Curriculum - Energy and renewable energy
The objectives of this course are twofold. Firstly, to develop an understanding of combinatorial automated systems, encompassing combinatorial systems, binary, gray, and BCD codes, as well as the truth table that describes the functioning of a logical system. Additionally, proficiency in creating flowcharts or ladder diagrams for programming will be emphasized. Secondly, the course aims to impart knowledge of sequential automated systems, focusing on memory, the characteristics of sequential systems, and the RS, D, and JK components.
The objective of this course is to understand the structure of atoms, including those with a single electron and those with multiple electrons. Additionally, the course aims to explore chemical bonds and the various states of matter. Students will learn to predict the spatial geometry of molecules by studying inter-atomic bonds, and they will acquire the ability to determine the energetic, electronic, and geometric properties of atoms and molecules.
The objectives of this course are to cultivate an understanding of the general principles of thermodynamics in diverse situations and systems, and to apply these principles effectively. Specific focus will be placed on mastering concepts such as energy balance, entropy, and the efficiency of thermal machine engines. The course places a strong emphasis on developing analytical and critical thinking skills for problem-solving in fundamental thermodynamic systems.
The objectives of this course are to foster an understanding of the basic principles of electricity, specifically direct and alternating current modes, and to apply these principles to various applications. The emphasis is on demonstrating analytical and critical thinking in problem-solving within electrical circuits in both DC and AC modes.
The objectives of this course are to master the concepts of parameterization, kinematics, kinetics, and dynamics of a point, along with understanding energetic approaches and conservation laws.
The overarching objective of this course is to achieve proficiency in technical drawing and gain practical experience in computer-assisted drawing (CAD).
This course aims to learn the basic elements of mathematical techniques and methods used in Physics: the functions of a real variable, sequences, limited expansions, and basic differential equations.
The main objectives of the course are to:
•Introduce concepts of mathematical logic for analyzing propositions and proving theorems.
•Use sets for solving applied problems and use the properties of set operations algebraically.
•Work with relations and investigate their properties.
•Introduce basic concepts of arithmetic
•Describe groups, rings, Field, and the polynomial rings.
•Practice the Partial fraction decomposition.
•Use computational techniques and algebraic skills essential for the study of vector spaces and linear applications.
Upon completion of this course, students will be able to :
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Implement algorithms and draw flowcharts for solving Mathematical and Engineering problems.
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Develop C programs.
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Design and develop Computer programs, analyzes, and interprets the concept of declarations, initialization, operations on arrays and their usage.
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Use the concept of array of structures.
This course objectives are :
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Review reading strategies
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Provide practice on summarizing and outlining texts.
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Introduce Energy based vocabulary and texts.
This course objectives are to master the structure of the French language in a fairly correct way on the lexical, morphological, syntactic and textual level in order to express oneself orally and in writing.
This course objectives are to study the principles of Communication, to apply them in speeches as well as in written texts allowing and to present oneself and/or present a project
EEA-1021E
PLC, Programmed Logic Control
The objectives of this course include the ability to read and analyze automated systems or specifications using GRAFCET. Additionally, the course aims to foster an understanding of industrial programmable logic controllers (PLC) and proficiency in programming using various languages such as Ladder, FBD, SFC, and others
CHM-1022E
Chemical Thermodynamics
This course objective is to use thermodynamic tables in order to imagine the thermodynamic cycles intended to calculate the quantities of heat involved during a reaction. To determine a priori whether a reaction is possible under given conditions. To determine the state of equilibrium reached at the end of the reaction, according to the initial conditions. To determine the optimal conditions for the development of a chemical reaction.
CHM-1032E
Chemistry in aqueous solutions
This course objective is to draw the potential-pH diagram relating to an element and thus identify the different chemical forms that an element can take in solution depending on the different conditions, to know electrochemical systems and the operation of ordinary batteries and accumulators.
