The faculty of sciences and technology offers several bachelor’s degree in two fields (domaine): Sciences and Technology (ST) and Architecture, Urbanism and City professions (AUMV)
OVERVIEW ON THE FACULTY OF SCIENCE AND TECHNOLOGY
The Faculty of Science and Technology is the result of the restructuring of the Faculty of Engineering Sciences, under Executive Decree No. 03-258 of July 28, 2003 establishing the University of Jijel. After a development in terms of infrastructure, the University of Jijel saw a modification of its status by decree N ° 09.92 of February 17, 2009 supplementing and modifying the previous decree and giving another appointment to the faculty. Faculty of Science and Technology. By virtue of decree N° 345 of December 21, 2009 establishing the departments of the faculty of science and technology of the university and supplemented and modified by decree N°82 of March 17, 2010. This new faculty has graduating students including those enrolled 2368 in License and enrolled 684 in Master, and 183 enrolled in post-graduation. The number of teacher-researchers amounts to 233, including 44 professors, 125 lecturers, 62 assistant professors and 02 assistant to which are added permanent 155 ATS. The faculty is currently structured into 08 educational departments (common core in Science and Technology, electronics, electrical engineering, automation, civil and hydraulic engineering, process engineering, mechanical engineering, architecture and urban planning) which provide training for Bachelor's, Master's and Master's degrees. PhD in the new LMD system.
It also includes within its research laboratories:
- Laboratoire d’Etude sur les Interactions Matériaux-Environnement (LIME)
- Laboratoire des Essais Non-Destructifs par Ultrasons (LEND)
- Laboratoire de Cadre Bâti et Environnement (LCBE)
- Laboratoire Automatique de Jijel (LAJ)
- Laboratoire Électrotechnique et d’électronique industrielle (L2EI)
- Laboratoire Énergétique Appliquée et des Matériaux (LEAM)
- Laboratoire Énergies Renouvelables (LER)
- Laboratoire Mécatronique (LMT)
- Laboratoire Génie Civil et Environnement (LGCE)
which contribute significantly to the promotion of scientific research and training through research.
Bachelor’s degree
Domaine : Sciences and Technology (ST)
Automatic Control
Description :
The primary goal of the bachelor's degree program in Automatic Control is to equip graduates with the essential knowledge and skills required to proficiently utilize dynamic system control techniques. In summary, automatic control is a field that focuses on designing and implementing control systems to regulate and optimize the behavior of dynamic systems. It plays a crucial role in ensuring the efficient and reliable operation of a wide range of processes and technologies across different industries.
With the advancements in technology, automatic control engineering has evolved to encompass various fields such as robotics, aerospace, manufacturing, energy systems, autonomous vehicles, and process control. Control engineers collaborate with multidisciplinary teams to develop innovative control strategies, algorithms, and hardware/software systems to enhance automation, safety, and productivity in these domains.
Electronic
Description :
A Bachelor's degree in Electronics provides students with a solid foundation in the field of electronics. The program typically covers a wide range of subjects related to electronic systems, components, circuits, and devices.
Students in this program learn about fundamental concepts such as electronic circuit analysis, digital and analog electronics, microprocessors, communication systems, and signal processing. They also gain knowledge in areas like power electronics, control systems, semiconductor devices, and electronic design.
The curriculum often includes both theoretical and practical coursework. Students engage in laboratory experiments, design projects, and simulations to reinforce their understanding of electronic principles and develop hands-on skills. They may also have the opportunity to participate in internships or industry collaborations to gain real-world experience.
Throughout the program, students learn how to analyze and troubleshoot electronic systems, design circuits and electronic devices, and apply their knowledge to solve practical problems. They develop critical thinking, problem-solving, and teamwork skills, which are essential in the field of electronics.
Upon completion of the Bachelor's degree in Electronics, graduates can pursue various career paths. They may find employment in industries such as telecommunications, consumer electronics, automotive electronics, aerospace, robotics, and renewable energy. Job roles can include electronics engineer, design engineer, embedded systems engineer, research and development engineer, or technical consultant, among others.
Furthermore, this degree can serve as a solid foundation for those who wish to pursue further education at the Master's level, specializing in areas such as microelectronics, embedded systems, telecommunications, or related fields.
