CN106907239A - A kind of hydrogen gas turbine and the power circulation system of hydrogen fuel cell combination - Google Patents

Abstract

The present invention relates to the power circulation system that a kind of hydrogen gas turbine and hydrogen fuel cell are combined, including hydrogen fuel cell and combustion chamber, hydrogen source is respectively connecting to hydrogen fuel cell and combustion chamber；The compressed air that compressor is provided is respectively connecting to hydrogen fuel cell and combustion chamber, and compressor is by motor-driven；The gas exhaust piping of hydrogen fuel cell and combustion chamber is connected to turbine after converging, turbine is connected with generator coaxle and is generated electricity.System can work under three kinds of operational modes：When system needs expeditiously output par, c power, hydrogen fuel cell isolated operation pattern is used.When exporting high-power rapidly in system needs the short time, hydrogen gas turbine isolated operation pattern is used.When system needs total power to export, hydrogen fuel cell and hydrogen gas turbine combined operation approach are used.

Description

A kind of hydrogen gas turbine and the power circulation system of hydrogen fuel cell combination

Technical field

The invention belongs to hydrogen fuel comprehensive utilization combination circulatory system technical field, more particularly to a kind of hydrogen gas turbine The power circulation system combined with hydrogen fuel cell.

Background technology

Gas turbine moving component is few, simple and compact for structure, and can burn pluralities of fuel, and specific fuel consumption is low, efficiency high. And hydrogen is because of characteristics such as its high heating value, no pollution and wide material sources, as the preferable alternative fuel of gas turbine.Hydrogen gas turbine In, hydrogen is reacted with compressed air, produces high-temperature gas mixture body, and mechanical work is externally exported by turbine.And the quality of hydrogen Energy density is very high so that hydrogen gas turbine has energy density higher.

Proton Exchange Membrane Fuel Cells has the features such as energy conversion efficiency is high, emission is pollution-free, is current fuel electricity One of ideal power form in the automobile of pond, but its power density is relatively low.In automobile power and other similar engineerings machinery dress , it is necessary to meet power bracket demand wider in standby.

Either hydrogen gas turbine or hydrogen fuel cell all cannot simultaneously meet that cycle efficieny is high and power density it is big this Two big demands：Use hydrogen gas turbine merely, although energy density is higher, but under partial power state, energy conversion It is less efficient；Use hydrogen fuel cell merely, although the feature of environmental protection is good, efficiency high, but under the restricted occasion of volume, it is maximum Power cannot meet demand.

The content of the invention

In view of the shortcomings of the prior art, the invention provides the power cycle that a kind of hydrogen gas turbine and hydrogen fuel cell are combined System.

A kind of hydrogen gas turbine and the power circulation system of hydrogen fuel cell combination, including hydrogen fuel cell 6 and combustion chamber 8, hydrogen source is respectively connecting to hydrogen fuel cell 6 and combustion chamber 8；The compressed air that compressor 3 is provided is bifurcated Hydrogen fuel cell 6 and combustion chamber 8 are respectively connecting to, compressor 3 is by motor-driven；Hydrogen fuel cell 6 and the exhaust of combustion chamber 8 Pipeline is connected to turbine 10 after converging, turbine 10 is connected with generator 11 and is generated electricity；By the company of Valve controlling respective branch Through and off road.

In a kind of implementation method, the hydrogen outlet of hydrogen storage system 5 is connected with the entrance of B valves 7, and the first of B valves 7 Outlet is connected to the hydrogen inlet of hydrogen fuel cell 6, and the second outlet of B valves 7 is connected to the hydrogen inlet of combustion chamber 8；

The entrance of compressor 3 is communicated to air, and the outlet of compressor 3 is connected with the entrance of A valves 4, and the first of A valves 4 Outlet is connected to the air intake of hydrogen fuel cell 6, and the second outlet of A valves 4 is connected to the air intake of combustion chamber 8；Calm the anger Machine 3 is connected with motor；

The gas vent of hydrogen fuel cell 6 is connected with the first entrance of C valves 9, gas vent and the C valves 9 of combustion chamber 8 Second entrance connection, the outlet of C valves 9 is connected to the entrance of turbine 10, and turbine 10 is connected with generator 11.

