CN109209608B - Connection system for sharing one radiator by multiple generator sets - Google Patents

Abstract

The invention discloses a connection system for sharing a radiator by a plurality of generator sets, which mainly comprises a #1 generator set, a #2 generator set, a #3 generator set, an electric three-way regulating valve #M-1, an electric three-way regulating valve #M-2, an electric three-way regulating valve #M-3, an electric three-way regulating valve #S, an electric three-way regulating valve #W-2, an electric three-way regulating valve #W-3, a water heater, a check valve, an electric water pump and a radiator, wherein the water heater and the radiator or the radiator are shared by the plurality of generator sets through the connection of cooling water of the plurality of generator sets, the equipment quantity of the water heater and the radiator or the radiator is greatly reduced, the input cost of the former stage and the labor and the capital cost of the later operation and maintenance are reduced, and the waste of equipment is reduced.

Description

Connection system for sharing one radiator by multiple generator sets

Technical Field

The invention mainly relates to a connecting system for sharing one radiator by a plurality of generator sets.

Background

The fuel oil and gas generator sets generally have certain temperature requirements on cooling water when being started, particularly large-sized sets for distinguishing high-temperature water from low-temperature water, such as large-sized heavy oil generator sets, the water temperature requirements on the high-temperature water when being started are more than 60 ℃, and if the sets are forcedly started under the low-temperature condition, the internal structures of the sets, such as cylinder bodies, cylinder covers and the like, can be damaged. Therefore, a water heater is generally arranged in a unit which is generally used in a place with low ambient temperature, and a water heater is generally arranged in a large-sized unit. Under the condition of the allowed design specification, the plurality of units can be provided with a large radiator or a radiator, and particularly the cooling capacity of the radiator is relatively strong, so that the radiator is suitable for the plurality of units to share one radiator. In a power plant running by a plurality of units, the cost of the power plant provided with a plurality of water heaters and a plurality of radiators or the radiator is high, and the labor cost and the fund cost of maintenance are high; and the water heater has no other functions after starting, so that the equipment is idle and wasted.

Disclosure of Invention

In view of the defects and shortcomings in the prior art, the invention provides a connecting system for sharing one radiator by a plurality of generator sets, which greatly reduces the number of equipment of a water heater and the radiator or the radiator, reduces the input cost in the early stage, reduces the labor and capital cost for operation and maintenance in the later stage, and reduces the idle time of equipment and the waste of resources.

In order to solve the technical problems, the invention adopts the following technical scheme: a connection system for sharing a radiator by a plurality of generator sets is characterized in that: the electric power generation device comprises a #1 generator set, a #2 generator set, a #3 generator set, a # N generator set, an electric three-way regulating valve #M-1, an electric three-way regulating valve #M-2, an electric three-way regulating valve #M-3, an electric three-way regulating valve #M-N, an electric three-way regulating valve #S, an electric regulating valve #W-2, an electric regulating valve #W-3, an electric regulating valve #W-N, an electric regulating valve #Q, a water heater, a check valve, an electric water pump and a radiator.

When the starting temperature of engine cooling water is required to be 60 ℃, the temperature of the cooling water is required to be less than or equal to 90 ℃, three connectors of the electric three-way regulating valve are X, Y, Z in three directions respectively, when the electric three-way regulating valve works, the electric three-way regulating valve can act according to the temperature change of the X direction side, the electric three-way regulating valve is communicated only when XY or XZ flows, when the temperature is less than or equal to 90 ℃, the electric three-way regulating valve XZ is communicated, and when the temperature is higher than 90 ℃, the XY direction is communicated. The electric regulating valve #W-2~N is in an open state when the temperature is lower than 60 ℃, and is in a closed state when the temperature reaches 60 ℃, and only the #Q electric regulating valve is in an open state when the temperature is 90 ℃. The electric water pump and radiator are started when the #q electric control valve is closed.