Telecommunication
Description :
A Bachelor's degree in Telecommunications provides students with a comprehensive understanding of communication systems, networks, and technologies. This program equips students with the knowledge and skills necessary to design, develop, implement, and manage telecommunications systems and services.
Throughout the program, students learn about various aspects of telecommunications, including signal processing, data transmission, wireless communication, network protocols, and Internet technologies. They study the principles of telecommunications engineering, digital communications, network architecture, and telecommunication standards.
The curriculum typically includes theoretical coursework as well as practical exercises and projects. Students gain hands-on experience in areas such as network design, installation, and maintenance. They may also have the opportunity to work with industry-standard equipment and software to simulate and analyze telecommunication systems.
In addition to technical knowledge, students also develop skills in problem-solving, critical thinking, and project management. They learn how to assess communication needs, design efficient systems, and evaluate the performance of telecommunication networks. The program may also cover topics related to cybersecurity, data privacy, and emerging technologies in telecommunications.
Upon graduation, students with a Bachelor's degree in Telecommunications can pursue various career paths in the telecommunications industry. They may find employment in telecommunication companies, network service providers, research and development organizations, or government agencies. Job roles can include telecommunication engineer, network administrator, systems analyst, project manager, or telecommunications consultant.
Furthermore, graduates may choose to further specialize in a specific area of telecommunications by pursuing a Master's degree. This can lead to advanced career opportunities in fields such as wireless communication, network management, data analytics, or telecommunications policy and regulation.
Electrical engineering
Description :
The main objective of this training is to enable students to acquire a double qualifying degree. Thus, the holders of this diploma will have acquired the skills necessary to integrate a professional environment in the production, transport, distribution or exploitation of electrical energy. They can also, through the theoretical education acquired, continue their studies in one of the many existing Masters.
Thus, the Electrical engineering Bachelor's degree gives the student good adaptability, enabling him to assert himself in the face of new situations during his career. In this regard, hi is able to:
- Understand the physical phenomena related to the transformations and use of electrical energy.
- Define and operate electrical power equipment and associated control systems, to produce energy or operate automation.
- Know the different components of electrical networks and become familiar with the means of control and protection.
Electromecanical
Description :
Electromechanics is a formation between Electrical Engineering and Mechanical Engineering.
The field covers the analysis, design, manufacturing, and maintenance of equipment and products that use electrical circuits and mechanical systems.
At the end of this formation, the students will assimilate, on the one hand, the essential concepts of Mechanics (Resistance of materials, Mechanical construction, Technical drawing, Turbomachines, Internal combustion engine, etc.); and on the other hand, they will acquire solid bases in Electronics, Automation and Electrical Engineering. In addition, they will follow several lessons that will allow them to solve problems related to the field of energy conversion from its electrical form to the mechanical form and vice versa
Mechanical engineering -energetic
Description :
The proposed Bachelor's Degree in Energy Engineering or simply Energetics allows students to progressively acquire fundamental basic knowledge, reinforced by a number of practical manipulations, in the fields of fluid dynamics, and thermodynamics, as well as heat transfer and thermal systems.
The ambitious objective of this program is to develop, in future graduates, the reflexes of an energy engineer, enabling them to understand and master the functioning of any energy system, whether it is a consumer or generator of energy. They will be able to conduct an energy balance, calculate its various characteristics to evaluate its vitality, and propose remedies for any failures.
Through a multidisciplinary training in applied thermodynamics, heat transfer, fluid mechanics, turbomachinery, internal combustion engines, thermal installations, refrigeration, cryogenics, as well as renewable energies, the proposed Bachelor's Degree in Energetics equips its graduates to easily adapt to various sectors related to the production, generation, transportation, conversion, and utilization of energy and energy systems.
Mechanical engineering –Mechanical construction
Description :
The objective of the Bachelor's Degree in Mechanical Construction is to provide students with the necessary knowledge to understand and solve problems related to mechanical systems and mechanical structures.
This program allows students to acquire a broad scientific culture in the field of engineering sciences, with a strong foundation in mechanics, mathematics, and scientific computation. It aims to:
- Train students in methods of synthesis, analysis, and understanding of laws and fundamental phenomena related to the field of mechanical sciences.
- Provide essential supplements to the application of mathematics and computer science.
- Prepare students for the acquisition of theoretical and practical methods for applications in various fields in general, and specifically in the field of mechanical industries.
