GATE2025 Petroleum Engineering-PE Syllabus
Important Note for Candidates: In each of the following subjects the topics have been divided into two categories – Core Topics and Special Topics. The corresponding sections of the question paper will contain 90% of their questions on Core Topics and the remaining 10% on Special Topics.
Section 1: General Aptitude (GA) Syllabus
(Common for all, 10 Question, 15 Marks)
The General Aptitude section is a common component across all papers of the GATE 2025 examination, constituting 15 marks out of 100 for each subject. The syllabus, available on the official website, aids candidates in preparing more effectively for the GATE 2025 exam. The GATE General Aptitude (GA) Syllabus comprises four key sections:
- 1. Quantitative Aptitude
- 2. Verbal Aptitude
- 3. Analytical Aptitude
- 4. Spatial Aptitude
1. Quantitative Aptitude in the General Aptitude (GA) Syllabus covers the following topics:
- Numerical computation and estimation
- Ratios
- Percentages
- Powers
- Exponents and logarithms
- Permutations and combinations
- Series
- Mensuration and Geometry
- Elementary statistics
- Probability
2. Verbal Aptitude in General Aptitude (GA) Syllabus includes the following topics:
Basic English Grammar | Basic Vocabulary |
---|---|
Tenses | Words |
Articles | Idioms and phrases |
Prepositions | |
Conjunctions | |
Adjectives | |
Verb-Noun agreement |
3. Analytical Aptitude in the General Aptitude (GA) Syllabus includes the following topics:
- • Logic: deduction and induction
- • Analogy
- • Numerical relations and reasoning
4. Spatial Aptitude in the General Aptitude (GA) Syllabus includes the following topics:
- • Transformation of shapes
- • Translation & Rotation
- • Scaling & Mirroring
- • Assembling & Grouping
- • Cutting & Paper folding pattern
- • Patterns in 2 and 3 dimensions
Section 2A: Engineering Mathematics
Linear Algebra: Matrix algebra, systems of linear equations, eigenvalues, and eigenvectors.
Calculus: Functions of a single variable, limit, continuity, and differentiability, Taylor series, mean value theorems, evaluation of definite and improper integrals, partial derivatives, total derivative, maxima and minima, gradient, divergence and curl, vector identities, directional derivatives, line, surface, and volume integrals, Stokes', Gauss', and Green’s theorems.
Differential equations: First-order equations (linear and nonlinear), higher-order linear differential equations with constant coefficients, Cauchy’s and Euler’s equations, initial and boundary value problems, Laplace transforms, solutions of one-dimensional heat and wave equations, and Laplace equation.
Complex variables: Complex number, polar form of complex number, triangle inequality.
Probability and Statistics: Definitions of probability and sampling theorems, conditional probability, mean, median, mode, and standard deviation, random variables, Poisson, normal, and binomial distributions, linear regression analysis.
Numerical Methods: Numerical solutions of linear and nonlinear algebraic equations, integration by trapezoidal and Simpson’s rule, single and multi-step methods for the numerical solution of differential equations.
Section 2B Core Subjects : Petroleum Engineering-PE
Petroleum Exploration: Classification and description of some common rocks with special reference to clastic and nonclastic reservoir rocks. Origin, migration, and accumulation of Petroleum. Petroleum exploration methods.
Oil and Gas Well Drilling Technology: Well planning. Drilling method. Drilling rigs Rig operating systems. Drilling fluids function and properties. Drilling fluid maintenance equipment. Oil & gas well cementing operations. Drill bit types and their applications. Drill string & Casing string function, operations, selection & design. Drilling problems, their control & remedies. Directional drilling tools. Directional survey. Application of horizontal, multilateral, extended reach, slim wells.
Reservoir Engineering: Petrophysical properties of reservoir rocks. Coring and core analysis. Reservoir fluid properties. Phase behavior of hydrocarbon system. Flow of fluids through porous media. Water and gas coning. Reservoir pressure measurements. Reservoir drives, drive mechanics and recovery factors. Reserve estimation & techniques. Petroleum Production Operations: Well equipments. Well completion techniques. Well production problems and mitigation. Well servicing & Workover operations. Workover & completion fluids. Formation damage. Well stimulation techniques. Artificial lift techniques. Field processing of oil & gas. Storage and transportation of petroleum and petroleum products. Metering and measurements oil & gas. Production system analysis & optimization. Production testing. Multiphase flow in tubing and flow-lines. Nodal system analysis. Pressure vessels, storage tanks, shell and tube heat exchangers, pumps and compressors, LNG value chain.
Offshore Drilling and Production Practices: Offshore oil and gas operations & ocean environment. Offshore fixed platforms, Offshore mobile units, Station keeping methods like mooring & dynamic positioning system. Offshore drilling from fixed platform, jack-up, ships and semi submersibles. Use of conductors and risers. Offshore well completion. Deep water applications of subsea technology. Offshore production: Oil processing platforms, water injection platforms, storage, SPM and SBM transportation and utilities. Deep water drilling rig. Deep water production system. Emerging deep water technologies.
Petroleum Formation Evaluation: Evaluation of petrophysical of sub-surface formations: Principles applications, advantages and disadvantages of SP, resistivity, radioactive, acoustic logs and types of tools used. Evaluation of CBL/VDL, USIT, SFT, RFT. Production logging tools, principles, limitations and applications. Special type of logging tools. Casing inspection tools (principles, applications and limitations), Formations micro scanner (FMS), NMR logging principles. Standard log interpretation methods. Cross-plotting methods.
Oil and Gas Well Testing: Diffusivity equation, derivation & solutions. Radius of investigation. Principle of superposition. Horner’s approximation. Drill Stem Testing. Pressure Transient Tests: Drawdown and build up-test analysis. Wellbore effects. Multilayer reservoirs. Injection well testing. Multiple well testing. Interference testing, Pulse testing, well-test analysis by use of type curves. Gas well testing.
Health Safety and Environment in Petroleum Industry: Health hazards in Petroleum Industry: Toxicity, Physiological, Asphyxiation, respiratory and skin effect of petroleum hydrocarbons, sour gases. Safety System: Manual & automatic shutdown system, blow down systems. Gas detection system. Fire detection and suppression systems. Personal protection system & measures. HSE Policies. Disaster & crisis management in Petroleum Industry. Environment: Environment concepts, impact on eco-system, air, water and soil. The impact of drilling & production operations on environment, Environmental transport of petroleum wastes. Offshore environmental studies. Offshore oil spill and oil spill control. Waste treatment methods.
Enhanced Oil Recovery Techniques: Basic principles and mechanism of EOR, Screening of EOR process. Concept of pattern flooding, recovery efficiency, permeability heterogeneity. Macroscopic and microscopic displacement efficiency. EOR methods: Chemical flooding, Miscible flooding, Thermal recoveries (steam stimulation, hot water & steam flooding, in-situ combustion), Microbial EOR.
Latest trends in Petroleum Engineering: Coal bed methane, shale gas, oil shale, gas hydrate, and heavy oil.