing device by heat from engine coolant.

A mode of execution according to a second aspect of the invention, described motor can be in startings when one of any that meets the following conditions: the temperature that is used to preheat the heating equipment cooling liquid of vaporizing unit reaches the starting threshold value; And preheat and carried out the very first time section of setting.

Another mode of execution according to a second aspect of the invention, this method can also be included in to meet the following conditions and stop preheating vaporizing unit when one of any: the temperature that is used to heat the engine coolant of described vaporizing unit reaches outage threshold; And preheat and carried out second time period of setting.

A mode of execution more according to a second aspect of the invention, this method can also comprise following wherein any one or multinomial: the hot gas that described heating equipment is given off guides to the self-supercharging device place of the device for storing liquid that is used to store liquefied fuel, so that increase the internal pressure of this device for storing liquid by heat exchange; The hot gas that heating equipment is given off is introduced in the after-treatment system and is handled; And provide the warm braw heat-exchanger rig of warm braw that heat is provided for being used to by heating equipment.

A mode of execution more according to a second aspect of the invention, this self-supercharging device are empty bath formula vaporizers.

According to a third aspect of the invention we, also provide a kind of Vehicular system, comprised liquefied fuel power system according to arbitrary mode of execution in the above-mentioned first aspect.

According to technological scheme of the present invention, adopt the technology of heating equipment and motor joint work, before the LNG engine start, utilize heating equipment that vaporizing unit is preheated, carry out the required heat of vaporization and during the normal running of LNG motor, can provide by motor.Thereby, when LNG motor starting cold, provide enough heats for the LNG vaporizing unit, the rock gas of pressure, temperature stabilization is provided for motor.Simultaneously, according to preferred embodiment, can also promote the outflow of liquefied fuel in the storage tank.Thereby, according to the present invention, can be for motor provide enough gaseous fuels when starting cold, thus improve the starting performance and the emission performance of motor, improve the environmental suitability of LNG motor.

Description of drawings

By shown mode of execution in conjunction with the accompanying drawings is elaborated, above-mentioned and other features of the present invention will be more obvious.In accompanying drawing of the present invention, identical label is represented same or analogous parts, wherein:

Fig. 1 shows liquefied fuel power system of the prior art.

Fig. 2 shows the schematic representation according to the liquefied fuel power system of an embodiment of the invention.

Fig. 3 shows the cross-sectional side view that can use in an embodiment of the invention.

Fig. 4 shows the schematic representation of the liquefied fuel supply system that can use in an embodiment of the invention.

Fig. 5 shows the flow chart that is used to operate the method for this liquefied fuel power system according to an embodiment of the invention.

Embodiment

Hereinafter, the method for by mode of execution liquefied fuel power system provided by the invention and being used to being operated the liquefied fuel power system with reference to the accompanying drawings is described in detail.Should be appreciated that following mode of execution only is illustrative, and not restrictive.

At first, will be described with reference to Figure 1 liquefied fuel power system of the prior art.Fig. 1 shows the schematic representation according to the liquefied fuel power system 100 of prior art.

As shown in Figure 1, this liquefied fuel power system 100 can comprise fuel system 101 (illustrating with frame of broken lines among the figure) and motor 102, and wherein fuel system 101 is via coolant circulation system 103 (illustrating with frame of broken lines among the figure) and motor 102 couplings.This fuel system 101 provides vaporized fuel for motor 102.Motor 102 all motors of LNG in this way are used for to provide power for vehicle by combustion of gaseous fuel.This coolant circulation system 103 by start pusher side heat exchanger, fuel system side heat exchanger, 101 cooling liquid pipeline and 102 cooling liquid pipeline is formed from fuel system 101 to motor coolant circuit from motor 102 to fuel system.Heated cooling liquid sends fuel system side heat exchanger to via the cooling liquid pipeline in starting the pusher side heat exchanger, so that generate the required heat of vaporized fuel for fuel system provides.Further turn back to behind the cooling liquid process fuel system side heat exchanger and start the pusher side heat exchanger so that reheated through pipeline.

