The WELL.DONE system is the most reliable DTS on the market used for temperature sensing and logging applications in complex and simple wells. The fiber optic downhole sensor cable allows measurements at high temperatures and in combination with the WELL.DONE single mode fiber, the system is even insensitive to hydrogen based darkening effects.
Using only one single optical fiber, our DTS system covers thousands of measuring points along the sensor cable making the DTS technology far more efficient in installation and maintenance cost compared to other sensor technologies. Furthermore, the fiber can withstand very high temperatures and can be used for a very large variety of applications where extreme heat is a challenge.
As fluids are withdrawn or injected, the temperature profile of a well changes depending on formation and production time and rate. WELL.DONE monitors and detects such disturbances in the thermal equilibrium.
The system uses a fiber optic cable as the downhole sensor. Various different cable designs and fiber types are available to use the WELL.DONE DTS in almost all kind of downhole applications including those with high hydrogen concentration and high temperatures up to 450°C.
LIOS Technology provides the appropriate multimode and single mode cable. Our special single mode high temperature fiber has the advantage that it is unaffected by hydrogen usually causing the darkening of the fiber. The coatings of the optical fiber and the extrusion can be tailored to optimally suit the required resistance to temperature conditions and mechanical impacts.
Mean Time Between Failures of 40+ years
Reliability is critical when it comes to DTS systems. With 5,000 DTS systems in operation, we have calculated a remarkable MTBF of 40+ years.
Made from Telcordia rated components, passive cooling and no moving parts, our DTS systems are basically maintenance-free. The self-diagnosing features free you from worrying and allow you to focus on other important tasks.
Features
- 16 channels
- Temperature resolution better than 0.08°C
- Fast measurements
- Work with both multimode and single mode system
- External sensors
- Double ended calibration
- Enhanced software package with calibration algorithm for multiple segments
- Simplified outdoor installation capability
- Remote configuration
- Mean Time Between Failures of 40+ years
LIOS WELL.DONE covers a broad range of industrial applications offering operational safety, real-time control and profitable operations. Accurate, continual, and real-time temperature reading along the complete well path can give you valuable information about the condition of both the reservoir and downhole completion. This enables you to adjust parameters and schedule maintenance for maximum hydrocarbon production and minimize downtime. With always available and strong customer support, you care choose WELL.DONE with peace in mind – we are here to help!
WELL.DONE Temperature Readings will allow you to:
- Enhance oil and gas recovery
- Increase production yields
- RT Monitoring success of fracking operations
- Carbon capture and storage (CCS) tracking
- Track well production changes over time
- Reduce the frequency of well interventions
- Improve reservoir management strategies
- Supply in-flow distribution along the reservoir
- Detect early water, steam (SAGD), or gas breakthrough and its location
- Observe steam flooding performance
- Verify and allocate cross flow
- Check integrity of casing and completion
- Monitor and optimize gas lift valve operation
- Detect stuck or leaky valves, perforation inflow, porous insulation, wax deposits, hydrate precipitation, etc
WELL.DONE Models
| Distance range (per channel) | SM: 5, 10, 15, 20, 25, 30 km MM: 2, 4, 6, 8, 10, 12, 16, 20, 25, 30 km |
| Internal optical channels | 1, 2, 4, 6, 8,12, 16 (options) |
| Sampling interval (SI) | 1 m(3.3 ft), 0.25 m(0.82 ft) (option) |
Analog accessories
| External Sensors card for third party sensing integration: | Thermocouples (PT-100), voltage and current sensors (i.e. pressure gauge, flow meter, etc.) |
| Programmable inputs | 4 (optional up to 40) |
| Programmable outputs (potential-free) | 10 (optional up to 106) |
Compliance
| Explosion safety (option) | Directive ATEX, EN 60079-0,-28 |
Models
| Resolution | See plots compliant to SEAMFOM MSP_01 below |
| Minimum measurement time | 5 sec |
Communications
| Communication interfaces | Ethernet (2x) , RS232, USB |
| Communication protocols | MODBUS, XML (PRODML/WITSML, LAS or OPC on request) |
Mechanical Data
| Controller | 19“ Rack / 3 rack height units |
| Dimensions (H x W x D) | 13.1 x 48.3 x 33.8 cm (5.16 x 19.02 x 13.01 inch) |
| Weight | 13kg (29 lbs) |
Electrical Data
| Operating voltage (DC Controller) | DC 12 … 48 V (max 10 … 60 V DC) |
| Mains voltage (AC Controller) | AC 100 … 240 V or DC 110… 220 V |
| Power consumption (DC Controller) | 25W (max. 45 W at 60°C / 140 F) |
Optical Data
| Optical connector | E2000 / APC |
| Laser classification | 1M |
| Fibre type – multi mode DTS controller | Gradient index 50/125 µm multi mode |
| Fibre type – single mode DTS controller | 9/125 µm |
Environmental Conditions
| Storage temperature | -35 … +75 °C (-31 … 167 F) |
| Operating temperature | -10 … +60 °C (14 … 140 F) |
| Humidity | 5 to 95 % rel. (non condensing) |
| Protection class (IEC 60529) | IP51 |
Compliance
| Electrical safety | IEC/UL 61010-1, IEC 61140 Low voltage directive |
| EMC | EN 61326-1, EN 50130-4, EN 55011 EN 61000-6-2,3,-4-2,3,4,5,6,8,11-3-2,3 FCC 47 CFR Ch.1 part 15 |
| Laser safety | EN 60825-1,-2 |
| Environmental testing | IEC 60068-2-6,14,27,30,64, NAVMAT P-9492, ISO 13628-6 MIL-STD-810F, FED-STD-101C |
| Environmental compliance | RoHS directive WEEE directive |
