Petroleum Page 121

FRED是一款美国的著名光学设计分析软件。  product:Photon FRED 7.5 Lanaguage:English Platform:/WinNT/2000/XP Size:65MB

PIPESIM is a steady-state, multiphase flow simulator for the design and diagnostic analysis of oil and gas production systems. PIPESIM software tools model multiphase flow from the reservoir to the wellhead. PIPESIM also analyzes flowline and surface facility performance to generate comprehensive production system analysis. With advanced modeling algorithms for nodal analysis, PVT analysis, gas lift, and erosion and corrosion modeling, PIPESIM software helps you optimize your production and injection operations.Product:Schlumberger PipeSIM 2008.1 Lanaguage:english Platform:Winxp/Win7 Size:159MB

Stimcade® is a registered trademark used for Computer Software For Use In Oilfield Well Stimulation, Namely, For Selecting Wells Which Are Candidates For Stimulation, Designing Treatments, Executing Treatments, and Evaluating Real-Time and Post-Treatment Results and owned by Schlumberger Technology Corporation. Full trade mark registration details, registered images and more information below.Product:Schlumberger StimCADE 2.0 Lanaguage:english Platform:Winxp/Win7 Size:15MB

::::::English Description::::::  NeuraLog is the most widely-used log digitizing solution in the oil and gas industry. Automated digitizing streamlines your workflow by sending reliable digital data to time-critical projects. Unique quality improvement, editing and validation assure that your digital log data, which often comes from vendors where quality is uncertain, can be corrected and verified to meet your needs. For those working with rasters, NeuraLog can create straightened and depth registered images for your geological applications. NeuraLog’s simple interface, driven by workflow wizards and automation, makes is easy to get your work done quickly. Automated depth gridding and curve tracing expedite this once tedious task of capturing log data. However, this is only part of the power of NeuraLog. Image...

Encom EM Vision 2.3 is an interactive program for the earth sciences. Applications include mineral exploration, engineering geophysics, groundwater studies, salinity investigations and pollution monitoring. Encom EM Vision 2.3  allows you to display, analyse and manipulate time domain electromagnetic (TDEM) data in a variety of ways, and to control forward and inverse modelling. Features display, analyse and model the responses from TDEM surveysProduct:Encom EM Vision 2.3 Lanaguage:english Platform:Winxp/Win7 Size:21MB

PVTsimFluid Characterization Correct fluid characterization is essential to fluid flow simulations. The PVTsim package from Calsep is adapted as a standard for use within the OLGA Software Suite. The PVTsim package provides leading edge capabilities for fluid flow and flow assurance. The PVT simulation package PVTsim is being used by leading oil producing and operating companies throughout the world – and is used by most OLGA users. PVTsim Windows licenses for use with OLGA is offered by SPT Group. Based on extensive data material collected over a period of more than 20 years, PVTsim carries the information from experimental PVT studies into simulation software in a consistent manner and without losing valuable information on the way. PVTsim allows reservoir engineers,...

::::::English Description::::::  The optimal design of a given optical communication system depends directly on the choice of fiber parameters. OptiFiber uses numerical mode solvers and other models specialized to fibers for calculating dispersion, losses, birefringence, and PMD. Meshless Mode Solvers for LP and Vector Modes: Optical fibers may consist of an arbitrary number of concentric layers of lossless materials, and graded index fibers can be approximated using a sequence of constant index layers. OptiFiber 2.0 mode solvers find an exact solution based on matching boundary conditions at layer boundaries instead of relying on meshes to approximate the structure. These advanced mode solvers should be especially useful for multimode fiber calculations, where there are many modes in the spectrum.  Another advantage...

::::::English Description:::::: OptiGrating uses the Coupled Mode Theory to model the light and enable analysis and synthesis of gratings. A complex grating is approximated by a sequence of uniform segments, and analyzed by connecting the segments with the well-known Transfer Matrix Method. This gives the designer the information needed to test and optimize grating designs. Applications WDM add/drop, narrow and broadband fiber and waveguide filters Fiber Bragg reflectors EDFA gain flattening elements Dispersion compensators for fiber communications Sideband suppression using grating apodization Fiber and waveguide sensors Long Period Gratings with coupling to cladding modes Main Features • Arbitrary fiber/waveguide profile.• Arbitrary grating profile including arbitrary apodization and chirp.• Various calculation options in the spatial, spectral and time domains. • Sensors:...

::::::English Description:::::: OptiSystem is a comprehensive software design suite that enables users to plan, test, and simulate optical links in the transmission layer of modern optical networks. OptiSystem 7.0 – New Version Now Available New component library addressing the design of modern Coherent Optical Communication Systems. A True 64-bit engine supporting next generation operating systems, including Windows VISTA. Improved optical source and signal processing models. Comprehensive Features Four-wave Mixing, Stimulated Brillouin Scattering, Self-Phase Modulation, Cross-Phase Modulation. Stimulated Raman Scattering, and full bi-directional capabilities. MLSE (Maximum Likelihood Sequence Estimate), advanced component using the Viterbi algorithm. A robust library of multimode fiber models, including Parabolic-Index and Measured-Index profile. The most advanced optical amplifier design library available. The professional design environment of OptiSystem...

::::::English Description:::::: OptiFDTD enables you to design, analyze and test modern passive and nonlinear photonic components for wave propagation, scattering, reflection, diffraction, polarization and the nonlinear phenomenon. The core program of OptiFDTD is based on the finite-difference time-domain (FDTD) algorithm with second-order numerical accuracy and the most advanced boundary condition – Uniaxial perfectly matched layer (UPML) boundary condition. The algorithm solves both electric and magnetic fields in temporal and spatial domain using the full-vector differential form of Maxwell s coupled curl equations. This allows for arbitrary model geometries and places no restriction on the material properties of the devices. OptiFDTD enables you to design, analyze and test modern passive and nonlinear photonic components for wave propagation, scattering, reflection, diffraction, polarization...