This fuel system 101 can comprise device for storing liquid 1011, vaporizing unit 1012 and caisson 1013.Device for storing liquid 1013 is liquid containers of LNG jar for example, wherein stores liquefied fuel.Device for storing liquid 1011 provides liquefied fuel by first pipeline 1014 to vaporizing unit 1012.This device for storing liquid 1011 can refill liquefied fuel.Vaporizing unit 1012 for example can be the water-bath type vaporizer, the liquefied fuel that it receives from device for storing liquid 1011 via first pipeline 1014, and by with absorb heat via coolant circulation system 103 from the heat exchange of the cooling liquid of motor 102, make liquefied fuel be vaporized into vaporized fuel.For example LNG is converted to compressed natural gas (CNG).Vaporized fuel after vaporizing unit 1012 vaporizations enters in the caisson 1013 by second pipeline 1015 that is connected between vaporizing unit 1012 and the caisson 1013.Vaporized fuel in the caisson 1013 is supplied to the fuel inlet of motor 102 by the 3rd pipeline 1016 between caisson 1013 and the motor 102.This motor 102 for example is the LNG motor, its vaporized fuel (for example NG) that utilizes vaporization to obtain generation power that burns, thus driving wheel is rotated.

In motor 102 working procedure, burning can produce a large amount of heat, and the temperature that is used for the cooling liquid of cooled engine 102 also is very high for ambient temperature.This high temperature coolant can offer vaporizing unit 1012 by coolant circulation system 103, in order to the liquefied fuel in the vaporizing unit 1012 is heated, thereby provides vaporization required heat for it.The waste gas of motor 102 burnings for example enters in the after-treatment system further to be handled.

This system 100 can further include the heat exchange quantity controller 1017 on the pipeline that is positioned at coolant circulation system 103, it is according to the flow of the temperature control cooling liquid of cooling liquid, thereby the temperature of the vaporized fuel that the heat that control offers vaporizing unit produces with control vaporization thus, and then prevent that the intake temperature of motor is too high and cause engine knock.In addition, liquefied fuel power system 100 shown in Figure 1 can also comprise intercooler 104, and its temperature that is used for entering motor 102 vaporized fuel is reduced to suitable temperature.

Yet, as mentioned before,, when starting cold, especially under the situation that ambient temperature is lower, can cause the pressure in the liquid container lower, thereby make the outflow difficulty of liquid fuel according to the liquefied fuel power system 100 of the prior art.In addition, the required heat of vaporizing also under-supply situation can occur, causes the undercharge of LNG.Therefore, there are problems such as the LNG starting performance is bad, environmental suitability is poor, discharging is bad.

The inventor is devoted to the research to the problems referred to above always.In actual applications, the inventor notices, after each shutting engine down operation, is generally used for storing in the gas holder 6 of vaporized fuel and can retains some vaporized fuel.These gaseous fuels can offer the LNG motor usually next time and be used by it when starting.

The inventor at the problems of the prior art, has proposed a kind of brand-new solution after noticing this situation.According to this solution, for the liquefied fuel power system provides one to be used for vaporizing unit is carried out pre-warmed heating equipment, and the vaporized fuel that these are remaining is incorporated in the heating equipment, as the fuel that is used for the ignition heating equipment.For this reason, the invention provides a kind of improved liquefied fuel power system.

Hereinafter, with the liquefied fuel power system that at first is described with reference to Figure 2 according to the embodiment of the invention.Fig. 2 shows the schematic representation according to the liquefied fuel power system 200 of an embodiment of the invention.

As shown in Figure 2, liquefied fuel power system 200 of the present invention is similar with the liquefied fuel power system 100 of prior art, also comprises fuel system 201 (being illustrated by frame of broken lines), motor 202 and coolant circulation system 203 (illustrating with frame of broken lines).This fuel system 201 can comprise device for storing liquid 2011, vaporizing unit 2012 and caisson 2013, connect device for storing liquid 2011 and vaporizing unit 2012 first pipeline 2014, is connected second pipeline 2015 of vaporizing unit 2012 and caisson 2013 and the 3rd pipeline 2016 of connection caisson 2013 and motor 202.This system also comprises the heat exchange quantity controller 2017 on the pipeline that is positioned at coolant circulation system 203, and these parts all respective element with Fig. 1 are similar, do not do detailed description at this.

According to the embodiment of the present invention, this fuel system 201 can also comprise heating equipment 2018, and this heating equipment for example is a combustion heater, and it is connected with caisson 2013 by the 4th pipeline 2019.When initial, heating equipment 2018 will utilize the remaining vaporized fuel ignition in the caisson 2013.

This fuel system 201 further comprises another coolant circulation system 2020, and it comprises heating equipment side heat exchanger, vaporizing unit side heat exchanger, 2012 liquid line and 2018 liquid line is formed from vaporizing unit 2012 to heating equipment coolant circuit from heating equipment 2018 to vaporizing unit.Offer vaporizing unit 2012 by these heating equipment 2018 heated liquid via this another coolant circulation system 2020, preheat with liquid towards fuel in vaporizing unit 2012.The cooling liquid that flows out from vaporizing unit 2010 further turns back to heating equipment side heat exchanger by pipeline, thereby forms circulation loop.In this another coolant circulation system 2020, can comprise one or more pump arrangement 2021, be used to promote circulating of circulatory system internal coolant.

