KR20030093425A - Flow control method of Automatic Vacuum stripping system for Cargo oil pump - Google Patents

Abstract

PURPOSE: An oil flow control method of an automatic vacuum stripping system for a cargo oil pump is provided to automatically control the rpm of the car oil pump and a discharge valve using a micom. CONSTITUTION: Inhalation and discharge pressures at the inlet and outlet sides of the cargo oil pump(1) and rpm at the cargo oil pump are inputted into a micom(7). The micom calculates a current head using the inhalation and discharge pressures in the micom. The micom calculates a working head and an effective inhalation head using the current head, the current rpm and working rpm at the cargo oil pump. The micom calculates an actual oil flow using the current rpm, the working rpm, and the working oil flow. The micom calculates optimum rpm using the current rpm, the actual oil flow, and a required oil flow. The micom compares the calculated actual oil flow with the required oil flow. According to the difference between the actual oil flow and the required oil flow, the current rpm of the cargo oil pump and an opening of a discharge valve(8) are determined.

Description

Flow control method of Automatic Vacuum stripping system for Cargo oil pump

The present invention relates to a flow rate control method of an automatic vacuum stripping system for a cargo oil pump, and more particularly, the discharge flow rate desired by the user by optimally controlling the rotation speed of the cargo oil pump and the opening degree of the discharge valve according to the flow rate setting value. The present invention relates to a flow control method of an automatic vacuum stripping system for a cargo oil pump controlled by a microcomputer so that cargo oil can be automatically unloaded from an oil tanker or a VLCC vessel to the shore with an overpressure.

Typically, conventional systems are cargo oil tanks. It consists of a separator tank, a cargo oil pump, a gas bleed valve, a vacuum pump part, a discharge valve, and the like. The cargo oil stored in the cargo oil tank is sucked into the separator tank. And unloaded to the shore via the discharge valve. In the automatic vacuum stripping system, the cargo oil is unloaded to the shore by controlling the opening and closing of the vacuum pump section, the manual control of the rotation speed of the cargo oil pump, the rotation increase control in the stripping step, and the operation of the discharge valve opening. However, this is controlled only by the manual operation of the flow rate or pressure value at which the user wants to discharge the cargo oil, and by using the analog relay on / off control or semi-automatic control and the operator's experience to control the flow rate or pressure control, Skills are needed and driving difficulties are accompanied. Therefore, the automatic vacuum stripping system for cargo oil pump that controls the rotation speed and discharge valve of the cargo oil pump to the optimum state according to the flow rate setting value and solves the above problems by setting the desired discharge flow rate and pressure. There is a demand for a flow control method.

The present invention is devised to solve the above-mentioned problems, by using the microcontroller dedicated controller to automatically control the rotation speed and the discharge valve of the cargo oil pump to the optimum state according to the discharge flow rate and pressure set by the user It is an object of the present invention to provide a flow control method for an automatic vacuum stripping system for cargo oil pumps, which can control the whole process and provide convenience for the automation of the unloading process.

In order to provide the above method, the suction pressure and discharge pressure measured by the suction pressure gauge and the discharge pressure gauge mounted on the input side and the suction side of the cargo oil pump and the current rotation of the cargo oil pump measured by the speed regulator mounted on the cargo oil pump Inputting a number to the microcomputer, calculating a current head by the microcomputer using the discharge pressure and the suction pressure input to the microcomputer, and calculating the current rotation speed and the cargo oil of the current head and the cargo oil pump. Calculating the rated head and the effective suction head by the microcomputer using the rated rotational speed of the pump, and using the current rotational speed of the cargo oil pump and the rated rotational speed and rated flow of the cargo oil pump to the microcomputer By the step of calculating the actual flow rate, the current rotation speed and the actual flow rate of the cargo oil pump calculated above, Calculating the optimum rotational speed of the cargo oil pump by using a microcomputer, comparing the actual flow rate and the flow rate set by the user with the microcomputer, and comparing the actual flow rate and the user's setting If the flow rate is the same or the difference between the two values is within a certain range, the current rotational speed of the cargo oil pump and the discharge valve opening degree are maintained.If the flow rate exceeds the predetermined range, the optimum rotational speed of the cargo oil pump calculated above is shiftable. If the optimum speed of the cargo oil pump exceeds the shiftable range, the rotation speed of the cargo oil pump is kept constant and the current flow rate is set by adjusting the opening and closing of the discharge valve. Control to match the flow rate, discharge valve if the optimum rotational speed of the cargo oil pump is within the speed changeable range By providing a flow rate control method of the automatic vacuum stripping system for cargo oil pump configured to maintain a constant opening degree and to increase or decrease the current rotational speed of the cargo oil pump by a certain amount to match the set flow rate Is achieved.

1 shows a schematic diagram of an automatic vacuum stripping system of the present invention,

2 shows a control flowchart of the automatic vacuum system of the present invention.

