Strategy that delivers
UPCOMING PROJECTS
New Technologies
ENERGY INSTITUTE OF INDIA
March 2025
The Energy Institute of India (EII) is planned to be established by working young and passionate Indian engineers and geoscientists with advanced degrees, to address issues raised by the growing energy needs of Indian economy. It achieves its mission through educating and training professionals and students in skills and knowledge needed for energy development and related environmental issues; resolving technical problems through application of state of art techniques; assisting and providing workforce for India’s oil and gas independent and service companies and for companies that want to do business in India; providing a database and clearinghouse for information and expertise; and forming a network of academic, industrial and government organizations.
EII instructors are global young and passionate Indian workforce graduated from top universities of world. The EII has an ample network of global contacts ranging from universities, research centers, private and public sector. Starting in 2025 the EII is planning short courses at Indian universities and for industry professionals to enhance the education opportunities to the most valuable resource of all, its human resource. The strength of the oil business lies in the professionals who have the adequate educational capacity and knowledge of new technologies.
NEW PRODUCT - SCOUT
March 2025
Coming SOON!!
INTELLIGENT CHOKE MANAGEMENT TOOL
March 2025
Presently most of the industry uses pre-determined industry standard choke management in well testing or production ramp up operations. While in order to reduce clean-up time it is desirable to open choke to maximum size, it may lead to excessive drawdown and other problems like sand production. Hence, it is vital to come up with optimal choke management strategy which should always be based on intelligent inputs from real time pressure data & past experiences. This tool is for determining the optimal choke size to reduce clean-up time and enhance production based on data analysis of historical reservoir & production records and real time tubing pressure data stream.
Advantages of using proposed methodology
Reduction in clean-up time by use of informed decision along with maintaining quality of acquired pressure data (stable GOR & flow rate).
Better parameters to quantify clean-up of well rather than just relying on visual BS&W%.
How it is different from already existing tools
Presently all tools use nodal analysis to predict choke-rate behavior for the wells but no tool is present which uses real-time THP as a input to direct future choke size for efficient reservoir management
All present tools require engineers to manually input geological & drilling parameters which are often cumbersome to obtain from piles of drilling and geological reports. The automated system can read pdf versions of report and use parameters from them directly as an input for prediction of optimal choke size.
At present no tool gives prediction of clean-up time and how can it be optimize. This tool can have additional capability of predicting hydrate formation.
RESERVOIR CHARACTERIZATION USING COUPLING OF TIDAL SIGNALS WITH DOWNHOLE PRESSURE TRANSIENT ANALYSIS
Dec 2025
Interpretation of ocean (and barometric) tide effects is based upon a cyclic change to the head of water (or air) which alters the overburden and thus reservoir pore pressure. Accurate measurements of surface ocean tide are simple to make and can be compared to in phase to measurements of the reservoir pressure. Thus, using this technology we can measure compressibility and porosity along with variation of compressibility away from the wellbore through interpretation of shift of phase between surface and bottom hole pressure measurements.
Fluctuations of pressure and liquid levels in wells that are connected with sufficiently confined subsurface fluids provides a means of obtaining quantitative data on the earth strains. These pressure fluctuations in a static reservoir can be due to earth or ocean tides. For an offshore reservoir with unconsolidated sands the tidal signal transmission efficiency is relatively large and hence it become possible to extract tidal signals from downhole gauge. While downhole pressure gauge radius of investigation is dependent on time of flow period. Ocean tides, owning to their vast extend as compare to the reservoir affects a much larger area. Thus, in theory for a static reservoir it becomes possible to detect reservoir compartments by analysis of induced pore pressure changes due to ocean tides. Detection of this phenomenon in the well could also represent a new piece of information about the fluids present in the vicinity of the well.In simple words, this tool provides: Analysis of tidal phenomenon in deepwater wells and its magnitude with the aid of mathematical modeling.