According to the embodiment of the present invention, before motor 202 starting colds, at first remaining vaporized fuel in the caisson 2013 is guided in the heating equipment 2018, rather than motor 202 is provided as prior art.Heating equipment 2018 utilizes these remaining vaporized fuel ignitions, and takes fire in the firing chamber, and the heat that combustion process produces passes to cooling liquid by heat exchange.This high temperature coolant is circulated to vaporizing unit 2012 places in this another coolant circulation system 2020, by the heat exchanger in the vaporizing unit 2012 liquefied fuel in the vaporizing unit 2012 is heated vaporization.The vaporized fuel (for example CNG) that obtains of the vaporization further burning for heating equipment 2018 provides fuel, thereby makes that heating equipment 2018 can sustained combustion, and continues to provide heat for the vaporization of vaporizing unit 2012.

After preheating to a certain degree, for example after the tolerance of vaporization satisfies the requirement of starting LNG motor substantially, can pilot engine 202 to vaporizing unit 2012.

In an embodiment of the invention, can comprise a temperature transducer that is arranged in this another coolant circulation system 2020, this temperature transducer can be arranged on any suitable position in this another coolant circulation system 2020, be used for coming the coolant temperature of this another coolant circulation system 2020 of sensing, particularly turn back to the coolant temperature of heating equipment 2018 from vaporizing unit 2012.Especially, this temperature transducer can be provided with from vaporizing unit 2012 to heating equipment on 2018 the cooling liquid pipeline, also can be arranged on the cooling liquid outlet place of vaporizing unit 2012 or the cooling liquid ingress of heating equipment 2018.When the water temperature of sensing reaches the cranking temperature threshold value of setting, pilot engine.

In according to another embodiment of the present invention, can comprise timer, be used for timing is carried out in the operation of heating equipment 2018, the time-out time of this timer is set to and is used to pilot engine 202 starting time section.When this timer expiry, that is, heating equipment 2018 has been operated starting time of setting during section, pilots engine.

After motor 202 startings, a part of vaporized fuel in the caisson 2013 will provide to motor 202 and burn.The cooling liquid that is used for cooled engine can provide as prior art to vaporizing unit 2012 places, thereby with heating equipment 2018 vaporizing unit 2012 is heated, and further promotes the vaporization of liquefied fuel.

Further, after only relying on motor that enough heat just can be provided for vaporizing unit 2012, consideration for energy saving and safety can stop the operation that preheats of 2018 pairs of vaporizing units 2012 of heating equipment, even heater stop provides heat to vaporizing unit.In one embodiment according to the present invention, can comprise another temperature transducer, this another temperature transducer can be arranged on the suitable position of working as of appointing in the coolant circulation system 2017, coolant temperature in order in this coolant circulation system 2017 of sensing particularly turns back to the coolant temperature of starting pusher side from vaporizing unit 2012.Especially, this temperature transducer can be provided with from vaporizing unit 2012 to motor on 202 the pipeline, also can be arranged on the cooling liquid ingress of motor 202, perhaps is arranged on the cooling liquid outlet place of vaporizing unit 2012.When the temperature of the engine coolant that records reach setting stop temperature threshold the time, can stop the operation that preheats of 8 pairs of vaporizing units 2 of heating equipment.For example, can close heating equipment 2018 and motor-drive pump pump apparatus 2021 is quit work.

According to an embodiment of the invention, also can after preheating the time period of operating and setting, heating equipment 2018 execution stop the operation that preheats of 2018 pairs of vaporizing units 2012 of heating equipment.For example, can comprise being used for that the time-out time of this timer is set to and stops pre-warmed stop time section to preheating another timer that timing is carried out in operation.When this timer expiry, can stop the operation that preheats of 2018 pairs of vaporizing units 2012 of heating equipment.

According to an embodiment of the invention, device for storing liquid 2011 can also be equipped with supercharging device 2022, for example be empty bath formula vaporizer, configuration is used for increasing by heat exchange the internal pressure of the device for storing liquid 2011 of storage liquefied fuel, thereby impels liquefied fuel to flow out in liquid container 2011.This supercharging device is communicated with the liquid container fluid, and can the absorbing environmental heat so that the temperature of the liquid fuel of this supercharging device of flowing through raises, volumetric expansion, thereby make jar internal pressure increase.Yet when ambient temperature was extremely low, possibly can't exchange by normal heat increased the liquid container internal pressure.