<Description of the symbols for the main parts of the drawings>

(1): cargo oil tank (2): separator tank

(3): cargo oil pump (4): speed regulator

(5): vacuum pump section (6): gas extraction valve

(7): microcomputer (8): discharge valve

(9): suction pressure gauge (10): discharge pressure gauge

(11): final pressure gauge

Referring to the configuration of the present invention in conjunction with the accompanying drawings as follows.

1 is a block diagram illustrating an automatic vacuum stripping system according to the present invention, and FIG. 2 is a control flowchart of the automatic vacuum stripping system, in which a separator tank 2 is connected to one side of a cargo oil pump 1. And the other side is connected to the vacuum pump 5, the separator oil tank 3 is connected to the cargo oil pump 3, the cargo oil pump 3 and the discharge valve 8 is connected, the vacuum pump Flow control of the automatic vacuum stripping system for cargo oil pump, in which the part 5 and the separator tank 2 are connected, and a gas bleed valve 6 is mounted between the vacuum pump part 5 and the separator tank 2. In the method, the suction pressure and discharge pressure measured by the suction pressure gauge 9 and the discharge pressure gauge 10 mounted on the input side and the suction side of the cargo oil pump 3 and the speed regulator mounted on the cargo oil pump 3 Cargo measured in (4) One current number of revolutions of the pump 3, enter the microcomputer (7).

The current head is calculated by the microcomputer 7 by using the discharge pressure and the suction pressure input to the microcomputer 7.

The rated head and the effective suction head NPSHre1 are calculated by the microcomputer 7 using the current head, the current speed of the cargo oil pump 3 and the rated speed of the cargo oil pump 3 calculated above.

The actual flow rate is calculated by the microcomputer 7 using the current rotation speed of the cargo oil pump 3 and the rated rotation speed and the rated flow rate of the cargo oil pump 3 calculated above.

The optimum rotational speed of the cargo oil pump 3 is calculated by the microcomputer 7 using the current rotational speed, the actual flow rate, and the flow rate set by the user.

The actual flow rate calculated above and the flow rate set by the user are compared by the microcomputer 7.

If the actual flow rate compared with the flow rate set by the user is the same or the difference between the two values is within 2% of the maximum capacity of the cargo oil pump 3, the current rotational speed of the cargo oil pump 3 When the discharge valve 8 is opened, and exceeds 2% based on the maximum capacity of the cargo oil pump 3, the optimum rotational speed of the cargo oil pump 3 calculated above is a range that can be shifted. It is recognized by the microcomputer 7 whether it is within 600-1300 RPM.

When the optimum rotational speed of the cargo oil pump 3 is not within 600 to 1300 RPM, which is a speed changeable range, the rotational speed of the cargo oil pump 3 is kept constant and the opening degree of the discharge valve 8 is based on 100%. To increase or decrease the current flow rate within 1% so that the current flow rate is equal to the set flow rate, and when the optimum rotational speed of the cargo oil pump 3 is within the speed changeable range of 600 to 1300 RPM, the opening degree of the discharge valve 8 is increased. Maintaining a constant and increasing and decreasing the current rotational speed of the cargo oil pump (3) within 1 RPM to control the current flow rate to match the set flow rate.

Referring to the configuration as described above the operation of the present invention.

(3) of the cargo oil pump (3) recognized by the discharge pressure, suction pressure and speed regulator (4) recognized by the discharge pressure gauge (10) and the suction pressure gauge (9) mounted at the outlet and inlet sides of the cargo oil pump (3). ) The current rotation speed is input to the microcomputer 7. The current head is calculated by the microcomputer 7 by the difference between the pressures using the discharge pressure and the suction pressure input to the microcomputer 7. The head at the rated speed is transferred to the microcomputer 7 by using the law of similarity between the current head calculated by the microcomputer 7, the current rotational speed of the cargo oil pump 3, and the rated rotational speed of the cargo oil pump 3. Is calculated by That is, if the current speed of the cargo oil pump 3 is "N", the current head is "H", and the rated speed of the cargo oil pump is "N2", the rated head "H1" can be expressed as follows. have.

H1 = H ( ) ² -------------- Equation 1

The rated flow rate is converted using the pump QH curve, and the flow rate converted above is similar to the current rotation speed N of the cargo oil pump 3 and the rated rotation speed N2 of the cargo oil pump 3 again. The actual flow rate is calculated by the microcomputer 7 by using the law. That is, if the actual flow rate is "Q3" and the rated flow rate is "Q2", the actual flow rate Q3 can be expressed as follows.

Q3 = Q2 ( ) ------------------ Equation 2

Using the current rotation speed N of the cargo oil pump, the optimum rotation speed of the cargo oil pump 3 is obtained by the ratio with the set flow rate.

That is, if the flow rate set by the user is called "FS" and the optimum rotation speed of the cargo oil pump 3 is "N1", the optimal rotation speed of the cargo oil pump 3 can be represented as follows.