PHY-1032E
Electromagnetism
The objectives of this course are to understand the basic principles of electrostatics (including the concept of electric field), magnetostatics (including the concept of magnetic field), and electromagnetic induction. Furthermore, students will gain the ability to apply these principles to various applications, such as electric motors and generators. The emphasis is on demonstrating analytical and critical thinking in problem-solving within the field of electromagnetism.
MES-1032E
Static and kinematic solid
The objective of this course is to comprehend and master the concepts of kinematic and static torsors and their applications in mechanics.
MES-1041E
Mechanical engineering II
The general objective of this course is to master functional analysis, functional dimension, adjustments and practice computer-assisted drawing CAD.
MEF-1011E
Fluid mechanics
The objective of this course is to introduce students to fluid mechanics, providing an understanding of fluid properties and their classifications. Additionally, the course aims to familiarize students with the theorems relevant to fluid mechanics.
MAT-1033E
Analysis
This course objectives are to
•Define the integral and the primitive of a function
•Calculus integral using technics (variable change, integration by part)
•Learn to study the convergence (and possibly to calculate) of integrals whose bound is infinite or where the function is not defined and has an infinite limit.
•Define the notion of infinite sequences.
•To be able to demonstrate that a numerical series is convergent
MAT-1041E
Algebra
This course objectives are to :
•Find a matrix for a linear mapping;
•Perform matrix products
•Find an inverse of a nonsingular matrix
•Evaluate determinant and relate to theory;
•Recognize similar matrices;
•Compute the rank of a matrix
•Reduce a matrix to reduced echelon form;
•Solve a system of linear equations;
MAT-1051E
Geometry
This course objectives are to :
•Affine space in dimensions 2 and 3
•Euclidean affine space in dimensions 2 and 3.
•Parameter curves in the plane.
The second part of the C programming course in the second semester focuses on several key topics. These include the exploration of arrays, pointers, user-defined functions, manipulation of strings, and the introduction to data structures. Students will delve into these concepts to strengthen their understanding and proficiency in C programming, enhancing their ability to solve complex problems and write efficient code.
The objective of this course is to consolidate the intermediate language knowledge and communication skills; it also introduces the students to basic vocabulary, writing, and communicative skills used in different communication situations.
The objective of this course is to: Master the linguistic tools necessary for the understanding and production of argumentative texts/speeches
The objective of the course is to:
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Apply tools for structuring a text;
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Apply a method for presenting the point of view;
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Study the forms and formulas of professional correspondence.
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Study the tools and methods of self-presentation from a professional point of view.
EEA-2031E
Linear automatic system 1
The student is expected to achieve several objectives in this course. These include the ability to identify the structure of a controlled system, distinguishing between direct and return chains with components like sensors, commands, comparators, and correctors. Additionally, the student should be able to characterize canonical input signals such as step, pulse, ramp, and sinusoidal signals. Understanding Laplace transforms and their inverses for various functions or signals is crucial. The course also emphasizes modeling through differential equations, providing insight into the behavior of continuous and invariant linear systems (CILS). Furthermore, students are required to comprehend transfer functions derived from physical equations, determine open-loop and closed-loop transfer functions, and calculate temporal responses for both first and second-order systems.
CHM-2041E
Chemical kinetics
This course objective is to study rates of chemical reactions and the mechanism of reactions at the molecular level.
PHY-2043E
Optics and propagation of waves
The objectives of this course encompass a comprehensive understanding of Snell-Descartes laws, attributed to Alhazen, and their practical application in solving problems within geometric optics. Students are expected to grasp the functioning of mirrors and lenses, delving into their operational principles. The course extends to the assimilation of the workings of pertinent optical systems like magnifying glasses, microscopes, telescopes, and the human eye. Moreover, students are tasked with the hands-on manipulation of light through the utilization of mirrors and lenses. Lastly, the course aims to elucidate the fundamental mechanisms governing both mechanical and electromagnetic waves, offering students insights into the underlying principles of wave propagation.