Civil Engineering
Description :
The Civil Engineering Bachelor's degree program aims to provide students with a scientific and technological foundation that ensures mastery of academic and practical knowledge in various construction fields. In addition to developing professional skills for effective leadership and management roles within construction companies, project supervision, and control, this program provides students with a solid scientific and specific foundation that enables them to pursue higher degrees, such as a Master's degree, and offers the possibility of pursuing a Ph.D. in various civil engineering specializations.
This program aims to train professionals for the civil engineering, construction, and public works sectors in general, including companies, engineering firms, and consulting firms. Additionally, there is a growing field with promising employment and research opportunities that is undergoing technological advancements, specifically the development of new materials. This field requires the introduction of new technologies, execution methods, and business techniques, leading to an increased demand for specialized personnel.
There are significant career opportunities for professionals at various levels throughout the different phases of construction projects, including:
- Work planning: Public sector (local authorities), construction companies.
- Structural analysis and design: Engineering consulting firms.
- Project management, construction supervision, and quality control: General construction companies, specialized construction companies, and consulting firms.
- Maintenance and asset management: Technical management, rehabilitation, and development.
- Site supervision: Medium and large-scale construction projects.
- Teaching positions at high schools, middle schools, and primary schools.
Public-Works
Description :
The program aims to train professionals for the civil engineering, building, and public works sector in general, including employment opportunities in companies, engineering firms, and expert consulting firms.
Additionally, there is a growing field with high employability and research potential related to the development of new materials. These call for the introduction of new technologies, new methods of execution, and new commercial techniques and consequently, a revival in the demand for specialized personnel.
There are significant career opportunities for professionals at various levels throughout the different phases of construction projects, including:
- Works programming: Opportunities exist in the public sector, including local authorities and construction companies involved in project planning and management.
- Structural calculations: Employment can be found in engineering firms and consulting offices that require expertise in structural design, calculations, and modeling.
- Construction site management and quality control: Graduates can work in construction companies, particularly in areas such as general contracting and subcontracting, overseeing and ensuring the quality of construction work.
- Maintenance and asset management: Careers are available in technical management of existing infrastructure, rehabilitation projects, and facility management. Specialized companies responsible for the maintenance of public and private infrastructure can employ graduates.
- Site supervision: opportunities arise in medium to large-scale construction projects, especially those involving public infrastructure. Graduates can take on supervisory roles, coordinating teams and managing resources.
Teaching: graduates can pursue a career in education, becoming teachers in secondary schools, middle schools, and primary schools
Hydraulic
Description :
Algeria is located in a region that is occasionally confronted with the scarcity and irregularity of water resources. In addition, the stakes related to these resources, under the double quantitative and qualitative aspect, do not stop growing in importance at the national level under the combined pressure of the demographic growth (urban development) and the increase in the water needs of the agriculture (which alone absorbs nearly 70% of water withdrawals). Consequently, the sustainable development of agricultural activities and other industrial and urban sectors of our country are under the direct threat of an irregularity in the supply of this strategic resource. The degree in Hydraulics is a diploma that provides basic training allowing access to more advanced studies in the field of hydraulics. Nevertheless, the knowledge acquired at the end of the course will allow the graduate to engage in professional life. The training will insist on the acquisition of knowledge useful for understanding the problems related to the capture of water resources and the environment.
Target Profiles and Skills: Upon completing this program, graduates can pursue further studies at the master's level or work in the following domains:
- Water mobilization and management;
- Water-related risk management;
- Urban planning;
- Rural development;
- Design and implementation of various hydraulic structures.
This program is of interest to the public sector, including economic enterprises and public administrations such as Ministries, Water Agencies, Dam Agencies, Irrigation and Drainage Infrastructure Agencies, National and Regional Water Resource Agencies, Directorate of Hydraulics in the provinces, and water distribution companies. The private sector also offers opportunities; particularly in consulting firms specialized in soil, hydrology, hydraulics, and the environment. Potential job positions for graduates of this program include:
- Technical Manager;
- Study Manager;
- Irrigated Areas Manager;
- Agriculture-Environment Advisor;
- Technical Controller;
- Teaching positions in secondary schools, middle schools, and primary schools.