N1 = N ( ) ------------------- Equation 3

The actual flow rate calculated above and the flow rate value set by the driver are compared by the microcomputer 7.

When the actual flow rate and the flow rate value set by the driver are the same or the difference between the two values is within 2% based on the maximum capacity of the cargo oil pump 3, the current rotation of the cargo oil pump 3 The water and the opening degree of the discharge valve 8 are maintained in the present state. However, if the difference between the actual flow rate and the flow rate value set by the driver is not within 2% of the maximum capacity of the cargo oil pump 3, the optimum rotational speed of the cargo oil pump 3 can be shifted. It is recognized by the microcomputer 7 whether it is within 600 to 1300 RPM.

As described above, when the discharge valve opening is maintained in the current state within 600 to 1300 RPM, which is the range in which the optimum speed of the cargo oil pump 3 is shiftable, the optimum speed of the cargo oil pump 3 and the cargo oil pump 3 Compare the current rotation speed of).

If the present rotational speed of the cargo oil pump 3 is greater than the optimum rotational speed among the present rotational speed and the optimum rotational speed of the cargo oil pump 3 compared with the above, the present rotational speed of the cargo oil pump 3 is 1 RPM. If the current rotation speed of the cargo oil pump is less than the optimum rotation speed, the current rotation speed of the cargo oil pump 3 can be controlled to increase within 1 RPM so that the current flow rate and the set flow rate can be matched. To control.

In addition, the optimum rotational speed of the cargo oil pump (3) at a minimum RPM of 600 to 1300 RPM, which is a speed changeable range, to less than 600 RPM, and to maintain a maximum RPM of 1300 RPM or more, and then the current flow rate and the flow rate set by the user If the current flow rate is higher than the flow rate set by the user, the discharge valve 8 is controlled to be reduced within 1%. If the current flow rate is less than the flow rate set by the user, the discharge valve 8 is opened. By controlling the current flow rate to match the set flow rate by increasing it within 1%, it suppresses the generation of cavitation of the cargo oil pump 3 and adjusts the flow rate by controlling the optimum rotation speed and the opening degree of the discharge valve 8.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The present invention relates to a flow rate control method of an automatic vacuum stripping system for cargo oil pump, and according to the user's desired flow rate and pressure setting value, the rotation speed and discharge valve of the cargo oil pump are optimized by using a microcomputer. Automatic increase / decrease control maximizes the safety of cargo oil pump's cavitation suppression and pump utilization, and also controls the whole process by using a dedicated controller using microcomputer to automate the unloading process and provide users' reliability and convenience at the same time. This is a very useful invention.

Claims (1)

In the flow rate control method of the automatic vacuum stripping system for cargo oil pump, The suction pressure and discharge pressure measured by the suction pressure gauge 9 and the discharge pressure gauge 10 mounted on the input and output sides of the cargo oil pump 3 and the speed regulator 4 mounted on the cargo oil pump 3 were measured. Inputting the current rotational speed of the cargo oil pump 3 into the microcomputer 7, Calculating a current head by the microcomputer 7 by using the discharge pressure and the suction pressure input to the microcomputer 7, Calculating the rated head and the effective suction head by the microcomputer 7 using the calculated current head, the current speed of the cargo oil pump 3 and the rated speed of the cargo oil pump 3, Calculating the actual flow rate by the microcomputer 7 using the current rotation speed of the cargo oil pump 3 and the rated rotation speed and the rated flow rate of the cargo oil pump; Calculating the optimum rotational speed of the cargo oil pump 3 by the microcomputer 7 using the current rotational speed and the actual flow rate of the cargo oil pump 3 and the flow rate set by the user; A step in which the actual flow rate calculated above and the flow rate set by the user are compared by the microcomputer 7, If the actual flow rate compared with the flow rate set by the user is the same or the difference between the two values is within 2% of the maximum capacity of the cargo oil pump, the current rotational speed of the cargo oil pump 3 and the discharge valve (8) The optimum rotation speed of the cargo oil pump 3 calculated above is shifted when the opening degree is maintained at the present state and the difference between the two values is not within 2% based on the maximum capacity of the cargo oil pump. The step of being recognized by the microcomputer 7 whether it is in a possible range, When the optimum rotational speed of the cargo oil pump 3 is not within 600-1300 RPM, which is a speed changeable range, the rotational speed of the cargo oil pump 3 is kept constant and the increase or decrease of the opening amount of the discharge valve 8 is within 1%. The current flow rate is controlled to match the set flow rate, and when the optimum rotational speed of the cargo oil pump 3 is within 600-1300 RPM, which is a speed changeable range, the opening degree of the discharge valve 8 is kept constant and the cargo A method of controlling the flow rate of an automatic vacuum stripping system for a cargo oil pump, comprising the steps of controlling the current flow rate of the oil pump (3) within 1 RPM to control the current flow rate to match the set flow rate.