At the end of this course, the student will be able to know the normal elements and their main derivatives, know the main crystal structures and understand their main physical properties.
MAN-2011E
Introducing the general economy
This course is an introduction to general economics. It allows students to discover the stakeholders as well as the tools and processes to measure economic facts and economic statistics. It also helps to tackle the “production management” sub-discipline, as well as how to generate and distribute incomes.
This course objective is to study the mass geometry, kinetics and dynamics of solids (the operators of inertia, the elements of kinetic and dynamic torsors, to apply the fundamental principle of dynamic and energetic study of a system).
At the end of this course, the student should be able to: Deepen the technological culture and master the technical language, Design, and dimension a mechanism from a specification or the expression of a need, Conceive and dimension classic transmission organs.
MEF-2022E
Fluid mechanics
This course objective is to study the fluid statics the dynamic and the kinematics (1) of fluid in different flow problems.
MAT-2063E
Analysis
This course aims to understand the concepts of normalized vector spaces (evn), study functions of several variables, and explore integral calculus (double and triple)
The objectives of this course are multifaceted, encompassing the establishment of a vocabulary pertinent to eigenvalues and eigenvectors. Students will delve into the definition and application of the characteristic polynomial, with a focus on manipulating endomorphism and matrix polynomials in connection with diagonalization and Jordanization. The course further involves defining and applying diagonalization and Jordanization, employing tools like the minimal polynomial and nilpotent matrices for various applications, including calculating powers and exponentials of square matrices, determining the general terms of specific sequences, and solving linear differential systems with constant coefficients. Additionally, the course aims to solidify understanding of Euclidean and Hermitian vector spaces, covering topics such as the scalar product, Cauchy-Schwarz inequality, Euclidean norm, and orthogonality. Furthermore, students will define and study symmetric matrices and orthogonal matrices in a Euclidean space, as well as unitary and normal self-adjoint matrices in a Hermitian space. The presentation and utilization of the fundamental theorem, especially in the study of symmetric matrices in a Euclidean space and normal matrices in a Hermitian space, will be a focal point of the course
Upon successful completion of this course, the student should be able to:
- Understand the main features of the MATLAB development environment.
- Use the MATLAB effectively.
- Design simple algorithms to solve problems.
-Write simple programs in MATLAB to solve scientific and mathematical problems.
The objective of this course is to consolidate the pre-intermediate language knowledge and communication skills; it also introduces the students to basic vocabulary, writing, and communicative skills used in different communication situations.
The objective of this course is to express oneself correctly both orally and in writing.
EEA-2041E
Linear automatic system 2
The objectives of this course are centered around the analysis and control of servo systems. Students will learn to check the stability of a servo system and calculate the steady-state error concerning step or ramp inputs, whether they are setpoints or disturbances. The course also focuses on equipping students with the ability to calculate corrector parameters to meet specific performance specifications. In addition, students will gain practical experience by employing experimental approaches to analyze the characteristics of an MCC DC motor, further enhancing their understanding of real-world applications in control systems and motor dynamics.
CHM-2062E
Organic Chemistry
The objectives of this course are to comprehend and identify the features of descriptive organic chemistry, including the structure and nomenclature of organic compounds, structural formulas, constitutional isomers, stereoisomers, conformational isomers, and the principles of electron delocalization. In the second part of the course, the focus shifts to the chemistry associated with alkanes, alkyl halides, alkenes, alkynes, alcohols, aromatic compounds, amines, carboxylic acids, and their derivatives. Students will learn how to apply these concepts in analysis and synthesis and be able to depict mechanisms for the most significant types of organic reactions.