The water heater is connected with the #1 generator set, the electric three-way regulating valve #M-1 is connected with the #1 generator set, and when the electric three-way regulating valve #M-1 XZ flows, the electric three-way regulating valve #M-1 and the #1 generator set form internal circulation; and when the electric three-way regulating valve #M-1 XY flows, the #1 generator set and the electric three-way regulating valve #SXZ are circulated outside the electric three-way regulating valve #Q. The motor-driven three-way regulating valve #M-2 is connected with the motor-driven three-way regulating valve #M-2, one side of the motor-driven three-way regulating valve #M-2 is provided with the motor-driven three-way regulating valve #M-2, and when the motor-driven three-way regulating valve #M-2 is opened in the XZ flow direction, the motor-driven three-way regulating valve #M-2 and the motor-driven three-way regulating valve #M-2 form internal circulation with the motor-driven three-way regulating valve #M-2; after the #2 generator set is started, the # W-2 electric regulating valve is closed, and the # W-2 electric regulating valve and the electric three-way regulating valve # S XZ direction and the # Q electric regulating valve form external circulation in the XY flow direction. The system comprises a #3 generator set and an electric three-way regulating valve #M-3, wherein one side of the #3 generator set is provided with a #W-3 electric regulating valve, the #W-3 electric regulating valve is opened, and the electric three-way regulating valve #M-3 and the #3 generator set form internal circulation when XZ flows; after the generator set #3 is started, the electric regulating valve # W-3 is closed, and the electric three-way regulating valve # M-3 and the electric three-way regulating valve # S XZ direction and the electric regulating valve # Q form external circulation in the XY direction. The radiator is arranged on one side of the electric water pump and is connected through an electric three-way regulating valve #S, and in the XZ flow direction, the #Q electric regulating valve and each unit form circulation, and cooling water does not flow into the radiator; when the electric three-way regulating valve #S flows in XY direction, the electric water pump, the radiator and each unit form circulation.

As a further improvement of the invention, the electric regulating valve is controlled by a signal of a temperature sensor, and the temperature sensor is arranged at a corresponding cooling water outlet of the generator set.

As a further improvement of the invention, in the state before starting, the electric three-way regulating valve is in an XZ-direction communication state, and the electric regulating valve is in an opening state.

As a further improvement of the invention, before the generator set #1 is started, firstly, a water heater is started, an electric three-way regulating valve # M-1 is at an XZ-direction communicating position, when the water temperature reaches 60 ℃, a water temperature heater is automatically closed, the generator set #1 is started, cooling water of the generator set #1 flows out and flows back into the generator set through the XZ of the electric three-way regulating valve # M-1, the temperature of the cooling water can be gradually increased along with the running of the generator set, when the temperature of the cooling water of the generator set #1 is increased to 90 ℃, the electric three-way regulating valve # M-1 acts, and the XY direction of the electric three-way regulating valve # M-1 is communicated.

As a further improvement of the invention, the cooling water of the #1 generator set is used for carrying out mixed heating on the cooling water of the #2 generator set, the cooling water of the #1 generator set is used for carrying out mixed cooling on the cooling water of the #2 generator set, at the moment, the electric three-way regulating valve #M-2 is required to be regulated to be in a temporary state of XY-direction communication, and the water temperature of the #2 generator set is recovered to be in a normal state after the water temperature of the #2 generator set reaches 60 ℃ and is started.

As a further improvement of the invention, the cooling water of the #1 generator set is utilized to carry out mixed heating on the cooling water of the #3 generator set (at the moment, the electric three-way regulating valve #M-3 needs to be regulated to be in a temporary state of XY direction communication, and the water temperature of the #3 generator set is recovered to be in a normal state after the water temperature reaches 60 ℃ for starting), and the cooling water of the #1 generator set is utilized to carry out mixed cooling on the cooling water of the #3 generator set; when the temperature of cooling water of the #2 generator set is increased to 90 ℃, the electric three-way regulating valve # M-2 acts and is communicated in XY direction, at the moment, cooling water of the #1 generator set and cooling water of the #2 generator set are mixed and heated, and cooling water of the #1 generator set and cooling water of the #2 generator set are mixed and cooled by cooling water of the #3 generator set. When the water in the cooling water pipeline reaches 90 ℃ after all the units are started, the electric control valve of the # Q is closed, the electric water pump is started, and the radiator works.