At this problem, the inventor considers that in heating equipment 2018 combustion processes can produce a large amount of waste gas, this waste gas is high-temperature gas.Waste gas can provide to after-treatment system by the tube equipment (not shown) between the after-treatment system that is connected heating equipment and vehicle usually, further handles, to improve emission performance.Based on above-mentioned situation, the inventor is susceptible to and can adopts guiding device, honeycomb duct etc. for example, and at least a portion gas that heating equipment is given off guides to supercharging device 2022 places, thereby near the ambient temperature the increase self-supercharging device, promote its under low temperature environment from pressurization.

In addition, can such as conditions such as pressure, temperature, liquid levels, regulate supercharging device 2022 automatically, maintain proper level with internal pressure with device for storing liquid 2011 according to the interior condition in the device for storing liquid 2011.

What describe hereinbefore is to stop preheating vaporizing unit by closing heating equipment and water pump.But the present invention is not limited thereto.

In an embodiment of the invention, the cooling liquid via heating equipment 2018 heating can be guided to any other parts place that needs heating, such as being used for warming oneself in windshield demist, the car etc.For example, in an embodiment of the invention, can also comprise the warm braw heat-exchanger rig, it can be communicated with described heating equipment 2018 fluids, and carries out heat exchange with the heating equipment cooling liquid, thereby warm braw is provided.

It will be understood by those skilled in the art that above-mentioned starting threshold value, starting time section, outage threshold and stop time section can rule of thumb determine, or determine by repetition test.

Need to prove that the above-mentioned outage threshold that stops to preheat operation is usually above the starting threshold value of piloting engine, and stop the pre-warmed time period usually above the time period of piloting engine.Yet, also can when piloting engine, stop heating equipment preheating to vaporizing unit according to the present invention.Usually, it is preferred stopping to preheat in the back a period of time of piloting engine, this is because can still can not be alone provide in the required heat of normal running for vaporizing unit at motor, can also continue to provide gasification required heat by heating equipment, can further improve starting performance and emission performance like this vaporizing unit.

Stopping to enter course of normal operation to after the preheating of vaporizing unit 2012, normal working of engine wherein, and the cooling liquid of only utilizing motor 202 provides heat for the vaporization of LNG.In normal manipulation mode, can utilize heat exchange quantity controller 2017 to control the flow of cooling liquid according to the temperature of engine coolant, thereby the temperature of the vaporized fuel that the heat that control offers vaporizing unit produces with control vaporization thus, and then prevent to cause the natural gas engine detonation because intake temperature is too high.In addition, the gas outlet pressure and temperature position of caisson 2013 should be maintained within a certain range, to prevent the serious surge of motor or to lose fire.Above measure can make the gas source temperature pressure stability, guarantees that engine behavior is stable.

Need to prove, after-treatment system etc. has been shown among Fig. 2, this is just for knowing purpose of description.In fact, liquefied fuel power system of the present invention can not comprise after-treatment system etc.

In addition, though in the embodiment of above-mentioned Fig. 2, provide fuel by the residue vaporized fuel in the device for storing liquid 2013 for heating equipment 2018, but it should be appreciated by those skilled in the art that it also is feasible other mode of executions of fuel source being provided can for heating equipment 2018.

In addition, though in the embodiment of above-mentioned Fig. 2, described the operation that after engine start, stops heating equipment 2018 and be the heat of vaporized fuel for heating equipment 2012 provides vaporization of liquid fuel only by cooling liquid from motor, but those skilled in the art should understand that, also can be after engine start, still only by heating equipment 2018 for vaporizing unit provides heat, perhaps both provide heat for vaporizing unit 2012 simultaneously.This depends on concrete design alternative.

In addition, Fig. 3 and Fig. 4 show the heating equipment that can use in the present invention and the example of fuel system respectively.Hereinafter, will further introduce heating equipment and fuel system with reference to figure 3 and Fig. 4.

As shown in Figure 3, show an embodiment of the heating equipment 300 that can adopt in the present invention.This heating equipment for example is a combustion heater, and it is according to the combustion heat-exchange principle, comes fluid dielectric coolant in the heated cooling fluid circulatory system by combustion gas fuel, and relies on circulating of fluid dielectric coolant to reach purpose to other device heating.As an example, this combustion heater 300 mainly comprises outer shield 301, gas path joint 302, exhaust outlet 303, firing chamber 304, after-burner 305, heat exchanger 306, heater water outlet 307, blast nozzle 308, water pump 309, heater water intake 310, fan 311 and air inlet 312.