The objective of this course is to comprehend the physics underlying the semi-conducting states of condensed matter, explore the design of semiconductor-based electronic devices, assimilate the implementation of semiconductors and diodes in electronic devices, understand the operational principles of a diverse array of transistors including Bipolar Junction Transistor, Junction Field Effect Transistor (JFET), and Metal-Oxide-Semiconductor Field Effect Transistor (MOSFET). Additionally, the course aims to develop skills in manipulating electric signals using diodes and transistors, as well as understanding tools that enable the modeling and prediction of output signals for transistor-based electric devices such as rectifiers and amplifiers
MAN-2021E
Business knowledge
The course objective is to offer an overview of the various functions within a company and the organizational structure of management. It also equips students with methodological approaches and diverse tools to effectively manage both the quality and physical flows within the company.
The objective of this course is to examine assumptions in the resistance of materials, delve into the theory of beams, and explore the resistance of simple structures.
MEF-2031E
Fluid mechanics
The objective of this course is to explore kinematics 2 and the development and application of the Navier-Stokes and Euler equations for various fluid flow problems, particularly in the case of a perfect fluid.
MES-2082E
Hydraulic engineering
The objectives of this course are to understand a hydraulic system, modify its specifications, and provide additional functionality. It also enables students to comprehend a hydraulic system, restoring its intended functionality by changing or modifying elements that are no longer performing their function or have a degraded mode of operation.
MAT-2082E
Analysis
The objectives of this course are as follows:
- Define the concepts of simple and uniform convergence, understand the graphical interpretation of uniform convergence, and comprehend the Cauchy criterion for uniform convergence. Also, acquire knowledge about the properties of sequences and series of uniformly converging functions.
- Entire series: Learn how to calculate a radius of convergence and develop entire series. Understand the developments in entire series of typical functions.
- Fourier series: Explore and comprehend how a periodic function can be decomposed into a sum of sinusoidal functions, which will be calculated. This knowledge is useful for preparing physics lessons on periodic signals.
The objective of this course is to establish a foundation in probability theory and statistical inference, enabling the solving of applied problems and laying the groundwork for more advanced courses in probability and statistics.
Upon successful completion of this course, the student should be able to:
- Create drawings using Matlab.
- Calculate the zeros of a function.
- Interpolate a function and compare graphs.
- Perform digital integration.
- Numerically solve ordinary differential equations.
GEN-2091E
English
The objective of this course is to consolidate the pre-intermediate language knowledge and communication skills; it also introduces the students to basic vocabulary, writing, and communicative skills used in different communication situations.
GEN-2101E
French
The objective of this course is to express yourself correctly and effectively both orally and in writing.
ENR-3012E
Thermal 1
The objectives of this course are as follows:
- Determine and calculate the heat flux and temperatures for both steady and transient states.
- Determine and calculate the heat flux, temperatures, and coefficients that characterize this type of transfer.
- Determine and calculate radiations, temperatures, and coefficients that characterize this transfer.
The objectives of this course are as follows:
- Solve problems related to circuits in three-phase mode.
- Study magnetic circuits using the laws governing magnetic circuits.
- Understand the operation of single-phase and three-phase transformers.
EEA-3062E
Signals and systems
The objectives of this course are to represent the uni- and bilateral spectrum of a signal, facilitating the analysis of signal composition for processing, filter design, and realization. This course holds significance for the analysis and filtering of signals in the context of energy conversion.
EEA-3072E
Automation and system control
The objectives of this course are to:
- Model a system using a state space formalism.
- Examine system performances in terms of stability, controllability, and observability.
- Calculate and analyze optimal control with observers or PID control to achieve desired performances.
In this course, students will learn about project management-specific methodology (project mode), particular project management vocabulary (specifications, sponsor, project owner, project manager, etc.), and project management tools (planning, cost management, risk analysis, communication plan, MS Project software).
The objective of these conferences is to provide students with the skills and current knowledge essential for the engineering profession in sectors closely related to the professions covered by the Energy diploma.