Compared with the prior art, the invention has the following beneficial effects:

1. the number of water heaters and radiators or cooling towers is reduced, and the investment cost in the early stage is reduced.

2. And the labor cost and spare part cost of later operation and maintenance are reduced.

3. And idle and waste of equipment resources are reduced.

Drawings

The invention is further described with reference to the drawings and detailed description which follow:

FIG. 1 is a control flow diagram of a connection system for a plurality of generator sets sharing a heat sink in accordance with the present invention;

fig. 2 is a schematic structural diagram of an electric three-way regulating valve with a plurality of generator sets sharing a radiator.

Description of the embodiments

In order that the manner in which the above-recited features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings, it being understood that the invention is not limited thereto but is to be carried out by those skilled in the art in light of the appended drawings.

Fig. 1 and 2 show an embodiment of a connection system for sharing a radiator by multiple generator sets according to the present invention, where the connection system includes a #1 generator set, a #2 generator set, a #3 generator set, a # N generator set, an electric three-way regulating valve #m-1, an electric three-way regulating valve #m-2, an electric three-way regulating valve #m-3, an electric three-way regulating valve #m-N, an electric three-way regulating valve #s, # W-2, an electric regulating valve #w-3, an electric regulating valve #w-N, an electric regulating valve #q, a water heater, a check valve, an electric water pump, and a radiator.

When the starting temperature of engine cooling water is required to be 60 ℃ and the temperature of the cooling water is required to be less than or equal to 90 ℃, three connectors of the electric three-way regulating valve are X, Y, Z in three directions respectively, when the electric three-way regulating valve works, the electric three-way regulating valve can act according to the temperature change of the X direction side, the electric three-way regulating valve is communicated only when XY or XZ flows, the electric three-way regulating valve XZ direction is communicated when the temperature is less than or equal to 90 ℃, when the temperature is higher than 90 ℃, the XY direction is communicated, the electric regulating valve except the #Q electric regulating valve is in an open state when the temperature is lower than 60 ℃, and is in a closed state when the temperature reaches 60 ℃. The electric control valve of the # Q is in an open state at the temperature of less than or equal to 90 ℃.

The water heater is connected with the #1 generator set, the electric three-way regulating valve #M-1 is connected with the #1 generator set, and when the electric three-way regulating valve #M-1 XZ flows, the electric three-way regulating valve #M-1 and the #1 generator set form internal circulation; and when the electric three-way regulating valve #M-1 XY flows, the #1 generator set and the electric three-way regulating valve #SXZ are circulated outwards, and the electric regulating valve #Q is circulated outwards. The motor-driven three-way regulating valve #M-2 is connected with the motor-driven three-way regulating valve #M-2, one side of the motor-driven three-way regulating valve #M-2 is provided with the motor-driven three-way regulating valve #M-2, and when the motor-driven three-way regulating valve #M-2 is opened in the XZ flow direction, the motor-driven three-way regulating valve #M-2 and the motor-driven three-way regulating valve #M-2 form internal circulation with the motor-driven three-way regulating valve #M-2; after the #2 generator set is started, the # W-2 electric regulating valve is closed, and the # W-2 electric regulating valve and the electric three-way regulating valve # S XZ direction and the # Q electric regulating valve form external circulation in the XY flow direction. The system comprises a #3 generator set and an electric three-way regulating valve #M-3, wherein one side of the #3 generator set is provided with a #W-3 electric regulating valve, the #W-3 electric regulating valve is opened, and the electric three-way regulating valve #M-3 and the #3 generator set form internal circulation when XZ flows; after the generator set #3 is started, the electric regulating valve # W-3 is closed, and the electric three-way regulating valve # M-3 and the electric three-way regulating valve # S XZ direction and the electric regulating valve # Q form external circulation in the XY direction. The radiator is arranged on one side of the electric water pump and is connected with the electric water pump through an electric three-way regulating valve #S, and in the XZ flow direction, the #Q electric regulating valve and each unit form circulation, and cooling water does not flow into the radiator; when the electric three-way regulating valve #S flows in XY direction, the electric water pump, the radiator and each unit form circulation.