The second outlet of the A valves 4 is connected with the entrance of high-pressure compressor 2, and the outlet of high-pressure compressor 2 is connected to combustion The air intake of room 8 is burnt, high-pressure compressor 2 is connected with motor.

The compressor 3, high-pressure compressor 2, motor are sequentially connected with.

The A valves 4, B valves 7, C valves 9 use electric control valve.

A kind of hydrogen gas turbine and the power circulation system of hydrogen fuel cell combination can work under three kinds of operational modes：Hydrogen Fuel cell isolated operation pattern, hydrogen gas turbine isolated operation pattern, hydrogen fuel cell and hydrogen gas turbine cooperation mould Formula.

Hydrogen fuel cell is applied to steady-working state, when system needs expeditiously output par, c power, uses hydrogen Fuel cell isolated operation pattern.

When system be hydrogen fuel cell isolated operation pattern when, hydrogen source is connected with hydrogen fuel cell 6, hydrogen source with fire Burn the open circuit of room 8；Compressor 3 is connected with hydrogen fuel cell 6, compressor 3 is breaking with combustion chamber 8；By hydrogen and compressed air point Other is delivered to hydrogen fuel cell 6；Hydrogen fuel cell 6 is connected with turbine 10, combustion chamber 8 is breaking with turbine 10, by hydrogen fuel The exhaust of battery 6 is passed through turbine 10, drives turbine 10 to rotate and then drive generator 11 to generate electricity.

When exporting high-power rapidly in system needs the short time, because hydrogen gas turbine priming speed is fast, power density Greatly, hydrogen gas turbine isolated operation pattern is used.

When system is hydrogen gas turbine isolated operation pattern, hydrogen source is connected with combustion chamber 8, hydrogen source and hydrogen fuel The open circuit of battery 6；Compressor 3 is connected with combustion chamber 8, compressor 3 is breaking with hydrogen fuel cell 6；By hydrogen and compressed air point Other is delivered to combustion chamber 8；Combustion chamber 8 is connected with turbine 10, hydrogen fuel cell 6 is breaking with turbine 10, by the row of combustion chamber 8 Gas is passed through turbine 10, drives turbine 10 to rotate and then drive generator 11 to generate electricity.

When system needs total power to export, hydrogen fuel cell and hydrogen gas turbine combined operation approach are used.

When system is hydrogen gas turbine and hydrogen fuel cell combined operation approach, by 8 points of hydrogen fuel cell 6 and combustion chamber Do not connected with hydrogen source；Hydrogen fuel cell 6 and combustion chamber 8 are connected with compressor 3 respectively；Hydrogen and compressed air is same respectively When be delivered to hydrogen fuel cell 6 and combustion chamber 8；Hydrogen fuel cell 6 and combustion chamber 8 are connected with turbine 10 respectively, hydrogen fuel electricity The exhaust of pond 6 and combustion chamber 8 is passed through turbine 10 after converging, drive turbine 10 to rotate and then drive generator 11 to generate electricity.

Beneficial effects of the present invention are：Present system disclosure satisfy that power bracket demand wider；Fired by coupling hydrogen The compressor and turbine system of gas-turbine and hydrogen fuel cell, realize the depth coupling of the two, realize making full use of for energy； It is that hydrogen gas turbine combustion chamber and hydrogen fuel cell provide pressure-air by compressor, is conducive to improving its service behaviour.

Brief description of the drawings

Fig. 1 is the schematic diagram of the power circulation system that a kind of hydrogen gas turbine described in embodiment 1 and hydrogen fuel cell are combined.

