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Gas Lift Optimization Solution
Quick Links to Information Below
- Benefits of the Gas Lift Optimization Solution
- Wellsite Intelligence with the Gas Lift Optimization Solution
- Gas Lift Hardware Options
- Specifications of the Gas Lift Optimization Solution
| Gas Lift Optimization Solution Highlights |
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Access to continuous real-time dataPDF Documents
eProduction Solutions offers intelligence at the wellsite with controllers that can handle single or multiple wells for injection control and parameter monitoring.
Benefits of the Gas Lift Optimization Solution
General Benefits
- Monitor and control gas lift wells by collecting and displaying data from multiple gas lifted wells
- Provide grouping of wells by alarm codes, exception conditions or well attributes
- Provide interface to comprehensive analysis engine to determine current condition and future optimization
Unique Benefits
- Better utilization of manpower resources
- Better utilization of assets
- Optimize injection versus production (gas usage)
- Reduced deferment
- Manage gas allocation
- Production acceleration
Wellsite Intelligence with the Gas Lift Optimization Solution
eP's wellsite intelligence includes single or dual wells for injection control and parameter monitoring. The gas lift functions are logged for retrieval by the host. Integration with intelligent desktop applications assures seamless connection between the desktop and the wellhead. Programmable well start up algorithms insure proper unloading of the well. Robust pressure heading detection provides data that assures accurate analysis, well stability determination, lift gas allocation, and production parameters.
Firmware solutions offered by eP include:
- Well pad remote terminal unit (RTU)
- Various forms of continuous flow gas lift such as:
- Injection pressure operated
- Production pressure operated
- Differential pressure operated
eP has moved more intelligence to the remote gas lift well site to facilitate gas lift optimization. The gas lift RTU not only provides the standard monitoring and control capabilities expected in a remote RTU but also utilizes a unique heading detection scheme that detects repetitive oscillation of the injection and/or production pressures. Once heading is detected an alarm is set which alerts the central host operators to a possible problem so that they can focus their attention on problem well sites.
Benefits of Wellsite Intelligence
- Access to continuous real-time data
- Twenty-four hour local optimization
- Production increases of two to five percent (typical)
- Optimized use of available injection gas
- Well stability profile (heading detection)
- Single point interface to SCADA/MIS
Features of Wellsite Intelligence
- Eight digital inputs and eight digital outputs
- Eight analog inputs and two analog outputs
- Two RS-232 serial ports expandable to four or six RS-232/ RS-485 ports
- One AGA-3 flow calculation with AGA-8 Method 2 compressibility
- Eight channel data logger with up to 240 records-per-channel
- Supports communications via radio (licensed, spread spectrum and Cellular Digital Packet Data (CDPD)
- User programmable via Automatic Control Logic (ACL)
- Modbus scanner can be used for polling local smart peripherals to retrieve and store data. Specific support is provided for the StarPac II single-loop flow measurement and control system
- Trend buffers for injection pressure, production pressure, differential pressure and production temperature for two wells
- Heading detection on the injection and/or production pressure trend buffers
- Low power design permits solar operation where required
- Local display and keypad.
Heading Detection
Once a minute, the RTU saves the average values of the injection pressure, production pressure, differential pressure and production temperature into separate 1500 record trend buffers for each input. If two wells are connected a total of eight buffers will be used. The RTU then analyzes the trend buffers for repetitive oscillation of the injection and/or production pressures for the wells. If oscillation is occurring an alarm is set alerting the central host operator to a potential problem. The determination of this oscillation condition is called heading. Heading detection is done continuously over a user specified time window. Heading data is also captured at a daily "Gauge-Off" time.
Standard Alarm Generation
All sensor inputs are monitored continuously for failure conditions. Depending on the degree of the failure, alarms are set for a high fail or low fail condition as well as a high-high fail or low-low fail condition. This alerts the central host operator that service must be done at that well site.
Interface to Smart Peripherals
The gas lift RTU is provided with a Modbus Scanner capable of communicating with other smart devices. Specific support is provided for the StarPac II single-loop flow measurement and control system. This allows the RTU to act as a data concentrator so that a single radio can be used to retrieve all the necessary information from the well site.
Data Logger
A flexible eight channel data logger that permits logging at different sample rates on the various channels is provided that allows up to 240 values to be stored per channel. Critical values can be stored for historical review.
PID Control
A single PID control loop is provided that can use internal process parameters or a value from an external transmitter as the control variable. The PID parameters can be tuned to provide rapid control with minimum overshoot.
ACL (Automatic Control Logic)
This feature allows the operator to add custom logic to the gas lift RTU to handle special applications. ACL allows the operator to read any parameter and if a read/write parameter, it can be modified. Standard math functions including add, subtract, multiply and divide are supported. Logical operators AND, OR, XOR and NOT are available so that decisions can be made on levels or state. A simple application may be the setting of an alarm based on some special conditions.
AGA-3 Gas Flow Calculation
One gas flow calculation using the industry standard AGA-3/ AGA-8 Gross Method 2 flow calculation is supported. Current and previous days total accumulations are maintained for local and remote recovery.