Arrive blast nozzles 308 from the remaining vaporized fuel of caisson 2013 by gas path joint 302 via the 4th pipeline 2019 (as shown in Figure 2), combustion-supporting air enters firing chamber 304 by air inlet 312 and under fan 311 auxiliary.After igniting, the vaporized fuel that arrives blast nozzle takes fire under the effect of combustion-supporting air, forms flame.The waste gas that burning back forms enters after-burner 305, and it carries out heat exchange with the heat exchanger that is arranged in around the after-burner 305, with the cooling liquid of heat transferred heat exchanger 306 inside.Waste gas after burning is finally discharged through exhaust outlet 303.

The water outlet 307 of this heating equipment is connected to vaporizing unit 2012 via the cooling liquid pipeline from the heating equipment to the vaporizing unit, and water intake 310 is connected to vaporizing unit 2012 via the cooling liquid pipeline from the vaporizing unit to the heating equipment.Cooling liquid after the heating is recycled to vaporizing unit 2012 places through heater water outlet 307, and vaporizing unit 2012 is heated.Subsequently, get back to heater inside through the cooling liquid behind the vaporizing unit 2012 once more at heater water intake 310, and heated once more.So move in circles, realized lasting heating vaporizing unit 2012.Between the water inlet 310 of vaporizing unit 2012 and this heating equipment 2018, can also be provided as the water pump 309 of pump arrangement, be used to promote the circulating of cooling liquid of heating equipment 8.

Usually, in the start operation of this heating equipment, at first start water pump 309 and make cooling liquid begin to circulate.Subsequently, after process is such as various detections such as load detecting, element fault detections, heater is started working, heater is lighted a fire.After lighting a fire successfully, heater enters normal operating state.Controller will come the fluid dielectric coolant temperature of control circle internal system according to the cooling-water temperature sensor at calorifier inlets place, make the water temperature that offers vaporizing unit keep constant.Keeping the constant process of water temperature can be the process of control automatically, and when water temperature reached the setting temperature CLV ceiling limit value, fire extinguishing and burn-out, and when water temperature arrives the setting temperature lower limit were lighted a fire again and burnt.In addition, the combustion heater support is manually controlled, promptly can be opened or close heater as required at any time.On the other hand, in the power-off operation of heater, at first close heater usually, stop water pump at last.

In addition, Fig. 4 also shows the example of the fuel system that can use in the present invention.As shown in Figure 4, this system comprise tank body 401, find time to fill in Va, main safety valve S1, secondary safety valve S2, atmospheric valve V1, inlet check valve V2, hand stop valve V3, Restrictor Valves V4, save valve V5, equilibrium valve V6, pressure maintaining valve V7, manually from supercharging stop valve V8, from boost pressure regulation valve V9, topping up joint/aerating panel C2, pressure gauge Pg, level meter Lg, self-supercharging device Pr2, water-bath type vaporizer Pr1 and surge tank.

Wherein, tank body 401 is used to store the gaseous fuel of liquefaction, for example LNG.Can fill LNG by filling machine to tank body by topping up interface/aerating panel C2, and control fuel by inlet check valve V2 and make it enter tank interior.Supply system also comprises atmospheric valve V1, is used for the release of gas tank pressure.

Liquefied fuel in jar can be provided to vaporizer Pr1 through equilibrium valve V6, and this vaporizer Pr1 is the vaporizing unit of mentioning at preamble, for example is the water-bath type vaporizer.Cooling liquid enters vaporizer by the circulating water inlet, and carries out heat exchange with vaporizer, thereby the liquefied fuel vaporization is a vaporized fuel, and for example LNG is converted into CNG.Cooling liquid is discharged through circulating water outlet.

Preferably, cause leaking in a large number of fuel, hand stop valve V3 can be set between vaporizing unit Pr1 and equilibrium valve 6 and cross flow shutoff valve V4 in order to prevent that peripheral air supply system from destroying.The CNG that obtains of vaporization is stored in the surge tank (corresponding to the gas holder in the preamble), and what be used to keep motor uses the gas demand.Between vaporizing unit Pr1 and surge tank, pressure maintaining valve V7 can also be set, be used to control the tolerance that enters motor.

This system is provided with pressure gauge Pg and is used to show the gas cylinder internal pressure, is provided with level meter Lg, and it for example comes to obtain according to the size of dividing plate electric capacity the liquid level of pot liquid by capacitance level gauge.Find time to fill in Va and be used for when inner ultrahigh pressure, providing protection the jar shell.Under the situation that inner bag take place to leak, will cause chuck internal pressure superelevation, when interlayer pressure arrives predetermined value, for example 0.1 to 0.2MPa the time, the plug of finding time will be opened automatically and carry out pressure release.