State before starting: the electric three-way regulating valves are all in an XZ-direction communication state; the electric regulating valve is in an open state.

Before starting the #1 generator set, firstly starting a water heater, and enabling an electric three-way regulating valve #M-1 to be at an XZ-direction communication position, when the water temperature reaches 60 ℃, automatically closing a water temperature heater, starting the #1 generator set, and enabling cooling water of the #1 generator set to flow back into the generator set after flowing out through the XZ of the electric three-way regulating valve #M-1. The cooling water temperature can be gradually increased along with the operation of the unit, when the cooling water temperature of the unit #1 is increased to 90 ℃, the electric three-way regulating valve # M-1 acts, and the XY directions of the electric three-way regulating valve # M-1 are communicated.

At this time, the electric water pump is started, the electric three-way regulating valve #M-2 is temporarily regulated to be in a temporary state of XY-direction communication, the electric regulating valve #W-2 is in an opening state at this time, cooling water of the #2 generator set is used for carrying out mixed heating, cooling water of the #1 generator set is used for carrying out mixed cooling on cooling water of the #2 generator set, when the cooling water temperature of the #2 generator set is increased to 60 ℃, the state of the electric three-way regulating valve #M-2 is recovered to be normal, and the electric regulating valve #W-2 is automatically closed. At the moment, a #2 generator set is started, and cooling water of the generator set flows through the XZ direction of the electric three-way regulating valve #M-2 and then returns to the inside of the generator set.

At the moment, the electric three-way regulating valve #M-3 is regulated to be in a temporary state of XY-direction communication, the electric regulating valve #W-3 is in an opening state at the moment, the cooling water of the #3 generator set is subjected to mixed heating by using the cooling water of the #1 generator set, and the cooling water of the #1 generator set is subjected to mixed cooling by using the cooling water of the #3 generator set; when the temperature of cooling water of the #2 generator set is increased to 90 ℃, the electric three-way regulating valve #M-2 acts and is communicated in the XZ direction. At this time, the cooling water of the #1 and #2 generator sets is used for carrying out mixed heating on the cooling water of the #3 generator set, and the cooling water of the #1 and #2 generator sets is used for carrying out mixed cooling on the cooling water of the #3 generator set. When the temperature of cooling water of the #3 generator set rises to 60 ℃, the electric three-way regulating valve # M-3 is restored to be normal, the electric regulating valve # W-3 is closed, and the #3 generator set is started. At the moment, cooling water of the #3 generator set flows through the electric three-way regulating valve #M-3 to return to the #3 generator set in the XZ direction, and when the temperature of the cooling water of the #3 generator set rises to 90 ℃, the electric three-way regulating valve #M-3 is turned into XY direction communication. When the temperature of water in the cooling water pipeline reaches 90 ℃, the electric three-way regulating valve #S acts as XY flow direction, the electric regulating valve #Q acts to close, the electric water pump is started, and the radiator works.

It is noted that in the description of the present invention, the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Claims (4)

1. A connection system for sharing a radiator by a plurality of generator sets is characterized in that: the electric power generation device comprises a #1 generator set, a #2 generator set, a #3 generator set, a # N generator set, an electric three-way regulating valve #M-1, an electric three-way regulating valve #M-2, an electric three-way regulating valve #M-3, an electric three-way regulating valve #M-N, an electric three-way regulating valve #S, an electric Q regulating valve, an electric #W-2 regulating valve, an electric #W-3 regulating valve, an electric W-N regulating valve, a water heater, a check valve, an electric water pump and a radiator;