Software Compatibility
The gas lift RTU uses standard Modbus protocol so that it can be used with any of the typical industry SCADA packages including csLIFT.
Gas Lift Hardware Options
Platform 1 - this currently implemented product is specifically designed to log relevant pressures and temperatures for gas lift diagnostics and optimization. It features robust data logging capabilities as well as a unique proven heading detection algorithm to enable the alarming of gas lift instability based on pre-defined user input variables. The unit also supports a wide variety of local and remote communication capabilities as well as additional I/O. The platform consists of the following:
- EXS-1000 Gas Lift Optimization (GLO) RTU
- Data logging
- Heading detection
- Remote communication
Platform 2 - this RTU combines the features of Platform 1 with the additional features of gas flow measurement and PID valve control for a single or dual gas lift well. The system supports both turbine and conventional meter run measurement calculations and, based on a pre-defined injection gas set point, will control a pneumatic valve to maintain a constant injection volume. In addition to control, the RTU has special functional parameter inputs and control algorithms to assist in gas lift operation and optimization. The components of this platform consist of:
- EXS-1000 GLO RTU with PID control functionality and gas flow calculation
- Data logging
- Heading detection
- Remote communication
- PID loop control
- Gas flow measurement - turbine or orifice
- Special gas lift functions
- Shut in parameter based on low injection line pressure
- Standby time
- Start up time
- Ramp up time during restart
Platform 3 - this RTU has the features of Platform 1 as well as special gas lift functions and is integrated with the Flowserve StarPac to provide robust data logging and remote communications. Platform components are:
- EXS-1000 GLO RTU
- Data logging
- Heading detection
- Remote communication
- Integrated with Flowserve Starpac control valve
- Special gas lift functions
- Shut in parameter based on low injection line pressure
- Standby time
- Start up time
- Ramp up time during restart
Combined with the integrated software suite, well allocation priority and overall field lift efficiency can be accurately monitored.
The integrated control package supports numerous radio communications packages and has Class I, Division II, Group D classification. Solar-cell and battery provide adequate power because of the controller's low power consumption design.
Specifications of the Gas Lift Optimization Solution
| Hardware Specifications |
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| Analog Inputs | Eight (one analog input can be jumpered for direct 100-Ohm platinum RTD input) |
| Range | Nominal 0 to 5 Vdc, 1 to 5 Vdc, 0 to 25 mA, or 4 to 20 mA (jumper selectable) |
| Resolution | 12 Bit, unipolar |
| Accuracy | Current inputs ±0.1% of full scale, voltage inputs ±0.1% of full scale (including linearity, hysteresis, repeatability, and resolution) |
| Temperature coefficient | ±0.01% of full scale/degree F |
| Analog Outputs | Two |
| Range | 0 to 25 mA or 4 to 20 mA |
| Resolution | 12 Bit, unipolar |
| Accuracy | ±0.1%, firmware calibratable to ±0.1% (including linearity, hysteresis, repeatability, and resolution) |
| Digital Inputs | Eight inputs @ 4 to 32 Vdc, 2 Hz maximum, 2 mA current limited (firmware filtered) |
| Optional | Turbine meter prescaler accepts up to 5 KHz signals from turbine meter |
| Digital Outputs | Eight outputs @ 0.5 Amp continuous, 6 Amp pulsed, 32 Vdc maximum |
| Real Time Clock | Accurate to within ±1 minute/month over operating temperature range |
| Data Ports | Two RS-232 asynchronous serial ports (1 for MMI, 1 for 300 to 19.2 KBaud telecommunications) |
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| Expansion ports provide RS-232 or RS-485 interface to external instruments and/or controllers |
| Operating Range | -40° to +85°C, 0-95% relative humidity (non-condensing) |
| Power Requirements | 8 to 32 Vdc @ 2.5 Watts average |
| Options | 110 Vac, 50/60 Hz input with one day battery |
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| (12 Vdc) backup, 0° to 60°C operation (assumes 1 Amp maximum load) |
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| 24 Vdc battery charging and backup for AC or solar powered units |
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| 12/24 Vdc DC to DC converter, used for 4 to 20 mA transmitters when battery backup is 12 Vdc |
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| 220 Vac, 50/60 Hz operation for AC input units |
| Local Display | 2 x 24 LCD (-20° to +70°C), optional with 20-key keypad |
| Overvoltage/Transient Protection | All inputs/outputs and power supply devices provided with surge protection to ANSI/IEEE C37-90.1-1989 (IEEE Std. 472-1974) |
| Software Specifications |
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| Control | Two PID control loops, output calculated every second |
| Serial Communication Interface | Two RS-232 asynchronous serial ports expandable up to four or six |
| Communications Protocols | Modbus ASCII, Modbus RTU, or 8500 |
| Communications Options | Bell Model 103, 202, or 212 modem Digital radio with integral modem (450 or 900 MHz) |
eP Gas Lift Solution Components
Hardware
- EXS-1000 Remote Terminal Unit (RTU)
- Downhole Pressure & Temperature Sensors
- ePRO Sensor Data Process System
- sPOD Single Point Digital Sensor
- mPOD Multi-Point Digital Sensor
Communications
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