Main safety valve S1 and secondary safety valve S2 are used for pressure release mode protective pot.At secure context, the design of the inner bag of this gas cylinder has two-stage pressure relief valve to play a protective role when superpressure.At first open main safety valve under the superpressure situation, its cracking pressure is 1.75MPa (253psi), and the cracking pressure of secondary safety valve is 2.41MPa (350psi).Malfunctioning or when breaking down at main safety valve, secondary safety valve work.Guarantee the safe in utilization of gas cylinder like this.

Save valve V5 and can be used for the interior pressure of regulating tank, when pressure of the inside of a bottle was higher than saving valve V5 setting pressure, the gas phase (being gaseous natural gas) in the bottle supplied toward motor by the saving valve, thereby reduces the gas cylinder internal pressure.

In addition, of particular note, this air supply system comprises self-supercharging device.It comprises manually from supercharging stop valve V8, from boost pressure regulation valve V9, bathe formula vaporizer Pr2 as the sky of automatic pressure intensifier.Liquefied fuel in jar is by manually flowing into empty bath formula vaporizer Pr2 from supercharging stop valve (V8) with from the boost pressure regulation valve, the liquefied fuel expansion of in vaporizer, absorbing heat, pressure enters tank interior after raising again, the heat that is absorbed is as the latent heat of vaporization from the outside feed flow of tank body, so that the pressure in the gas cylinder remains on a higher level, so just can make air feed more smooth and easy.In pressure piping, be provided with from supercharging throttle valve (V9) in order to control from the boost pressure regulation level.This boost pressure regulation level can manually be controlled, also can be based on environmental conditions, and wait such as situation in the jar and to carry out automatic control, so that realize more effectively supercharging.

Need to prove, above with reference to figure 3 and Fig. 4 to the description of heating equipment and the fuel system purpose of property presented for purpose of illustration just, the present invention is not limited thereto.Can change, replace and add this structure according to practical application, perhaps can adopt other any suitable structures.

According to the present invention, heating equipment and engine device all are to utilize the vaporized fuel that obtains with a kind of liquefied fuel vaporization to carry out work, if therefore overcome the complex structure problem of using different fuel to bring.

In addition, pass through embodiments of the present invention, can before starting cold, utilize vaporized fuel ignition heating equipment remaining in the system, and vaporizing unit is preheated by this heating equipment, thereby promote the vaporization of liquefied fuel, the vaporized fuel that vaporization obtains can further provide sufficient fuel for heating equipment again.When heating equipment can provide comparatively sufficient vaporized fuel, for example when satisfying aforesaid engine start condition, can pilot engine, further the cooling liquid by motor is that vaporizing unit heats.After only being enough to provide heat, then stop heating equipment preheating to vaporizing unit for vaporizing unit by motor.For example can switch off the pump and heating equipment, perhaps the cooling liquid with the circulatory system is directed to the position that other need heat, and for example guides to warm-air drier, for use in vehicle interior heat-obtaining or vehicle windscreen defrosting.

In addition, because the liquid container of storage liquefied fuel can be connected with vaporizing unit by the pipeline (such as metal tubes) with thermal conductive resin, so vaporizing unit also can be delivered to this liquid container by this pipeline from a part of heat that heating equipment and/or motor obtain, thereby make the liquid container pressure inside increase, promote the outflow of liquefied fuel in the liquid container.And, under the good situation of vaporization, also alleviated the bad problem of discharging.

In addition, the present invention also provides a kind of method that is used to operate this liquefied fuel power system.Be described in detail below with reference to Fig. 5.

At first, utilize gaseous state inflammable gas remaining in the system to come the ignition heating equipment at step S501.

As mentioned above, after each vehicle stops, can more remaining vaporized fuel in gas holder 6.The vaporized fuel that before remains in behind the engine running in the gas holder 6 can provide to heating equipment by the supply air line between the gas path joint that is connected gas holder 6 and heating equipment 8 (the 4th pipeline 2019 shown in Figure 2).Heater igniting, vaporized fuel takes fire under combustion-supporting air auxiliary.

Then, at step S502, utilize heating equipment that vaporizing unit is preheated.

Behind the ignition heating equipment, cooling liquid such as water in the heater circulatory system is heated, cooling liquid after the heating is directed to the vaporizing unit place in the circulatory system, provide heat by carrying out heat exchange with vaporizing unit for vaporizing unit, thereby promotes the vaporization of vaporizing unit to liquefied fuel.On the other hand, the gaseous natural gas that obtains of liquefied fuel vaporization further provides fuel for the burning of heating equipment in its firing chamber again.Therefore, heating equipment can continue vaporizing unit is preheated.