Process Engineering
Description :
Process Engineering is an extremely important Major in Sciences & Technologies field. Actually, this major which had been developed at the beginning around Chemical Engineering regroup a large variety of options such as: Chemical Engineering, Environmental Engineering, Materials Engineering, Pharmaceutical Engineering, Electrochemical Engineering, Mining Engineering….
Process Engineering acts mainly in all industrial processes of transforming material and energy. For this purpose, forming people capable of mastering transformation processes at an industrial scale is capital. This Bachelor, with a curriculum containing fundamental courses of the major (physical chemistry, unit operations, transfer phenomena, reactors…) constitute a basic training for all the process engineering specialties.
At the end of this pluridisciplinary training, graduates will have acquired basic knowledge, not only in basic sciences (Chemistry, Maths, Physics), but also in technology and industrial processes (Reactors, Process, Transfer Phenomena, Instrumentation, Industrial installations, etc.) which are necessary for understanding Process Engineering and its applications.
This training allows the graduate the pursuit of not only studies and preparation for various specialized masters, but also the quick integration of the socio-economic sector.
Profiles and skills targeted:
The general nature of the bachelor constitutes a basic training for the major allowing the masters’ access in the different options (Chemical Engineering, Pharmaceutical Engineering, Water Treatment, Polymers Engineering, etc.), these aim to consolidate the basic notions of the Process Engineering.
At the end of the 3rd year of the license, the graduate acquired enough theoretical and practical knowledge which allow him to understand any material transforming process. The graduate is so able to establish balance sheets of a transformation, size and control equipment, and take measurements in a production and a processing line.
The acquired skills permit to integrate different industrial sectors (Chemical, pharmaceutical, electrochemical, material water treatment industries, Mining Engineering …), and to satisfy the need of the country in technical staff.
Regional and national employability potential:
Process engineering treats the industrialization of chemistry and transforming processes and material purification. Application fields follow one another throughout the development of the manufacturing process: development in laboratory, pilot scale, equipment sizing, construction of the unit then its operations.
This course in process engineering aims to train versatile executives with knowledge and to know how that allows then to fit into all levels of process. They are intended to occupy positions of study manager, project manager, process technician, etc.
This course targets large companies operating in the fields of processes, chemistry, energy and the environment on the national scale, such as Sonatrach, Sonelgaz, ADE, cement factories, Saida, etc. At the regional level, ther is also a strong potential for outlets at the level of the SME-SMI fabric having activities of design offices, consulting firms, material transformation and treatment.
With the offered course as part of this license, graduates are capable of integrating different socio-economic sectors:
-Technical teaching in secondary schools;
- Research Laboratories;
- Public organisms; - Study offices; - Industrial sector.
For this last sector, these graduates constitute the backbone of management in the production units (Chemical Industries, Petrochemicals, Refining, Cement, Water Treatment, Drug Manufacturing Technology, Food Processing, etc.).
Domaine : Architecture , Urbanism and City Professions (AUMV)
Architecture
Description :
The Bachelor of Architecture (B.Arch.) degree is an academic program designed to equip students with the necessary knowledge and skills for beginning their careers in architecture. Typically lasting for three years, this program incorporates a blend of coursework, design studios, and hands-on experiences. Students delve into various aspects of architectural design, including building systems, basic technical drawing, structural principles, environmental sustainability, and architectural history. The curriculum often integrates practical projects to foster the development of technical proficiency using industry-standard software and tools. The B.Arch. degree provides a solid foundation for students aspiring to pursue professional pathways in the field of architecture.
Management of Urban Techniques or Urban Engineering Management
Description :
The Management of Urban Techniques (G.T.U) is a specialized field within architecture, urbanism, and city professions. It focuses on city planning and management, with two professional majors: Urban Engineering and City Management. These specializations aim to equip students with the necessary skills and knowledge to analyze, plan, and design cities using modern technology and advanced digital tools. This includes the utilization of geographic information systems (GIS), spatial and descriptive data analysis, and innovative problem-solving approaches to ensure sustainable urban development.
Master's degree
Domaine : Sciences and Technology (ST)
Automatic Control
The Department of Automatic Control at the University of Jijel is in charge of teaching and research in the fields of modeling and control of complex systems, robotics, automotive systems, industrial computing and control instrumentation. This department offers two specializations for master's degrees: Automatic Control and Systems, and Automatic Control and Industrial Computing.