Fig. 2 is the schematic diagram of the power circulation system that a kind of hydrogen gas turbine described in embodiment 2 and hydrogen fuel cell are combined.

Label declaration：1- motor；The compressors of 2- second；The compressors of 3- first；4-A valves；5- hydrogen storage systems；6- Hydrogen fuel cell；7-B valves；8- combustion chambers；9-C valves；10- turbines；11- generators；12- battery packs.

Specific embodiment

The present invention will be further described with reference to the accompanying drawings and detailed description.It is emphasized that the description below It is merely exemplary, rather than in order to limit the scope of the present invention and its application.

A kind of hydrogen gas turbine and the power circulation system of hydrogen fuel cell combination, including hydrogen fuel cell 6 and combustion chamber 8, hydrogen source is respectively connecting to hydrogen fuel cell 6 and combustion chamber 8；The compressed air that compressor 3 is provided is bifurcated Hydrogen fuel cell 6 and combustion chamber 8 are respectively connecting to, compressor 3 is by motor-driven；Hydrogen fuel cell 6 and the exhaust of combustion chamber 8 Pipeline is connected to turbine 10 after converging, turbine 10 is coaxially connected with generator 11 to be generated electricity, and by power storage to battery pack In 12.

Embodiment 1

The power cycle system that a kind of hydrogen gas turbine and hydrogen fuel cell for providing for the present embodiment as shown in Figure 1 are combined System.

The hydrogen outlet of hydrogen storage system 5 is connected with the entrance of B valves 7, and the first outlet of B valves 7 is connected to hydrogen combustion Expect the hydrogen inlet of battery 6, the second outlet of B valves 7 is connected to the hydrogen inlet of combustion chamber 8.Hydrogen storage system 5 is fired for hydrogen Material battery 6 and combustion chamber 8 provide hydrogen, and the hydrogen stream of combustion chamber 8 and hydrogen fuel cell 5 is flowed to by the control distribution of B valves 7 Amount.

Compressor 3 can be low-pressure compressor, intermediate pressure compressor or high-pressure compressor.The entrance of compressor 3 is communicated to greatly Gas, the outlet of compressor 3 is connected with the entrance of A valves 4, and the air that the first outlet of A valves 4 is connected to hydrogen fuel cell 6 enters Mouthful, the second outlet of A valves 4 is connected to the air intake of combustion chamber 8；Compressor 3 is connected with motor 1.Extraneous air passes through After compressor 3 compresses, A valves 4 are flowed to, controlled to distribute the air stream for flowing to hydrogen fuel cell 6 and combustion chamber 8 by A valves 4 Amount.

The gas vent of hydrogen fuel cell 6 is connected with the first entrance of C valves 9, gas vent and the C valves 9 of combustion chamber 8 Second entrance connection, the outlet of C valves 9 is connected to the entrance of turbine 10, is vented into turbine 10 and drives turbine 10 to rotate, Turbine 10 is coaxially connected with generator 11 to be generated electricity, and generator 11 is connected storage electric energy with battery pack 11, and battery pack 11 is electricity Motivation 1 is powered.

A valves 4, B valves 7, C valves 9 use electric control valve.

Embodiment 2

A kind of hydrogen gas turbine of the present embodiment offer and the power cycle system of hydrogen fuel cell combination are provided System.

From unlike system described in embodiment 1, on the connection branch road of compressor 3 Yu the combustion chamber 8 of hydrogen gas turbine, Set up high-pressure compressor 2.The second outlet of the A valves 4 is connected with the entrance of high-pressure compressor 2, the outlet of high-pressure compressor 2 The air intake of combustion chamber 8 is connected to, compressor 3, high-pressure compressor 2, motor 1 are sequentially connected with, motor 1 drives pressure simultaneously Mechanism of qi 3 and high-pressure compressor 2.

