RU151427U1 - AUTOMATED PRODUCTION EFFICIENCY SYSTEM (ASPED) - Google Patents

Abstract

An automated system for evaluating the energy efficiency of oil production processes, including a data input / output unit, a memory unit, a current data collection unit, an information planning and processing unit, a current data collection unit, while the input and output data input / output unit is connected to the memory unit, a planning and information processing unit and a current data collection unit, which is connected to the memory unit by output, which is connected to the information planning and processing unit by input and output, characterized in that, with In order to record energy consumption and liquid flow rate data by processes and time, an additional metering unit has been introduced, connected by its inputs to a data input / output unit and a current data collection unit, and by outputs to a memory unit and an information planning and processing unit, into which to enable dynamic assessment and automatic monitoring of energy efficiency indicators, an additional module for calculating specific energy consumption and energy efficiency indicators of the preparation process and the infield has been introduced external and external transport, the module for calculating specific energy consumption and energy efficiency indicators of the process of maintaining reservoir pressure and the module for calculating specific energy consumption and energy efficiency indicators of the process of mechanical lifting of the liquid.

Description

The utility model relates to systems for automated metering, planning and control of electricity consumption by the enterprise’s technological processes (individual equipment, sections, facilities of the enterprise) and can be used to account for the energy consumption of oil-producing facilities and dynamic assessment of energy efficiency of oil production processes by energy efficiency indicators.

The concept of energy efficiency is known [Federal Law of the Russian Federation of November 23, 2009 N261-ФЗ On energy conservation and on improving energy efficiency and on amendments to certain legislative acts of the Russian Federation: adopted by the State. Duma November 11, 2009: approved. By the Federation Council on November 18, 2009] - characteristics reflecting the ratio of the beneficial effect of the use of energy resources to the costs of energy resources produced in order to obtain such an effect with respect to products, technological process, legal entity, individual entrepreneur.

The concept of an indicator (indicator) of energy efficiency is known [GOST R 54195-2010 Resource conservation. Industrial production. Guidelines for the determination of energy efficiency indicators (indicators)] - this is the energy cost per unit of output or process output (specific energy consumption), which is set based on the specifics of the enterprise.

A known system of accounting and control of resource data, containing at least one device for commercial accounting of the resource, for example, electricity, installed at the subscriber-consumer of the resource and designed to register and transmit data on the readings of the resource consumed by the subscriber, a resource control unit containing a computer with a memory device, connected through direct and feedback to a calculation node containing a central computer with a memory device, connected through direct and feedback to a commercial device accounting device, the memory device of the computer of the resource disposal node is designed to store at least information about the resource consumed by each subscriber, and about the tariffs for the resource, the memory of the central computer is designed to store at least information about tariffs and information about the actual readings of the commercial device Subscriber accounting, the settlement unit is designed to compare the actual readings of commercial metering devices and tariffs to determine the cost of the consumed resource, and the unit will order The resource is intended to provide the resource to the subscriber based on data from the settlement node, the metering device is connected to the central computer of the settlement node via the Internet, for this the metering device is equipped with a modem with a microprocessor adapted to communicate with the central computer, which, in turn, is connected to a computer resource disposal node, also via the Internet (Utility Model Patent RU 66833 (U1) Russian Federation, cl. IPC ⁷ G06Q 20/00. The system of accounting and control of data on the resource / Wengin Yu.S.; patentee Wengin Yu.S. - publ. 09/27/2007, Bull. No. 27.).

However, the well-known system of accounting and control of resource data has insufficiently wide functionality, since it does not allow to evaluate the efficiency of resource consumption by the data obtained as a result of control and monitoring and does not allow to compare these data with the production processes at the enterprise.

The closest analogue to the proposed technical solution is an automated accounting and planning system at the enterprise, containing a task input unit for the system, a memory unit, an information planning and processing unit, and a current system status unit. The system implements accounting, long-term planning and calculation of the actual and normative energy technology balance. (Utility Model Patent RU 63573 (U1) Russian Federation, IPC class ⁷ G06Q 10/00. Automated Accounting and Planning System for an Enterprise / Larin EA, Dolotovskaya NV, Dolotovsky IV; patent holders Larin E.A., Dolotovskaya N.V., Dolotovsky I.V. - published on 05.27.2007, Bull. No. 15).

A disadvantage of the well-known automated accounting and planning system at the enterprise is the lack of a mode for evaluating the efficiency of resource use, which makes it impossible to promptly adjust the operating modes of equipment in order to increase production energy efficiency.