Automatic Control and Systems
Descrption :
This specialization allows students to deepen their theoretical and practical knowledge of modern control techniques. This master's program focuses on the fundamentals of automatic control and system modeling, with applications in various fields such as autonomous systems and energy systems.
Automatic Control and Industrial Computing
Descrption :
This master's program covers the most important aspects of automation and industrial computing. It integrates various fields of industrial engineering, including electrical and mechanical engineering, embedded systems, industrial electronics, and certain aspects of artificial intelligence.
Electronic
Electronics for Embedded Systems :
Descrption :
A Master's degree in Electronics for Embedded Systems is a specialized program that focuses on the design, development, and integration of electronic systems within various embedded devices and applications.
Throughout the program, students delve into advanced topics related to embedded systems, including hardware design, firmware development, real-time operating systems, system-on-chip (SoC) design, and low-power circuitry. They gain a deep understanding of the principles and techniques required to create efficient and reliable electronic systems that are seamlessly integrated into a range of applications.
The curriculum typically includes both theoretical and practical coursework. Students study advanced topics in digital and analog electronics, microcontrollers, embedded software development, sensor integration, and communication protocols. They also explore topics like system modeling and simulation, embedded system security, and system integration techniques.
Hands-on experience plays a crucial role in the program, and students often engage in practical projects and laboratory work. They have the opportunity to design and develop embedded systems, work with microcontrollers and programmable logic devices, and interface various components and peripherals. They may also collaborate on industry-sponsored projects or research initiatives to gain practical exposure and real-world problem-solving skills.
In addition to technical skills, the program also emphasizes critical thinking, project management, and teamwork. Students learn to analyze and optimize the performance of embedded systems, identify and troubleshoot issues, and make informed design decisions to meet specific requirements.
Graduates with a Master's degree in Electronics for Embedded Systems have a wide range of career opportunities. They can work in industries such as automotive, aerospace, consumer electronics, medical devices, robotics, and Internet of Things (IoT). Job roles may include embedded systems engineer, hardware engineer, firmware developer, systems architect, or research and development specialist.
Furthermore, this degree can pave the way for further academic research or teaching positions in the field of embedded systems. Graduates can also pursue entrepreneurship and innovation, leveraging their expertise to develop new technologies and solutions for embedded systems applications.
Microelectronics :
Descrption:
A Master's degree in Microelectronics is a specialized program that focuses on the study and application of electronic devices and circuits at the microscale level. It provides students with an in-depth understanding of the design, fabrication, and characterization of microelectronic components and systems.
Throughout the program, students explore advanced topics in microelectronics, including semiconductor physics, integrated circuit design, fabrication techniques, device modeling, and advanced electronic materials. They gain knowledge of cutting-edge technologies and methodologies used in the development of microelectronic devices and systems.
The curriculum typically includes a combination of theoretical coursework, laboratory experiments, and design projects. Students learn about transistor-level circuit design, analog and digital integrated circuits, high-frequency electronics, and system integration. They also study topics such as nanoelectronics, MEMS (Micro-Electro-Mechanical Systems), VLSI (Very Large Scale Integration), and advanced packaging techniques.
Practical experience is a vital component of the program, and students often have access to state-of-the-art fabrication facilities and characterization equipment. They learn hands-on skills in designing, simulating, and testing microelectronic circuits and systems. They may also have opportunities to collaborate with industry partners or engage in research projects to address real-world challenges in the field.
In addition to technical knowledge, students develop critical thinking, problem-solving, and analytical skills necessary for designing and optimizing microelectronic systems. They gain an understanding of the trade-offs between performance, power consumption, reliability, and cost in microelectronic design.
Graduates with a Master's degree in Microelectronics have a wide range of career opportunities in industries such as semiconductor manufacturing, telecommunications, consumer electronics, biomedical devices, and research and development. They can work as microelectronics engineers, IC designers, semiconductor process engineers, product development specialists, or research scientists.
Furthermore, this degree can serve as a stepping stone for further research or academic pursuits, including pursuing a Ph.D. in Microelectronics or related fields. Graduates can contribute to technological advancements, innovations in chip design, or academic research in microelectronics and nanotechnology.
Telecommunication
Telecommunications Systems:
Descrption:
A Master's degree in Telecommunication Systems is a specialized program that focuses on the study and design of advanced communication networks and systems. It provides students with a deep understanding of the technologies, protocols, and methodologies used in the development and management of telecommunications infrastructure.
