Now offering combinability for memory services.
The Multi-Finger Caliper (MFC) has 24 to 60 high resolution calipers which measures the internal radii of the wellbore tubing and casing. Accurate measurements can be made in tubular sizes from 1.75 inches to 20 inches in diameter. The MFC uses a series of “contactless” displacement sensors and a corresponding number of measurement fingers. When moving along the inner casing wall, the radial displacement will be changed into an axial displacement of the sensor, which is then processed, coded, and transferred to surface system where the image of the casing will be obtained.
Empire Special Services was formed to fill a void in the casing inspection market. Our personnel has over 60 years combined experience and are backed by the most technologically advanced casing inspection hardware and software in the industry. Empire is currently the only company operating in North America with the capability to provide our customers a full casing inspection survey by means of a point to point internal reading via a multi finger caliper (MFC), and an external corrosion assessment by means of our electromagnetic thickness tool (EMT). Our EMT has the capability of providing the client a true corrosion assessment without having the influence of another, outer tubing string in the hole. In addition, our EMT can provide the client an assessment of the outer casing as well as the inner casing during the same trip in the hole.
The following descriptions are just a sample of our tools and capabilities.
Electromagnetic Tool Specifications:Tool OD – 1 11/16”
Max Temp/Pressure 350F/15000PSI
Length/Weight – 98.5”/51 lbs
Logging Speed – 16’/min
Pipe String Measurement Range – 2.362” – 20" Single Pipe Measurements:
Pipe Wall Thickness - ≤ 0.4724” Measurement Error - ± 0.0197”
Resolution – 0.0059”
Double Pipe Measurement:
Pipe Wall Thickness - ≤ 0.984”
Measurement Error - ± 0.059”
Resolution – 0.0118”
PULSE NEUTRON NEUTRON TOOL (PNN) measures sigma, the ability of material to capture thermal Neutrons, in capture units (c.u.).
PNN directly counts the thermal neutrons reaching the detectors after their interaction with the surrounding formation; then, the usual inference by common thermal decay tools that count Gamma rays where High-counts means high-sigma-Values changes by the PNN tool into High-counts means low-sigma-Values, and it has the significance of obtaining statistical uncertainties reduction for low sigma values. this sole measuring approach allows better differentiation in environments of low sigma values, which is the case when fresh water, oil and/or gas are present in the pore spaces, overcoming by this way, the low salinity formation water problem which appears as a limitation factor of standard thermal Decay time tools; additionally, Neutron readings are less affected by Neutron activation, hence, logging of time-driven stop-Checks in area of interest helps reduce the statistical uncertainties of readings at any de-sired depth spot. All of this makes PNN tool, in conjunction with our PNN processing and analysis software, a competitive behind-casing formation evaluation tool for high to moderate water salinity formations and the ultimate thermal decay tool for evaluation of lower salinity and lower porosity formations.
Water saturation behind casing, porosity, remaining Hydrocarbon reserves estimation, oil-water, gas-water and gas-oil contacts location, etc.
The formation is bombarded with pulses of high-energy neutrons (14 MeV) generated by the tool. Neutrons interact with the surrounding atoms and, during the lapse of time between high-energy neutron pulses, the thermal neutron population that reaches the Neutron detectors is sampled by two detectors with 60 time channels each; Per Channel Neutrons counted are used to compute the rate of decay, it is equivalent to measuring the rate at which thermal neu-trons are absorbed into the formation, the greater fluids and minerals capture thermal neutrons, the higher the value of sigma.
Cement bond tools measure the bond between casing and the cement placed in the annulus between the casing and the wellbore. Prestige utilizes both 8 and 16 sector bond tools which allows us to provide clients with tubings from 4" to 22" a proper cemented casing evaluation.The measurement is made by using acoustic sonic and ultrasonic tools.
The measurements of industry-standard sonic tools are usually displayed on a cement bond log (CBL) in millivolt units, decibel attenuation, or both. Reduction of the reading in millivolts or an increase in the decibel attenuation is an indication of better-quality bonding of the cement behind the casing to the casing wall.
Description:The Memory Logging System (MLP) is used when electric line conveyed realtime logging is not an available option, when using Slickline or when using Coiled , Tubing. A standard memory job consists of the following procedure: - DMC is synced and programmed through the MCM -TDR is connected to depth control device and records time versus depth -Tools are lowered into hole and preset procedure is executed on the DMC to record time versus sonde samples -Once back at surface, TDR and DMC data are merged in software to create a log
Below standard wireline
Extended reach tractor jobs
DIAMETER 13/8" (35mm) 111/16'' (43mm) 27/8"
MAX. TEMPERATURE 350°F (175°C)
MAX. PRESSURE 15,000psi (103MPa)
VOLTAGE 13.520 VDC
STANDBY CURRENT 2mA
SAMPLING RATE 20ms24hr, 20ms increment, adjustable
DOWNLOAD RATE 4mb/min to cpu
MEMORY CAPACITY 512mb (1GB custom) 500kbps
COMMUNICATION RATE 500kbps
BATTERY CAPACITY 6.2AH (Extended length available)
The Spectral Noise Tool is used to detect the incoming noises in the wellbore generated at different spectral frequencies from different sources. By analyzing the frequency spectrum, the nature of fluids may be determined and leaks can be located.
Noise logging is applicable to oil/gas/water wells. It increases the success rate of locating leaks and channeling in tubulars. When combined with temperature and flowrate measurements, extensive quantitative interpretation can be performed.
-Location of production interval and productivity evaluation -Fluid identification and flow rate evaluation -Inspection of the channeling behind casing, leaks, backflows, sand production, and effect of packers