https://dspace.univ-adrar.edu.dz/jspui/handle/123456789/9158 2026-05-07T22:50:27Z https://dspace.univ-adrar.edu.dz/jspui/handle/123456789/9290 Title: MATERIALS FOR ENERGY Authors: SAKHER, Elfahem Abstract: The field of materials for energy represents a critical domain at the intersection of material science, physics, and engineering, with the potential to drive the next generation of energy solutions. As the world grapples with the challenges of sustainable energy, the demand for innovative materials that can enhance energy conversion, storage, and efficiency has never been greater. This course, "Materials for Energy," is designed for first-year Master's students in Energetic Physics and Renewable Energies, and aims to provide an in-depth understanding of the materials that form the foundation of cutting-edge energy technologies. This course will explore the fundamental principles behind materials science and how specific material properties can be harnessed to optimize energy systems. Through a combination of theoretical lessons and hands-on practical sessions, students will gain knowledge of the synthesis, characterization, and application of materials in a wide range of energy systems. Topics will include advanced materials for energy storage, energy conversion, photovoltaics, thermoelectric, and hydrogen storage, among others. The total course duration is 22 hours and 30 minutes, distributed across a mix of lectures, case studies, and laboratory sessions. By the end of the semester, students will have a deep understanding of the relationship between material properties and energy performance, and how these materials can be applied to solve real-world energy challenges. Upon successful completion of the course, students will earn 2 credits and be equipped with both theoretical and practical skills to advance in the fields of energy and materials science. The specific objectives of the course include: - Understanding the fundamental principles of material science in energy applications. - Familiarizing with materials synthesis, fabrication, and characterization techniques. - Analysing the role of advanced materials in renewable energy systems, such as solar, wind, and energy storage technologies. Course: Materials for energy Foreword - Investigating cutting-edge materials in energy conversion, including fuel cells, batteries, and thermoelectric materials. - Assessing the environmental and economic impact of materials used in energy technologies. By engaging with this course, students will be prepared to contribute to the rapidly evolving field of energy materials, which is key to achieving global energy sustainability goals. Description: Energy Physics and Renewable Energies 2025-05-05T00:00:00Z https://dspace.univ-adrar.edu.dz/jspui/handle/123456789/9289 Title: NANOTECHNOLOGY Authors: SAKHER, Elfahem Abstract: Nanotechnology is an exciting and constantly evolving field that encompasses the study, design, synthesis, and manipulation of materials, devices, and systems at the nanoscale (1 nm = 10⁻⁹ m). This course, designed for first-year Master's students in Energetic Physics and Renewable Energies, aims to provide an in-depth introduction to the fundamental concepts and practical applications of nanotechnologies as part of the Discovery Teaching Unit (UED 1.1). The course curriculum is structured to provide an overview of the underlying principles of nanotechnology, as well as fabrication and characterization methods at the nanoscale. Students will also explore how nanotechnologies can be applied across various fields, including electronics, medicine, the environment, and renewable energy. The total course duration is 22 hours and 30 minutes, distributed across several sessions of theoretical and practical lessons. At the end of the semester, students will be assessed on their knowledge and understanding of the concepts and techniques covered and will earn 2 credits upon successful completion of the course. The specific objectives of the course include: • Understanding the fundamental principles of nanoscience and nanotechnology. • Familiarizing with synthesis and fabrication techniques for nanostructures and nanomaterials. • Acquiring skills in characterization methods for materials at the nanoscale. • Analyzing and evaluating the impact of nanotechnologies on society, the economy, and the environment. • Exploring the applications of nanotechnologies in energy, health, the environment, and electronics Description: Energy Physics and Renewable Energies 2025-05-05T00:00:00Z https://dspace.univ-adrar.edu.dz/jspui/handle/123456789/9228 Title: COURSE HANDOUT: Experimental Techniques in Fluid Mechanics Authors: Dr Samir, CHADLI Abstract: The study of how fluids behave and interact with different forces and boundaries is called fluid mechanics. This field of science has many applications in engineering, science, and everyday life. However, the study of fluid behavior represents a challenge in terms of analysis and modeling, especially turbulent, compressible or multiphase flows. For this reason, experimental measurement methods and techniques in fluid mechanics are essential to complete fluid analysis. It is possible to provide results, validate our hypotheses, and improve our understanding of fluid phenomena. The main objective of using experimental techniques in fluid mechanics is to measure the properties of flowing fluids. Measurements are used to understand how the fluid-containing system operates and then to apply this knowledge to designing improved systems and predicting their future operation. They are also used to monitor and control the physical process, therefore ensuring efficient and safe operation of the system. This course is intended for first-year master's students in energy physics and renewable energies deals with the experimental techniques in Fluid Mechanics. It focuses on different techniques and challenges associated with measuring flow characteristics such as pressure, temperature, flow rate, speed and vacuum rate. Teaching objectives: Acquire knowledge of the different measurement techniques used in fluid mechanics. Recommended prior knowledge: Basic Concepts in Fluid Mechanics 2025-01-01T00:00:00Z https://dspace.univ-adrar.edu.dz/jspui/handle/123456789/9212 Title: cours chimie analytique Authors: ARROUSSI, Abdelaziz Abstract: Ce cours s’adresse aux étudiants de la deuxième année Licence LMD Chimie . Il comporte cinq chapitres dédiés à la chimie des solutions aqueuses et ce conformément au contenue du programme pédagogique de la classe de deuxième année en sciences et technologies. Il contient également quelques ajouts au programme qui sont nécessaires pour l'étudiant. L'étudiant doit avoir des pré-requis concernant la structure de la matière, quelques fondements de la thermodynamique et outils de mathématiques. L'objectif escompté de ce cours est de permettre à l'étudiant d'acquérir des notions de base, aussi bien qualitatives que quantitatives, sur les solutions aqueuses. Il lui permettra de connaître les différentes unités de concentration; de préparer des solutions; d'expliquer le processus de dissolution et de connaître les notions de bases de la cinétique chimique. Il vise également la compréhension des réactions acido-basiques, de précipitation , d'oxydoréduction et des réactions de complexation. Description: Polycopié de Cours .2emme année Chimie.Sciences de la Matière 2025-10-21T00:00:00Z