Throughout the program, students explore advanced topics in telecommunications, including network architecture, wireless communication, network protocols, data transmission, Internet of Things (IoT), and emerging technologies. They gain knowledge of the principles and techniques required to design, optimize, and manage efficient and secure telecommunication systems.
The curriculum typically includes a combination of theoretical coursework, practical exercises, and research projects. Students study advanced concepts in network design, network performance analysis, traffic engineering, network security, and network management. They also delve into topics such as cloud computing, software-defined networking, 5G, and beyond.
Practical experience plays a crucial role in the program, and students often have opportunities to work with industry-standard tools, simulation software, and network equipment. They may engage in hands-on projects where they design, implement, and evaluate telecommunication systems, and they may also have opportunities for internships or collaborations with industry partners to gain real-world experience.
In addition to technical skills, students develop critical thinking, problem-solving, and analytical abilities necessary for addressing complex challenges in telecommunication systems. They learn to analyze network performance, assess user requirements, and make informed decisions regarding system design, optimization, and security.
Graduates with a Master's degree in Telecommunication Systems have diverse career opportunities in the telecommunications industry. They can work in telecommunications companies, network service providers, consulting firms, research and development organizations, or government agencies. Job roles may include network engineer, systems architect, network administrator, telecommunication consultant, or research and development specialist.
Furthermore, this degree can open doors to leadership positions or further academic research in the field. Graduates can pursue advanced research or teaching positions, contribute to the development of new telecommunication technologies and protocols, or drive innovation in areas such as network virtualization, IoT connectivity, or future communication standards.
Electrical engineering
Electrical machines
Master of the profile Electrical Machines are trained for all industries that include power systems, control of electrical drives, electromagnet, industrial automation, industrial equipment design, development, and testing of power converters, electric motors, generators, and transformers, to develop the theory and principles of electromagnetism and electromechanical energy conversion devices and systems. Indeed, this profile is a multidisciplinary field.
Electrical control
This training is committed to providing the candidate with all the necessary means to master :
- The basic elements used in an electrical system as well as their operation (machines, converter, transmission lines, controllers, etc.).
- The mathematical tools necessary for the modelling, analysis, and resolution of any problem relating to electrical engineering (frequency analysis, differences and finite elements, computer programming and simulation, etc.).
- Classical and modern techniques for command and control of electrical systems (scalar and vector control, PWM control, fuzzy logic, neural networks, etc.).
Industrial electrical engineering
The targeted profile of the Industrial electrical engineering Master’s course is to prepare students for jobs in the electrical and industrial field systems (Management, Automation, Control, and industrial installations and their Maintenance). The graduate will be able to: Model and design of production lines, and also to size, design and choose the elements of a production facility, Automate a production process; Install, secure and maintain a production system; Implement improvement techniques to ensure total quality; Manage and pilot the different flows in a production company; Have the necessary responsiveness to unforeseen problems.
Electrical networks
Electricity is generated at power plants and moves through a complex system, of electricity substations, transformers, and power lines that connect electricity producers and consumers. The purpose of this master is to train skills in different areas of the electrical network:
- Production of electrical energy;
- Transmission and distribution of electrical energy;
- Protection of electrical networks;
- Real-time adjustment and control of electrical networks;
- Smart grids for optimizing the cost of electrical energy;
- Dimensioning and maintenance of electrical installations.
Electromechanical
The targeted profile of the Electromechanical Master's course is to prepare students for jobs in the electrical and mechanical industrial field and electromechanical systems (Management, Automation, Control, and industrial installations and their Maintenance). The graduate will be able to: Model and design of production lines, and also to size, design and choose the elements of a production facility, Automate a production process; Install, secure and maintain a production system; Implement improvement techniques to ensure total quality; Manage and pilot the different flows in a production company; Have the necessary responsiveness to unforeseen problems.
The master's degree in electromechanics offers to graduate students the necessary transferable skills to hold positions of responsibility in different sectors related to industrial production. It allows an easy insertion in the complexes, factories and workshops of production and transformation of products in the region of Jijel more particularly in the industrial zone of Bellara, Algerian Qatar Steel (AQS)
Mechanical Engineering
Mechanical Engineering-Energetic
Description
The Master's degree program in Energetics is a specialized academic program designed to provide in-depth knowledge and skills related to energy systems, thermal processes, and sustainable energy technologies. This program is aimed at students who wish to develop expertise in the field of energy engineering with a specific focus on thermal energy and its applications.