This course aims to help students understand the company as an open system in a dynamic relationship with its environment. It involves analyzing the company as a network of interconnected functions, relating them to various courses in the program. The course seeks to comprehend the managerial role in this ever-changing system and create a coherent synthesis through practical applications on real cases. The knowledge gained is intended for practical use within micro-enterprises. Additionally, students will develop awareness of information research through practices like press reviews as part of economic intelligence. The course also focuses on studying the annual accounts of companies in Managerial accounting.
The objective of this fundamental mechanical course is to equip students with the necessary tools to analyze motion and design mechanical structures (e.g., wind turbine, car, aircraft, etc.), as well as to mitigate the effects of mechanical vibrations.
The objective of this course is to master the dynamic vibration of mechanical systems, identify the nature of vibration, and understand the motion equation of a single-degree-of-freedom (1DDL) system.
The objectives of this course are as follows:
- Provide students with the necessary knowledge and skills to use mathematical operations and solve problems involving complex numbers.
- Apply Cauchy’s Theorem, utilize Cauchy’s integral formula, and recognize the existence of Taylor and Laurent series. Applications will include harmonic functions, simplified methods for computing seemingly challenging integrals, as well as Laplace transforms, and Fourier transforms with applications to engineering and physics.
This course aims to familiarize ECINE students with specialized vocabulary, focusing on topic that will be useful in professional work environment.
The course objectives are:
- Prepare and deliver an effective pitch
- Identify techniques for business prospecting.
- Recognize the various phases of the recruitment process and prepare each phase.
- Practice job interviews based on conducted simulations
ENR-3023E
Thermodynamics and thermal 2
The objectives of this course are as follows:
- Determine and calculate heat flux and temperatures for transient states using various methods.
- Determine and calculate the heat flux, temperatures, and coefficients characterizing this type of transfer.
- Determine the physical principles of temperature sensors and calculate the measurement error in steady state.
- Identify the unique vocabulary associated with thermodynamics through the precise definition of basic concepts to form a solid foundation for the development of thermodynamic principles.
- Introduce the concept of energy and define its various forms.
- Demonstrate the procedures for determining thermodynamic properties of pure substances.
-Identify the first law of thermodynamics as a statement of the conservation of energy principle for closed (fixed mass) and control volumes. Develop the general energy balance applied to closed and open systems.
- Introduce the second law of thermodynamics and apply it to cycles and cyclic devices.
- Describe the Carnot cycle and examine the Carnot principles, idealized Carnot heat engines, refrigerators, and heat pumps.
- Define a new property called entropy to quantify the second law effects. Establish the principle of increasing entropy and calculate the entropy changes that occur during various processes.
The objectives of this course are:
- Explain the operating principles of induction machines, synchronous machines, and DC machines.
- Calculate parameters in models of electrical machines.
- Use equivalent circuits to analyze electrical machines in steady state.
- Construct phasor diagrams for different loads and use the vector method for the analysis of AC machines.
- Learn the basic operation and control of DC machines.
EEA-3092E
Discreet event systems
The objectives of this course are:
- Model a discrete event system based on a finite state automaton, - - API, or Petri Nets.
- Apply Supervisory Control Theory, following Ramadge & Wonham and API methods.
- Simulate the discrete event system for control and supervision.
CHM-3082E
Material characterization
The objective of this course is to establish the connection between the composition and atomic organization with the macroscopic properties of materials. It covers different classes of materials, their essential characteristic properties, and the main methods of characterization for various materials.
MAN-3061E
Project management
The objective of this course is to define project specifications; Plan, implement, and validate a project; Know the tools for analysis and problem solving; and Schedule tasks for a project.
MAN-3071E
Business conferences
The objective of these conferences is to acquire the skills and know-how necessary for the engineering profession in sectors of activity close to the professions covered by the ECINE diploma.
MAN-3081E
Financial analysis
The objective of this course is to study the data reported by companies in their financial statements. It aims to provide students with the basic tools necessary to understand and analyze the company's financial data over time and space, enabling them to make judgments about its performance.