The essential features of the claimed utility model are as follows. The automated system for evaluating the energy efficiency of oil production technological processes includes a data input / output unit, a memory unit, an information planning and processing unit with modules for calculating the actual specific energy consumption and dynamic energy efficiency assessment of the main oil production technological processes according to energy efficiency indicators, a current data collection unit and a metering unit.

Unlike the closest analogue, the metering unit and the modules for planning and processing information are additionally introduced into the system: calculation of specific energy consumption and energy efficiency indicators of the preparation process and infield and external transport (PiT); calculation of specific energy consumption and energy efficiency indicators of the process of maintaining reservoir pressure (RPM); calculation of specific energy consumption and energy efficiency indicators of the process of mechanical lifting of the liquid.

The technical result manifested by the use of the proposed utility model is the ability to dynamically evaluate and automatically control the energy efficiency of equipment and oil production processes.

The essence of the utility model is illustrated by the drawing, which shows a block diagram of an automated system for evaluating the energy efficiency of oil production processes.

The inventive system comprises a data input / output unit 1, a memory unit 2, an information planning and processing unit 3, a current data collection unit 4 and a metering unit 5, wherein the input / output data unit 1 is connected to the memory unit 2 by the input and output unit, the unit planning and processing information 3 and the current data collection unit 4 which receives current data from the measuring instruments and which is connected to the memory unit 2 by the output, which is connected to the information planning and processing unit 3 by the input and output, characterized in that for the purpose data accounting energy consumption and liquid flow rate by processes and time, an additional metering unit 5 is connected, connected to its inputs with a data input / output unit and a current data collection unit 4, and outputs with a memory unit 2 and an information planning and processing unit 3, into which the module is additionally introduced calculation of specific energy consumption and energy efficiency indicators PiT 3.1, module for calculating specific energy consumption and energy efficiency indicators PPD 3.2 and module for calculating specific energy consumption and energy efficiency indicators ty of the process fluid mechanical lifting 3.3.

The data input / output block 1 is intended for input of the initial data of the system functioning: equipment parameters; structure, composition of equipment, characteristics of technological processes; system parameters. The data input / output unit also outputs the resultant and predetermined current data.

The memory unit 2 stores constant and variable data of the system, equipment and technological processes.

The current data collection unit 4 is intended for input into the system with a period specified in the input / output unit and with reference to real time current data on energy consumption, fluid flow rate and pressure from measuring devices (electric meters, flow meters, pressure sensors) via inputs 4.1.

In the accounting unit 5, in accordance with the structure and composition of the equipment of the technological process, the energy consumption, fluid flow rate and pressure data coming from the current data unit with a mark about the time of entering data into the system are linked to the technological process.

The information planning and processing unit 3 is intended for calculating planned energy consumption indicators and volumes of pumped liquid, calculating actual specific energy consumption and dynamically evaluating energy efficiency of oil production processes using energy efficiency indicators of the main oil production processes implemented in the modules: calculating specific energy consumption and energy efficiency indicators PiT 3.1; calculation of specific energy consumption and energy efficiency indicators PPD 3.2; calculation of specific energy consumption and energy efficiency indicators of the process of mechanical lifting of the liquid 3.3. The calculation of the actual specific energy consumption for pumping liquid is carried out automatically, as the ratio of energy consumption to the volume of pumped liquid, using the current readings of measuring instruments. As indicators of energy efficiency, indicators are established for which critical values are determined in each of the processes: the relative deviation of the actual efficiency (efficiency, defined as the ratio of the pressure at the output of the pumping unit to energy consumption) from the normative; coefficient of redundancy of pressure, defined as the ratio of the current pressure to the output of the pumping unit to the maximum for the unit for the year; the coefficient of pressure unevenness, defined as the ratio of the maximum pressure to the average for the month; load factor, defined as the ratio of the actual to the planned volume of pumping pump unit. Block 3 also automatically evaluates the current values of energy efficiency indicators by comparing them with the critical values of these indicators.

The inventive system operates as follows.

The task for the operation of the system is generated by the user in an interactive mode in the input / output unit 1 in the form of initial data: parameters of the system’s functioning - the period of entering current data from measuring instruments, critical values of energy efficiency indicators; passport characteristics of the equipment - efficiency, energy consumption, the volume of pumped liquid; characteristics of technological processes - structure, composition of equipment, properties and planned volume of pumped liquid, planned energy consumption.

The entered data from block 1 is sent to memory block 2, to the current data collection block 4 - the period for entering current data from measuring instruments, to the information planning and processing unit 3 - critical values of energy efficiency indicators and planned values for the volume of pumped liquid and energy consumption, in the block accounting 5 - structure and composition of technological processes equipment.