Throughout the program, students engage in a combination of theoretical coursework, practical laboratory sessions, and research-based projects. They learn to analyze and design energy systems, evaluate thermal processes, optimize energy efficiency, and develop sustainable energy solutions. The program often emphasizes hands-on experience, enabling students to work with state-of-the-art equipment and software tools commonly used in the industry.
Upon completion of the program, graduates are well-equipped to pursue a wide range of career paths in the energy sector. They can work in industries such as power generation, energy consulting, renewable energy development, HVAC (heating, ventilation, and air conditioning) systems design, thermal equipment manufacturing, and energy management. Graduates may also choose to pursue further research or academic positions in universities, research institutions, or government agencies.
Overall, the Master's degree program in Energy and Thermal Engineering offers students a comprehensive education in the principles, technologies, and applications related to energy systems and thermal processes. It equips graduates with the necessary knowledge and skills to contribute to the development of sustainable and efficient energy solutions in today's rapidly evolving world.
Mechanical Engineering –Mechanical Construction
Description
The Master's degree program in Mechanical Construction is a specialized academic program that focuses on developing advanced knowledge and skills in the field of mechanical engineering with a specific emphasis on construction applications. This program is designed for students seeking expertise in the design, analysis, and construction of mechanical systems used in various industries.
Throughout the program, students engage in theoretical coursework, practical laboratory sessions, and industry-relevant projects. They learn to design and analyze mechanical systems for buildings and infrastructure projects, develop construction plans, and ensure compliance with safety and regulatory standards.
Upon completion of the program, graduates are well-prepared for careers in various sectors related to mechanical construction. They can work in engineering firms, construction companies, architectural firms, infrastructure development agencies, and government organizations. Graduates may pursue roles such as mechanical design engineer, project manager, construction consultant, or research and development specialist.
Overall, the Master's degree program in Mechanical Construction equips students with a strong foundation in mechanical engineering principles and their application in the construction industry. It prepares graduates to tackle complex challenges in designing and constructing mechanical systems, ensuring efficiency, sustainability, and safety in diverse construction projects.
Civil Engineering
Structures
Description:
The field of CIVIL ENGINEERING is undergoing significant development and offers a wide range of employment opportunities. The aim of this Master's program in Structures is to provide high-level scientific and technical training in the areas of Building, Public Works (BTP), and construction. The pedagogical objectives of the Master's program are as follows:
- Strengthening theoretical and methodological foundations in fundamental scientific subjects,
- Developing and deepening knowledge in specialized sectors,
- Introducing research methods and tools.
This training aims to train professionals for the Civil Engineering, Construction, and Public Works sector in general, with a particular focus on engineering firms, consulting firms, and companies. Therefore, a strong mastery of structural analysis, behavior laws, Mechanics of Materials, Finite Element Method, Building Construction, Construction Materials, etc., is highly necessary.
Career opportunities for graduates with a Master's degree in Structures are significant in all phases of construction projects, including:
- Work programming: Public sector (local authorities, construction companies, etc.).
- Structural analysis and design: Engineering firms, consulting firms.
- Construction management and site supervision, quality control: Building construction companies, control agencies, etc.
- Site management: Medium to large-scale construction projects.
- Maintenance and asset management: Technical management, rehabilitation, and renovations.
- Teaching positions in high schools, middle schools, and primary schools.
Geothechnical Engineering
Description:
The Civil Engineering Bachelor's program aims to provide students with a scientific and technological foundation that ensures mastery of academic and practical knowledge in various construction fields. In addition to professional skills leading to successful integration into supervisory and management roles within construction companies, project monitoring and control, this Bachelor's degree provides students with a solid scientific and specific foundation that enables them to pursue higher degrees, such as a Master's degree, and provides the possibility to prepare for a Doctorate in various Civil Engineering specialties.
This training aims to train professionals for the Civil Engineering, Construction, and Public Works sector in general, with a particular focus on companies, engineering firms, and consulting firms. Furthermore, there is a growing field with promising employment and research opportunities that is undergoing technological advancements, which is the development of new materials. This field requires the introduction of new technologies, new execution methods, and new business techniques, leading to an increased demand for specialized personnel.