This course is a second advanced part of structural mechanics which deals with the characteristics of surfaces and cross sections of beams, notions of stress and deformation due to mechanical stresses, an introduction to the dynamics of structures, 1DDL systems, elementary oscillators and the vibration of the contained systems.
The objectives of this course include:
- Exploring the notion of probability, covering new laws such as the -- - Law of Chi-squared and Student's Law.
- Developing vocabulary in statistics, understanding concepts like population, quantitative and qualitative statistical variables.
- Learning to create graphical representations such as bar charts, box diagrams, and histograms for a statistical series.
- Estimating mean and standard deviation, as well as understanding fluctuation intervals and confidence intervals.
- Studying statistical tests for data analysis
The objective of this module is to provide techniques for solving numerical mathematics problems, along with associated algorithms and their computer implementation (using Matlab), particularly for the simulation of deterministic problems.
This course aims to familiarize ECINE students with specialized vocabulary, focusing on topics that will be useful in a professional work environment.
This professional integration course complements students' academic education, aiming to equip them with the knowledge and skills needed for securing internships, obtaining employment, and smoothly transitioning into professional life. It includes technical workshops for internship and job searches, along with comprehensive support for developing personal and professional projects. This assistance covers various stages, from project initiation to skill acquisition, self-assessment of the journey from project to employment, and the cultivation of soft skills.
This project involves conducting a study in relative autonomy based on specifications provided by the tutor. The group is required to regularly report on the progress of the work. The aim is for the group to learn effective teamwork, master bibliographic research, and apply the scientific knowledge acquired.
The objective of this course is to provide the necessary tools to reflect on the problem of energy resources on a global scale.
This course builds on the work done in the two courses “thermodynamics cycles” and “Heat exchangers”. The main objectives are:
•Analyze and optimize the thermodynamic parameters for various energy systems
•Create and apply efficient approach to solve energy problems
This course is the second part of two sequential courses in thermodynamics. The main objectives are:
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Understand the basic considerations in the analysis of thermodynamics cycles
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Evaluate and determine the performance of basic and modified thermodynamic cycles such as: gas power cycles, vapor power cycles and refrigeration cycles.
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Describe Ideal gas mixture and psychrometric applications.
The objectives of this course are:
- Study and comprehend the design of double-pipe units, focusing on hydraulic and thermal analysis, as well as procedures for handling finned-tube and multi-tube exchangers. Series-parallel configurations of hairpins are also considered.
- Perform preliminary design and thermal-rating calculations for shell-and-tube exchangers. Key aspects of shell-and-tube exchanger design are presented and illustrated, including examples involving both plain and finned tubing. The Simplified Delaware method is used for shell-side calculations.
- Consider more sophisticated computational methods for the complete design of shell-and-tube exchangers.
Understand the operating principles and obtain a general description of plate heat exchangers.
- Explore the variety of designs available for plates and arrangements suitable for various duties.
- Learn design and calculation methods based on manufacturers' data and standards.
- Provide students with the knowledge and skills needed for modern industrial practice, utilizing computer applications to design and rate heat exchangers
The objectives of this course are:
- Analyze and represent the spectrum of discrete signals, involving sampling a continuous signal and quantification.
- Model discrete-time systems and perform performance analysis.
- Compute the response of discrete-time systems and conduct performance analysis.
- Design and calculate a Recursive Infinite Impulse Response (RII) and Recursive Infinite Finite Impulse Response (RIF) digital filter based on a set of specifications.
- Develop a numerical (RST) control design and perform calculations.
The objectives of this course are as follows:
- Calculate resistance, inductance, and capacitance for both three-phase and single-phase systems.
- Construct and utilize models for transmission lines and transformers.
- Evaluate losses, efficiency, and voltage regulation of transmission lines, and comprehend reactive compensation techniques.
- Model generators, transformers, lines, and cables in the positive, negative, and zero sequences.