Similarly, compressor 3 can be low-pressure compressor, intermediate pressure compressor or high-pressure compressor, in the present embodiment, institute State compressor 3 and use low-pressure compressor.

The efficiency and power density of hydrogen gas turbine are improved as the pressure ratio of compressor is improved, so in order to further carry The power density and efficiency of high hydrogen gas turbine, on the basis of single compressor 3, increased a high-pressure compressor 2.Environment In air first flow through conventional compressor 3, then flowing through A valves 4 carries out air mass flow distribution, flows to the part of combustion chamber 8 Air need to first pass through high-pressure compressor 2, and further compression enters back into combustion chamber 8, realizes the high power density and height of hydrogen gas turbine Efficiency.

Embodiment 3

The present embodiment is used to illustrate the power cycle of hydrogen gas turbine described in above example 1-2 and hydrogen fuel cell combination The operation principle of system.

System can work under three kinds of operational modes：The isolated operation pattern of hydrogen fuel cell 6, hydrogen gas turbine isolated operation Pattern, hydrogen fuel cell 6 and hydrogen gas turbine combined operation approach.

Hydrogen fuel cell 6 is applied to steady-working state, when system needs expeditiously output par, c power, uses hydrogen Fuel cell isolated operation pattern.Now, B valves 7 are acted, and hydrogen storage system 5 is connected with hydrogen fuel cell 6, and hydrogen is deposited Storage system 5 and the open circuit of combustion chamber 8；A valves 4 are acted, and compressor 3 is connected with hydrogen fuel cell 6, and compressor 3 breaks with combustion chamber 8 Road；Hydrogen and compressed air are only delivered to hydrogen fuel cell 6 respectively；C valves 9 are acted, and hydrogen fuel cell 6 is connected with turbine 10 Logical, combustion chamber 8 is breaking with turbine 10, and the exhaust of hydrogen fuel cell 6 is passed through into turbine 10, drives turbine 10 to rotate and then drive hair Motor 11 generates electricity.

When exporting high-power rapidly in system needs the short time, because hydrogen gas turbine priming speed is fast, power density Greatly, hydrogen gas turbine isolated operation pattern is used.Now, B valves 7 are acted, and hydrogen storage system 5 are connected with combustion chamber 8, hydrogen Gas storage system 5 and the open circuit of hydrogen fuel cell 6；A valves 4 are acted, and compressor 3 is connected with combustion chamber 8, and compressor 3 fires with hydrogen The open circuit of material battery 6；Hydrogen and compressed air are only delivered to combustion chamber 8 respectively；C valves 9 are acted, by combustion chamber 8 and turbine 10 Connection, hydrogen fuel cell 6 and the open circuit of turbine 10, turbine 10 is passed through by the exhaust of combustion chamber 8, drives turbine 10 to rotate and then drive Generator 11 generates electricity.

When system needs total power to export, hydrogen fuel cell 6 and hydrogen gas turbine combined operation approach are used.Now, B Valve 7 is acted, and hydrogen fuel cell 6 and combustion chamber 8 are connected with hydrogen storage system 5 respectively；A valves 4 are acted, by hydrogen fuel electricity Pond 6 and combustion chamber 8 connect with compressor 3 respectively；Hydrogen and compressed air are delivered to hydrogen fuel cell 6 and burning simultaneously respectively Room 8；C valves 9 are acted, and hydrogen fuel cell 6 and combustion chamber 8 are connected with turbine 10 respectively, hydrogen fuel cell 6 and combustion chamber 8 Exhaust is passed through turbine 10 after converging, drive turbine 10 to rotate and then drive generator 11 to generate electricity.