In the current data collection unit 4, the system is inputted with a period and with reference to real time current data on energy consumption, liquid and pressure flow rates from measuring devices (electricity meters, flow meters, pressure sensors) via inputs 4.1.

From the output of block 4, the entered data is received for long-term storage in memory block 2, for real-time monitoring in block 1 (if specified) and in block 5 for linking current data to the process.

In the accounting unit 5, in accordance with the structure and composition of the technological process equipment, current energy consumption data, liquid and pressure flow rates are generated for the equipment and the technological process. From the output of block 5, the current data on energy consumption, liquid and pressure rates for equipment and the process flow for long-term storage in memory block 2, for real-time monitoring in block 1 and in the planning and information processing unit 3 for calculating planned (normative) energy consumption indicators and volumes of pumped liquid, calculation of actual specific energy consumption and dynamic assessment of energy efficiency indicators of oil production technological processes. From the output of block 3, the calculated energy consumption indicators, the volumes of the pumped liquid, the actual specific energy consumption and energy efficiency indicators of oil production processes are transferred to blocks 1 and 2. In addition to calculating the values of these indicators in block 3, they are also automatically evaluated by comparing with critical (threshold) data values indicators and the issuance in block 1, in case they go beyond the threshold values, warning messages.

The proposed automated system for assessing the energy efficiency of oil production technological processes is used as follows (using the example of an automated system for evaluating the energy efficiency of oil production technological processes of Gazpromneft-Khantos LLC for PPD and PiT technological processes).

The system is implemented on a personal computer in the form of software modules in a high-level language, which allows, without changing the essence of the system, to change (specify, add) the composition of energy efficiency indicators.

For the functioning of the system, the following data is used for each object:

- type of pump unit (type of pump and type of electric motor);

- type, density and volume of the pumped liquid;

- maximum and average pressure at the inlet and outlet of pumping units and in line;

- the value of electricity consumption;

- the number of operating hours for the period under review;

- predicted values (power consumption, pumped liquid volume, line pressure).

To assess the energy efficiency of the process and equipment, the user selects the process (PiT or PDP) and introduces the analyzed time period.

To evaluate energy efficiency, the following indicators are implemented in the system, for which critical values are established:

- The relative deviation of the efficiency from the passport - the ratio of the efficiency of the actual pump unit to the passport efficiency. Critical values for PIT <= 0.65 and for PPD <= 0.9.

- The relative excess of the pressure of the pumping units over the maximum pressure in the line is the ratio of the sum of the actual pressure at the inlet of the pumping unit and the passport. Critical values for PIT> = 1.25 and for PPD> = 1.05.

- Coefficient of pressure unevenness - the ratio of the maximum pressure in the line to the average. Critical values for PIT> = 1.2 and for PPD> = 1.05.

- Load factor - the ratio of the actual and nominal pumping volume. The critical values for 75> PIT> 120 and for 80> PDP> 120.

- Efficiency of the pumping unit - the ratio of the hydraulic power transmitted by the pumping unit in line to the electric power consumed by the pumping unit. Critical values for PIT <= 25 and for PPD <= 70.

Using the proposed utility model provides for energy consumption accounting and actual specific energy consumption of the main production processes of the enterprise, in real time and at the pace with technological processes, to evaluate the energy efficiency of technological processes by the established indicators of energy efficiency of equipment and technological processes, as well as, in dynamics, control the departure of energy efficiency parameters of the equipment used for critical values, thereby revealing nergeticheski inefficient units and react, using, if necessary, the necessary energy saving measures.

Claims (1)

An automated system for evaluating the energy efficiency of oil production processes, including a data input / output unit, a memory unit, a current data collection unit, an information planning and processing unit, a current data collection unit, while the input and output data input / output unit is connected to the memory unit, a planning and information processing unit and a current data collection unit, which is connected to the memory unit by output, which is connected to the information planning and processing unit by input and output, characterized in that, with In order to record energy consumption and liquid flow rate data by processes and time, an additional metering unit has been introduced, connected by its inputs to a data input / output unit and a current data collection unit, and by outputs to a memory unit and an information planning and processing unit, into which to enable dynamic assessment and automatic monitoring of energy efficiency indicators, an additional module for calculating specific energy consumption and energy efficiency indicators of the preparation process and the infield has been introduced external and external transport, the module for calculating specific energy consumption and energy efficiency indicators of the process of maintaining reservoir pressure and the module for calculating specific energy consumption and energy efficiency indicators of the process of mechanical lifting of the liquid.

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