Then, at step S503, behind the motor of starting vehicle, come heating and vaporizing device by heat from engine coolant.

Vaporizing unit being preheated to can provide fuel for the starting of motor substantially the time, can pilot engine.For example, in the time of can reaching the starting threshold value in temperature in order to the heating equipment cooling liquid that preheats vaporizing unit, perhaps carry out preheat a predetermined amount of time after, pilot engine.Concrete cranking temperature threshold value and time period can be determined by repetition test, perhaps rule of thumb come to determine.

After the engine start, can produce bigger heat, the coolant temperature that is used for cooled engine is very high usually, and this high temperature coolant can further heat vaporizing unit, so that provide gasification required heat for vaporizing unit.

In addition, in the motor normal work period, the heat of generation will be very high, should be enough to be the vaporizing unit heating, therefore in order not cause the waste of the energy, and consider from security standpoint, can stop heater preheating vaporizing unit in due course.Therefore, in one embodiment according to the present invention, when the temperature of the engine coolant that is used for heating and vaporizing device reaches outage threshold, stop heating equipment preheating to vaporizing unit.In according to another embodiment of the present invention, after preheating the time period of having carried out another setting, stop this and preheat.In addition, also can after the preset time section of piloting engine, stop heating equipment preheating to vaporizing unit.This stops temperature threshold and the time period can be determined by repetition test equally, perhaps rule of thumb comes to determine

Can stop also cooling liquid being guided to any parts place that other need heat by closing heating equipment, warm oneself in windshield demist, the car etc. such as being used for to the preheating of vaporizing unit.

In addition, in the process of heating equipment burning, have large quantity of exhaust gas and discharge, these waste gas typical temperatures are also than higher.In one embodiment according to the present invention, the hot gas that the vehicle heating equipment is given off guides to the self-supercharging device place of the storage device that is used to store liquefied fuel, so that increase the internal pressure of storage device by heat exchange.This self-supercharging device for example is empty bath formula vaporizer.Like this, can effectively utilize the used heat of heating equipment, make that the pressure of liquid container is also enough high under the lower situation of temperature, thereby can successfully flow out liquefied fuel at low temperature.In according to another embodiment of the present invention, cooling liquid is guided in order to the warm braw heat-exchanger rig place of warm braw to be provided, in order to provide heat by heating equipment for the warm braw heat-exchanger rig.

In addition, the waste gas that heating equipment emits may have harmful matter, and therefore the hot gas that described vehicle heating equipment can be given off is introduced in the after-treatment system, so that be further processed.

Need to prove that invention has been described as the example of liquefied fuel with LNG hereinbefore.Yet the present invention is not limited to this, but goes for adopting the motor of other liquefied fuels existing or that occur in the future.

Need to prove, hereinbefore for purposes of illustration, the fuel system that the concrete vehicle heater that provides in conjunction with Fig. 3 and Fig. 4 provide is described heating equipment of the present invention and fuel system, yet the present invention is not limited thereto, according to of the present invention open, those skilled in the art can carry out various changes, distortion and replacement to it.

The present invention can be applied to adopt such as bus, truck, bus etc. the various vehicles of liquid fuel, and can be applied to utilize the mechanically moving, boats and ships etc. of liquid fuel.In addition, also can be applied to anyly be suitable for using in the equipment of the present invention.

In addition, hereinbefore, be described with the instantiation of water as cooling medium, yet the present invention is not limited thereto, in fact the present invention can also adopt and be added with for example any suitable cooling liquid of suitable material such as antifreezing solution.

Though described the present invention, should be appreciated that to the invention is not restricted to disclosed mode of execution with reference to the mode of execution of considering at present.On the contrary, the present invention is intended to contain the interior included various modifications and the equivalent arrangements of spirit and scope of claims.The scope of following claim meets broad interpretation, so that comprise all such modifications and equivalent structure and function.

Claims (19)

1. liquefied fuel power system comprises motor and is used for fuel system to motor supply vaporized fuel, it is characterized in that described fuel system comprises:

Vaporizing unit, being configured to vaporization of liquid fuel is vaporized fuel being supplied to motor, and

Heating equipment, it is by a coolant circulation system and the coupling of described vaporizing unit, so that the heat that liquefied fuel is vaporized into vaporized fuel to be provided to described vaporizing unit.

2. liquefied fuel power system according to claim 1 is characterized in that, described vaporizing unit also by another coolant circulation system and motor coupling, is vaporized into vaporized fuel with the heat that is used to spontaneous motivation cooling liquid with liquefied fuel.