Claims (6)

1. a kind of hydrogen gas turbine and the power circulation system of hydrogen fuel cell combination, including hydrogen fuel cell (6) and combustion chamber (8), it is characterised in that hydrogen source is respectively connecting to hydrogen fuel cell (6) and combustion chamber (8)；Compressor (3) is provided Compressed air be respectively connecting to hydrogen fuel cell (6) and combustion chamber (8), compressor (3) is by motor-driven；Hydrogen The gas exhaust piping of fuel cell (6) and combustion chamber (8) is connected to turbine (10) after converging, turbine (10) is connected with generator (11) Generated electricity；By the connection and open circuit of Valve controlling respective branch.

2. system according to claim 1, it is characterised in that the hydrogen outlet of hydrogen storage system (5) and B valves (7) Entrance connection, the first outlet of B valves (7) is connected to the hydrogen inlet of hydrogen fuel cell (6), the second outlet of B valves (7) It is connected to the hydrogen inlet of combustion chamber (8)；

The entrance of compressor (3) is communicated to air, and the outlet of compressor (3) is connected with the entrance of A valves (4), A valves (4) First outlet is connected to the air intake of hydrogen fuel cell (6), and the second outlet of A valves (4) is connected to the air of combustion chamber (8) Entrance；Compressor (3) is connected with motor；

The gas vent of hydrogen fuel cell (6) is connected with the first entrance of C valves (9), gas vent and the C valves of combustion chamber (8) The second entrance connection of door (9), the outlet of C valves (9) is connected to the entrance of turbine (10), and turbine (10) is with generator (11) even Connect.

3. system according to claim 2, it is characterised in that the second outlet and high-pressure compressor of the A valves (4) (2) entrance connection, the outlet of high-pressure compressor (2) is connected to the air intake of combustion chamber (8), high-pressure compressor (2) and electricity Motivation is connected.

4. system according to claim 3, it is characterised in that compressor (3), high-pressure compressor (2), motor sequentially connect Connect.

5. system according to claim 2, it is characterised in that A valves (4), B valves (7), C valves (9) are using automatically controlled Valve.

6. the system according to claim any one of 1-5, it is characterised in that system has three kinds of mode of operations：

When system be hydrogen fuel cell (6) isolated operation pattern when, hydrogen source is connected with hydrogen fuel cell (6), hydrogen source and Combustion chamber (8) open circuit；Compressor (3) is connected with hydrogen fuel cell (6), compressor (3) is breaking with combustion chamber (8)；By hydrogen Only it is delivered to hydrogen fuel cell (6) respectively with compressed air；Hydrogen fuel cell (6) is connected with turbine (10), combustion chamber (8) with Turbine (10) open circuit, turbine (10) is passed through by the exhaust of hydrogen fuel cell (6), is driven turbine (10) to rotate and then is driven generator (11) generate electricity；

When system is hydrogen gas turbine isolated operation pattern, hydrogen source is connected with combustion chamber (8), hydrogen source is electric with hydrogen fuel Pond (6) open circuit；Compressor (3) is connected with combustion chamber (8), compressor (3) is breaking with hydrogen fuel cell (6)；By hydrogen and pressure Contracting air is only delivered to combustion chamber (8) respectively；Combustion chamber (8) are connected with turbine (10), hydrogen fuel cell (6) and turbine (10) Open circuit, turbine (10) is passed through by the exhaust of combustion chamber (8), is driven turbine (10) to rotate and then is driven generator (11) to generate electricity；

When system is hydrogen gas turbine and hydrogen fuel cell (6) combined operation approach, by hydrogen fuel cell (6) and combustion chamber (8) connected with hydrogen source respectively；Hydrogen fuel cell (6) and combustion chamber (8) are connected with compressor (3) respectively；By hydrogen and pressure Contracting air is delivered to hydrogen fuel cell (6) and combustion chamber (8) simultaneously respectively；By hydrogen fuel cell (6) and combustion chamber (8) respectively with Turbine (10) is connected, and the exhaust of hydrogen fuel cell (6) and combustion chamber (8) is passed through turbine (10) after converging, and drives turbine (10) to turn Dynamic and then drive generator (11) generates electricity.