SOFC WATER SUPPLY SYSTEM AND METHOD OF OPERATION

Abstract

The invention discloses an SOFC water supply system, which comprises a first water storage tank, a water pump, a second water storage tank, a condenser and a controller. The first water storage tank is provided with a liquid level sensor, a heating element and a temperature sensor; when the temperature sensor detects that the temperature in the first water storage tank is lower than the working temperature, the controller controls a first valve and a second valve to be closed and controls the heating element to be started. According to the SOFC water supply system, the water storage tank is arranged to be of a split structure, namely the first water storage tank and the second water storage tank, and the first water storage tank is used for participating in supply of reformed water and provided with the heating element; when the temperature sensor detects that the temperature in the first water storage tank is lower than the working temperature, the controller controls the first valve and the second valve to be closed and controls the heating element to be started; in other words, the heating element only needs to heat the water in the first water storage tank, and then supply of the reformed water is maintained, so that the heating time is shortened, the heating effect is improved, and icing of a reformed water system is avoided.

Description

Claims

1. An SOFC water supply system, comprising: a first water storage tank (1) provided with a liquid level sensor (2), a heating element, and a temperature sensor;a water pump (3), a first outlet of the first water storage tank (1) being in communication with the water pump (3), and an outlet of the water pump (3) for supply of reformed water;a second water storage tank (4), a second outlet of the first water storage tank (1) being in communication with an inlet end of the second water storage tank (4) via a first valve (5), and an outlet end of the second water storage tank (4) being provided with a second valve (6);a condenser (7) in communication with the first water storage tank (1) for cooling tail gas exiting a stack and delivering liquid water to the first water storage tank (1); anda controller in communication with the first valve (5), the second valve (6), the heating element, and the liquid level sensor (2);wherein when the temperature sensor detects that the temperature in the first water storage tank (1) is lower than the working temperature, the controller is operable to control the first valve (5) and the second valve (6) to be closed and to control the heating element to be started.

2. The SOFC water supply system according to claim 1, wherein the controller is provided with a preset value L0 of the liquid level and configured such that: when the value L of the liquid level sensor (2) is equal to or smaller than L0, the controller is operable to control the first valve (5) to be in an open state, and the second valve (6) to be in a closed state; andwhen the value L of the liquid level sensor (2) is greater than La, the controller is operable to control the first valve (5) and the second valve (6) to be opened to discharge excess water.

3. The SOFC water supply system according to claim 1, further comprising an SOFC hot box (8), and the first water storage tank (1) and the second water storage tank (4) are both located on the SOFC hot box (8).

4. The SOFC water supply system according to claim 1, further comprising a flow meter (9) in communication with an outlet of the water pump (3), wherein an outlet of the flow meter (9) is configured for supply of reformed water; wherein the flow of the water pump (3) is adjustable, and the water pump (3) and the flow meter (9) are both in communication with the controller; andthe controller is operable to control the flow of the water pump (3) according to the value of the flow meter (9).

5. The SOFC water supply system according to claim 4, wherein a filter (10) is connected between the water pump (3) and the flow meter (9).

6. The SOFC water supply system according to claim 5, wherein a deionizer (11) is connected between the filter (10) and the flow meter (9).

7. The SOFC water supply system according to claim 1, wherein the volume of the first water storage tank (1) is smaller than the volume of the second water storage tank (4).

8. The SOFC water supply system according to claim 7, wherein the volume of the first water storage tank (1) is one fifth of the volume of the second water storage tank (4).

9. A method of operating an SOFC water supply system according to claim 1, comprising: detecting the temperature in the first water storage tank;determining that the temperature in the first water storage tank (1) is lower than the working temperature;controlling the first valve (5) and the second valve (6) to be closed; andcontrolling the heating element to be started.

10. The method according to claim 9, wherein: when the value L of the liquid level sensor (2) is equal to or smaller than a preset value L0 of the liquid level, controlling the first valve (5) to be in an open state, and the second valve (6) to be in a closed state; andwhen the value L of the liquid level sensor (2) is greater than L0, controlling the first valve (5) and the second valve (6) to be opened to discharge excess water.

11. The method according to claim 9, wherein the system further comprises a flow meter (9) in communication with an outlet of the water pump (3), wherein an outlet of the flow meter (9) is configured for supply of reformed water; the method further comprising controlling the flow of the water pump (3) according to the value of the flow meter (9).