- Analyze both balanced and unbalanced short circuits and faults.
- Define, establish, and solve equations for regular (AC) power flow.
The objectives of the course are:
- Explain the functioning of various types of switchgear equipment, including circuit breakers and relays.
- Provide an overview of protective relays and their applications in power apparatus and systems.
- Design overcurrent protection and coordinate it effectively.
This objective of this course is to calculate the different KPI in order to manage costs and risks in companies
The objective of this lecture is to equip students with essential tools for fluid dynamics modeling. Students should be capable of simulating various fluid flows, including laminar and turbulent flows around obstacles. Additionally, they are expected to stay current with Computational Fluid Dynamics (CFD) techniques.
The objective of this course is to equip students with the essential tools for analyzing and resolving applied fluid mechanics problems. Students should be able to apply basic fluid mechanics to solve problems in aerodynamics/boundary layer theory and analyze hydrodynamic instabilities. Additionally, they are expected to stay current with fluid metrology techniques.
MAT-4132E
Digital analysis for MCs
This course aims to achieve the following objectives:
- Classify second-order partial differential equations (PDE).
- Apply finite-difference, finite element, and finite volume method approximations to partial derivatives.
- Solve Laplace and Poisson equations, as well as the one-dimensional heat equation.
- Solve the two-dimensional heat equation and the wave equation.
This course objectives are :
- Analyze the structure and organization of an essay.
- Provide students with more practice in sentence structure varied in type and complexity and in outlining a five-paragraph essay.
- Review and emphasize advanced grammatical forms of English.
GEN-4161E
Science. Technology Conferences
The objective of these conferences is to understand the technological developments related to the sectors of activity close to the professions covered by the ECINE diploma.
The objective of this course is to master the calculation code for heat transfer and fluid mechanics using Fluent Software.
The objectives of this course are as follows: to acquire the ability to simulate heat and mass transfers in a multizone building under dynamic conditions, to develop the skills to model heat and mass transfers in buildings and associated systems, and to gain proficiency in solving building thermal problems through the use of dynamic digital simulation software designed for multizone buildings.
The objective of this course is threefold: firstly, to gain knowledge in measuring thermal fluxes; secondly, to comprehend the distinction between a direct problem and an inverse problem; and thirdly, to explore and master inverse techniques in thermal metrology.
The primary focus of this course centers on the design of photovoltaic power plants, with specific emphasis on the electrical aspects of the PV energy conversion chain. Students will engage in a detailed exploration, covering the intricacies of designing a DC/DC converter for a PV/load system. The course also includes learning the calculation of Pulse Width Modulation (PWM) control to achieve the Maximum Power Point (MPP) and ensure voltage stabilization.
Additionally, the course places emphasis on acquiring skills in electrical and embedded systems simulation, alongside gaining expertise in the automation and control of High Concentration Photovoltaic (HCPV) systems and the design of photovoltaic power plants. It encompasses learning to calculate direct and diffuse solar fluxes across the terrestrial sphere, understanding planar solar thermal collector applications, and acquiring knowledge about different types of concentrating solar collectors.
In the advanced segment, the course broadens its scope, equipping students with essential tools to comprehend fundamental concepts in wind energy and kinetics. This includes understanding the forces influencing wind motion, exploring various wind turbine technologies and designs, and gaining insight into the electrical aspects of wind turbine energy conversion and generator control.
This course encompasses a comprehensive set of objectives, including the explanation of static and dynamic characteristics of fundamental power semiconductor devices. Students will gain an understanding of various power conversion topologies and circuits, Rectifiers, and Inverters. The course further entails explaining the functioning of both uncontrolled and controlled rectifiers, with a focus on calculating input, output, and device currents, as well as harmonics in the output and input currents for rectifier operations. Participants will learn to design and analyze various types of switched-mode converters, drawing waveforms and elucidating the operation of different modes. Additionally, the course covers the explanation of power converter control using pulse-width modulation (PWM), outlines the basic working principle of switch-mode inverters, and encourages hands-on experimentation to validate theoretical concepts.