Professional opportunities for graduates in the field of Civil Engineering are significant in all phases of a construction project:
- Work programming: Public sector (local authorities, construction companies)
- Structural analysis and design: Engineering firms, consulting firms
- Construction management and site supervision, quality control: General construction companies, specialized subcontractors, control agencies
- Maintenance and asset management: Technical management, rehabilitation, renovations
- Project management: Medium and large-scale construction projects
- Teaching positions at high schools, middle schools, and primary schools.
Public-works
Roads and construction works
Description:
Graduates of the Master's program in Roads and Structures will be able to understand the challenges of construction in the fields of roads, airports, railways, bridges, tunnels, dams, underground structures, and special structures, from both technical and economic perspectives. They will be able to present, defend, coordinate, and implement appropriate solutions. They will have the capacity to adapt to the rapidly evolving technical context, which includes an increasing consideration of environmental issues and regulatory requirements. The content of the teaching modules is designed with the constant aim of supporting these skills with examples drawn from practical cases.
Hydraulic
Urban Hydraulic
Description:
Algeria is located in a region that periodically faces water scarcity and irregularity of water resources. Furthermore, the challenges associated with these resources, both in terms of quantity and quality, continue to grow in importance at the national level due to the combined pressure of population growth and increased water needs for agriculture. Consequently, the sustainable development of agricultural activities, as well as other industrial and urban sectors in our country, is directly threatened by chronic irregularity in the supply of this strategic resource. As a result, public organizations and private companies operating in the field of water management, agriculture, development, and urban planning have increasingly urgent and growing needs for professionals with expertise in technical and scientific tools for optimal management of both the qualitative and quantitative aspects of this critical resource. In order to meet the expectations of these partners, the university must offer this professional master's program and expand the horizons of this field.
Graduated students will have access to doctoral competitions. Additionally, they can primarily work in the following areas:
- Water mobilization and management
- Water-related risk management
- Urban planning, Rural development and Design and construction of various hydraulic structures.
Process Engineering
In process engineering department we offer three masters which are:
- Environmental Process Engineering
- Materials Process Engineering
- Chemical Engineering
Environmental Process Engineering :
This option offers to students a curriculum allowing them to treat the different environmental issues in air, soil and water. In order to be capable of finding environmental problems solutions, our graduates learn how to measure pollution and to solve different issues.
Materials Process Engineering :
This option offers to students the capability of studying different materials such as glass, ceramics, steel, concrete, polymers, composites…., their properties and capabilities. At the end of their curriculum our graduates are able to study and establish the choice of adequate materials for different application and also to find solutions for treating problems for existing materials applications.
Chemical Engineering
Which is a future option in our departments; our students will study the whole processes used in different fields of process engineering, allowing graduates to establish the adequate processes, unit operations, reactors and all the other requirements to the different applications.
Domaine : Architecture , Urbanism and City Professions (AUMV)
Architecture
Architecture
Description :
The Master of Architecture (M.Arch.) degree is a two-year academic program that is commonly pursued by individuals who have already obtained a bachelor's degree in architecture or a related field. The M.Arch. Program places a strong emphasis on studio-based architectural design work, theoretical coursework covering a range of relevant topics, and the exploration of complex architectural challenges. It also includes in-depth studies in architectural history and theory, technical aspects of architecture, and practical training at construction sites. The program is specialized in architecture, offering a comprehensive education in the field. In the final year, students are required to complete a dissertation and present a final project, both focused on the domain of architecture. Upon completion of the master’s degree, individuals typically pursue licensure to become registered architects, which involves completing a period of internship of 18 months in a design office.
Cities, Urban Engineering, and Digitization (Professional Master's)
Description:
This specialization, established in 2023, falls under the Management of Urban Techniques Branch (GTU) at the University of Jijel. It focuses on leveraging technology and digital tools in urban projects. Students in this specialization gain practical knowledge and skills required to study, analyze, plan cities and find effective solutions to urban challenges. The curriculum emphasizes the use of advanced digital tools such as Geographic Information Systems (GIS) and 3D modeling. Additionally, students learn to analyze statistical, spatial, and descriptive data and study relevant applications and programming languages to adapt to the evolving technological landscape.