when the starting temperature of engine cooling water is required to be 60 ℃ and the cooling water temperature is required to be less than or equal to 90 ℃, three connectors of the electric three-way regulating valve are X, Y, Z directions respectively, when the electric three-way regulating valve works, the electric three-way regulating valve acts according to the temperature change of the X direction side, the electric three-way regulating valve is communicated only in the XY or XZ direction, when the temperature is less than or equal to 90 ℃, the electric three-way regulating valve is communicated in the XZ direction, when the temperature is higher than 90 ℃, the XY direction is communicated, the electric regulating valves except the #Q electric regulating valve are in an open state when the temperature is lower than 60 ℃, the electric three-way regulating valve is in a closed state when the temperature reaches 60 ℃, and the electric three-way regulating valve is in an open state when the temperature is less than or equal to 90 ℃;

the water heater is connected with the #1 generator set, the electric three-way regulating valve #M-1 is connected with the #1 generator set, and when the electric three-way regulating valve #M-1 is in XZ flow direction, the electric three-way regulating valve #M-1 and the #1 generator set form internal circulation; when the electric three-way regulating valve #M-1 is in an XY flow direction, an external circulation is formed by the #1 generator set and the XZ direction and the # Q electric regulating valve of the electric three-way regulating valve #S, the #2 generator set is connected with the electric three-way regulating valve #M-2, one side of the #2 generator set is provided with the # W-2 electric regulating valve, and when the XZ flow direction and the # W-2 electric regulating valve are opened, the electric three-way regulating valve #M-2 and the #2 generator set form an internal circulation; after the #2 generator set is started, the # W-2 electric regulating valve is closed, the # W-2 electric regulating valve and the electric three-way regulating valve #S form an external circulation in the XY direction and the XZ direction, and the #3 generator set and the electric three-way regulating valve #M-3, one side of the #3 generator set is provided with the # W-3 electric regulating valve, the # W-3 electric regulating valve is opened, and the electric three-way regulating valve #M-3 and the #3 generator set form an internal circulation when the XZ flows; after the generator set #3 is started, the electric regulating valve # W-3 is closed, the electric three-way regulating valve # M-3 and the electric three-way regulating valve # S form external circulation in the XY direction, the radiator is arranged on one side of the electric water pump and is connected through the electric three-way regulating valve # S, and the electric three-way regulating valve # M-3 and each generator set form circulation in the XZ direction, and cooling water does not flow into the radiator; when the electric three-way regulating valve #S flows in XY direction, the electric water pump, the radiator and each unit form circulation;

the electric regulating valve is controlled by a temperature sensor signal, and the temperature sensor is arranged at a corresponding cooling water outlet of the generator set; in the state before starting, the electric three-way regulating valve is in an XZ-direction communication state, and the electric regulating valve is in an opening state.

2. A connection system for sharing a radiator by multiple generator sets according to claim 1, wherein: before starting a #1 generator set, firstly starting a water heater, an electric three-way regulating valve #M-1 is at an XZ-direction communication position, when the water temperature reaches 60 ℃, a water temperature heater is automatically closed, the #1 generator set is started, cooling water of the #1 generator set flows back into the generator set after flowing out through the XZ of the electric three-way regulating valve #M-1, the temperature of the cooling water can be gradually increased along with the running of the generator set, when the temperature of the cooling water of the #1 generator set is increased to 90 ℃, the electric three-way regulating valve #M-1 acts, and the XY of the electric three-way regulating valve #M-1 is communicated in the X-direction.

3. A connection system for sharing a radiator by multiple generator sets according to claim 1, wherein: and (3) carrying out mixing heating on cooling water of the #2 generator set by using cooling water of the #1 generator set, and carrying out mixing cooling on cooling water of the #1 generator set by using cooling water of the #2 generator set.

4. A connection system for sharing a radiator by multiple generator sets according to claim 1, wherein: the cooling water of the #1 generator set is used for carrying out mixing heating on the cooling water of the #3 generator set, and the cooling water of the #1 generator set is used for carrying out mixing cooling on the cooling water of the #3 generator set; when the temperature of cooling water of the #2 generator set is increased to 90 ℃, the electric three-way regulating valve # M-2 acts and is communicated in the XZ direction, at the moment, cooling water of the #1 generator set and cooling water of the #2 generator set are mixed and heated, and cooling water of the #1 generator set and cooling water of the #2 generator set are mixed and cooled by cooling water of the #3 generator set.