The objective of this course is to furnish students with essential tools in materials science, particularly in the realm of composites. Students should develop the ability to choose matrices and reinforcements based on their compatibility and appealing physicochemical and thermomechanical properties. Additionally, they are expected to assimilate both experimental and theoretical methods for the characterization of composites.
This course aims to introduce, in a straightforward and practical manner, the key concepts of operational research and their technical applications in industrial management. To accomplish these objectives, we will employ a "learn by example" approach, delving into a variety of concepts through the study of examples specific to operations management and the supply chain.
MAN-4111E
Supply chain management
This course provides an introductory theoretical part of the different concepts related to the supply chain management. In addition, this course also covers the optimization and planning of supply chain using the different methods and algorithms of operational research.
The course objective is to master a tool for numerical modeling and simulation of solids using the finite element method.
Ce cours est une introduction à l'aspect électrique de l'éolienne. Ce
cours permet à l'étudiant de combiner ses compétences en électricité, en
contrôle et en signaux pour comprendre la chaîne de conversion de
l'énergie éolienne.
GEN-4171E
English
This course objectives are :
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develop students’ reading and listening sub-skills
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develop students’ exam taking techniques and strategies.
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revise important grammar structures and functions.
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To familiarize students with the format and timing of the test.
The objective of these conferences is to understand technological developments related to the sectors of activity closely aligned with the professions covered by the ECINE diploma.
PRO-4022E
Research and development internship
The objective of this project is to discover the acquired skills through group work, focusing on the complexity of the "Energy" problem within a multi-constraint and experimental context.
The objective of this course is to carry out experimental studies on a full-size renewable energy production equipment including PV and fuel cell systems.
The objective of this course is to understand and implement different energy vectors and processes. The course material will be communicated in two different ways. The first one consists of a series of lectures where the basics of Energy processes and vectors are presented. In the second part, each student will be assigned a final project and he/she will be required to present the finding to the class.
The objective of this course is to learn the fundamentals of energy storage systems and their applications, advantages, and disadvantages.
The course objective is to provide students with the methodological and practical foundations of finance and energy markets as well as the management of industrial projects.
The objective of this course is to provide the basics of project management. It enables students to develop a spirit of planning and rational management, discover all the surrounding components that can have an effect on an industrial project, and prepare for the effective management of future projects (PFE).
The objective of this course is to provide an overview of energy economics and associated societal and environmental issues. The course material will be communicated in two different ways. The first one consists of a series of lectures where the fundamentals of energy economics, and regulation will be discussed. In the second part, students will be assigned project (case studies) and they will be required to present the finding to the class.
The objective of this course is to Learn about financial rules and markets related to energy.
MES-5122E
Fatigue damage
The objective of this mechanical course is to provide students with the necessary tools to analyze and predict the fatigue of materials. Students must be able to distinguish between different types of material fatigue and assimilate the mechanics of fracture mechanisms.
GEN-5191E
English
The course objective is to develop academic writing skills, emphasizing academic integrity, which can be used in a variety of contexts.
The objective of these conferences is to familiarize participants with the themes of research and development related to the sectors of activity closely aligned with the professions covered by the ECINE diploma.
This PRD is a period of practical experience carried out in an academic environment. This interaction allows students to design a product or solution for a specific engineering multiple constraints problem to apply their knowledge and earlier coursework, analyze and criticize scientific results, develop their personality and communication skills.
Problem statement and materials identification.
Capability to use the materials (basic sciences, mathematics, and engineering sciences) to find solutions.
Practice and design experience to create product and prototypes.
Analyze real issues and the performance of the product considering the environment impact, risks flexibility, adaptability, marking trade functionality, sustainability, standards, cost, ect
Develop adaptability in an academic environment and teamwork.
Develop their personality and communication skills