3. liquefied fuel power system according to claim 1 is characterized in that, described heating equipment is configured to provide the heat that liquefied fuel is vaporized into vaporized fuel at the described vaporizing unit of engine start forward direction at least.

4. according to each described liquefied fuel power system of claim 1 to 3, it is characterized in that described fuel system also comprises:

The device for storing liquid of storing liquid fuel, it is via first pipeline and the coupling of described vaporizing unit, to supply liquefied fuel to described vaporizing unit; And

Store the caisson of vaporized fuel, it, and enters the mouth via the 3rd pipeline and motor fuel and to link to each other providing vaporized fuel to motor receiving the vaporized fuel that vaporization obtains via second pipeline and vaporizing unit coupling,

Wherein, described caisson is also via the coupling of the 4th pipeline and heating equipment, so that the vaporized fuel of heated cooling fluid to be provided to heating equipment, and

Wherein said heating equipment utilizes vaporized fuel ignition remaining in the described caisson.

5. according to each described liquefied fuel power system of claim 1 to 3, it is characterized in that, described fuel system also comprises first temperature transducer that is arranged in described coolant circulation system, the temperature that is used for the described coolant circulation system liquid of sensing, wherein said motor are configured to start when sensed temperature surpasses the starting threshold value.

6. according to each described liquefied fuel power system of claim 1 to 3, it is characterized in that, described fuel system comprises that also configuration is used for regularly first timer is carried out in the operation of described heating equipment, and described motor is configured in response to this first timer overtime and start.

7. liquefied fuel power system according to claim 2, it is characterized in that, also comprise second temperature transducer that is arranged in described another coolant circulation system, the coolant temperature that is used for described another coolant circulation system of sensing, wherein said heating equipment are configured in when described second temperature transducer institute sensed temperature surpasses setting threshold and stop to provide heat to vaporizing unit.

8. according to each described liquefied fuel power system of claim 1 to 3, it is characterized in that, comprise also being configured to regularly second timer is carried out in the operation of heating equipment that wherein said heating equipment is configured in response to described second timer overtime and stop to provide heat to vaporizing unit.

9. liquefied fuel power system according to claim 4 is characterized in that described fuel system also comprises supercharging device, is used to increase the internal pressure of device for storing liquid.

10. liquefied fuel power system according to claim 9, wherein said supercharging device are empty bath formula vaporizers.

11. liquefied fuel power system according to claim 9 is characterized in that described fuel system also comprises guiding device, is used for the hot gas that described heating equipment gives off is guided to described supercharging device place.

12. according to each described liquefied fuel power system of claim 1 to 3, it is characterized in that, described heating equipment also with the coupling of the after-treatment system of vehicle, introduce in the described after-treatment system with the hot gas that described heating equipment is given off and to handle.

13., it is characterized in that according to each described liquefied fuel power system of claim 1 to 3, also comprise the warm braw heat-exchanger rig, it is communicated with cooling liquid in the described heating equipment, to provide warm braw by the heat exchange with the heating equipment cooling liquid.

14. according to each described liquefied fuel power system of claim 1 to 3, it is characterized in that, also comprise one or more pump arrangement that is arranged in the described coolant circulation system.

15. a method that is used to operate the fuels and energy system comprises:

Utilize vaporized fuel remaining in the described system to come the ignition heating equipment;

Utilize heating equipment to come the vaporizing unit that is used for liquefied fuel is vaporized into vaporized fuel is preheated; And

After piloting engine, heat described vaporizing unit by heat from described engine coolant.

16. method according to claim 15, wherein, described motor is in starting when one of any that meets the following conditions:

The temperature that is used to preheat the heating equipment cooling liquid of described vaporizing unit reaches the starting threshold value; And

Preheat and carried out the very first time section of setting.

17. method according to claim 15, also being included in meets the following conditions stops preheating described vaporizing unit when one of any:

The temperature that is used to heat the engine coolant of described vaporizing unit reaches outage threshold; And

Preheat and carried out second time period of setting.

18. according to each described method of claim 15 to 17, also comprise following wherein any one or multinomial:

The hot gas that described heating equipment is given off guides to the supercharging device place of the device for storing liquid that is used to store liquefied fuel, so that increase the internal pressure of described device for storing liquid by heat exchange;

The hot gas that described heating equipment is given off is introduced in the after-treatment system and is handled; And

Provide the warm braw heat-exchanger rig of warm braw that heat is provided by heating equipment for being used to.

19. a Vehicular system comprises according to each described liquefied fuel power system of claim 1 to 14.

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