Al-ziem Alazhari University

1 بسم الله الرحمن الرحيم Al z a iem Al az hari University (AAU) Faculty of Engineering Civil Engineering Program 201 9 2 Table of Contents Introduction: ................................ ................................ ............................. Error! Bookmark not defined. Program Specifications: ................................ ................................ ........ Error! Bookmark not defined. Program Educational Objectives (PEO) ................................ ........... Error! Bookmark not defined. Program Outcomes (POs) ................................ ................................ .... Error! Bookmark not defined. Classification of the Courses area........................................................................... .......... ......5 Program Structure and Details ................................ ................................ ................................ ......... 6 Course s details .................. ................................ ................................ ..... Error! Bookmark not defined. 3 Introduction: Studying Civil Engineering at AAU give s the student a broad, well - balanced preparation for P rofessional careers in civil engineering knowledge, including practical skills in design and construction for different civil works as well as other areas such as quantitative measurements and project management s Also aims cover generally a good knowledge of engineering science and skills The interest of AAU is to provide the international needs as well as the local and national needs by competent civil engineers Program Specifications: Awarding Institution Alzaiem Alazhari University Teaching Institution Alzaiem Alazhari University, Faculty of Engineering Program Name Bachelors in civil engineering Final Award Bachelor of Engineering ( Civil) Program Code X YZ Language of Teaching Arabic and English Mode of Study Full Time Study Duration 10 Semester Type of Semester Normal ( 15 week s ) Body of Accreditation Ministry of High Education and Sudanese Engineering Council Program Educational Objectives (PEO) PEO 1 Graduates are competent, creative, and innovative in acquiring and applying knowledge towards solving civil e ngineering problems PEO 2 Graduates possess leadership qualities, able to work, manage in diverse teams and serve the society in multidisciplinary environment PEO 3 Graduates demonstrate professionalism and uphold ethical values with emphasis on sustainable environment PE O 4 Graduates can communicate effectively, possess strong self - confidence and recognize the need for life in future 4 Program Outcomes (POs) : PO1 Essential e ngineering Knowledge Gain and apply knowledge of mathematics, basic science and engineering fundamentals to solve complex engineering problems. PO2 Specialized e ngineering Knowledge Gain technical competencies in a specialized engineering discipline to solve complex engineering problems. PO3 Problem a nalysis s kills Recognize and analyze complex engineering problems to reach substantiated conclusions using fundamental principles of mathematics, basic science s, and engineering. PO4 Design/ Development of Solutions Design solutions for complex engineering problems that meet specified needs with appropriate considerations for pu blic health and safety, society, environment, and sustainability PO5 Investigation Conduct research - ba sed investigations into complex civil engineering problems to reach valid conclusions. PO6 Makin g use of m odern t ool Create, select, and apply appropriate modern techniques, resources, and modern engineering or IT tools to complex engineering activities. PO7 Engineer ing in the s ociety Apply appropriate reasoning to assess social, health, safety, legal and cultural issues that are relevant to professional civil engineering practice. PO8 Environment and s ustainability Be aware of the impact to sustainability, society and the environment in the design and development of professional civil engineerin g solutions. PO9 Ethics Concern and commit to professional ethics and responsibilities in engineering practice. PO10 Communication Communicate effectively on complex engineering activities in both oral and written forms for professional communication documentations PO11 Individual and t eamwork Function effectively as an individual, and as a member or leader of a team in multi - disciplines e ngineering works PO12 Future studies Be familiar with the need for, and acquire the ability to engage in future studies and tech PO13 Project management and p roject financing Demonstrate engineering and management ideology , as a member and leader of a team, in managing projects in multidisciplinary engineering environments 5 Program Code: Course numbering consists of two letters followed by three digits as follows: ENC X Y Z ENC ; CIVIL Engineering X: indicates year number; (1, 2, 3, 4 or 5). Y: Indicates the main area in the department. Z: Indicates the course secondary area in the department. Classification of the Courses area: No course main area course secondary area 0 Technical arts 1 - Civil engineering drawing 2 - Engineering economic 3 - Construction management 4 - Environment & safety engineering 5 - Computer applications in civil eng (1) 6 - Computer applications in civil eng (2) 1 Mechanics of solids 1 - Mechanics of materials (1) 2 - Mechanics of materials (2) 2 Analysis of structures 1 - Structural analysis (1) 2 - Structural analysis (2) 3 - Structural analysis (3) 4 - Structural analysis (4) 3 Mechanics of fluids, Hydraulics& hydraulic structures 1 - Fluid mechanics (1) 2 - Fluid mechanics (2) 3 - Hydrology 4 - Hydraulics 5 - Irrigation &land drainage 6 - Hydraulic structures 7 - Water resources engineering 4 Mechanics of soil 1 - Soil mechanics (1) 2 - Soil mechanics (2) 3 - Soil mechanics (3) 4 - Foundation engineering 5 - Advanced foundation engineering Sanitary engineering 1 - Sanitary engineering (1) 6 5 2 - Sanitary engineering (2) 6 Transport, traffic engineering &highway design 1 - Transport & traffic engineering 2 - Highway design & construction 3 - RAILWAYS, AIRPORTS AND HARBOUR ENGINEERING 4 - Traffic Safety 7 Design of structures 1 - Reinforced Concrete Design (1) 2 - Reinforced Concrete Design (2) 3 - Reinforced Concrete Design (3) 4 - Steel structures design (1) 5 - Steel structures Design (2) 6 - Tall Buildings 7 - BRIDGE STRUCTURES 8 Science of earth & technology of concrete 1 - Surveying (1) 2 - Surveying (2) 3 - Engineering geology 4 - Building Materials and Concrete Technology 5 - ESTIMATION AND QUANTITY SURVEYING 6 - Remote Sensing 9 Graduation and training 1 - Graduation Project (1) 2 - Graduation Project (2) 3 - Research Methodology 4 - Engineering Professional Ethics 7 Program Structure and Details: Credits Total Weekly Hours Requirements % Tutorial Laboratory Lecture 11.79 23 2 3 - - 2 3 University Requirements 23.08 45 60 14 12 34 Mathematic &Basic Science 30.77 60 86 29 14 43 Basic Engineering Science 34.36 67 9 5 29 1 9 47 Professional Subjects 100 195 264 7 2 4 5 14 7 Total University Requirements Credit Hours Weekly Hours Course Name Course Code Semester Tutorial Laboratory Lecture 2 - - 2 Islamic Culture 1 URI 101 Sem. One 2 - - 2 Arabic Language 1 URA 101 2 - - 2 English Language 1 URE 101 2 - - 2 Introduction to Computer Basics URC 101 3 - - 3 Sudanese Studies URS 101 2 - - 2 Islamic Culture 2 URI 102 Sem. Two 2 - - 2 Arabic Language 2 URA 102 2 - - 2 English Language 2 URE 102 2 - - 2 Islamic Culture 3 URI 201 Sem. Three 2 - - 2 Arabic Language 3 URA 201 2 - - 2 English Language 3 URE 201 23 - - 23 Total 8 MATHEMATICS AND BASIC SCIENCES Credit Hours Weekly Hours Course Name Course Code Semester Tutorial Laboratory Lecture 3 2 - 2 Calculus I MAT101 Sem. One 3 2 - 2 Basic Mathematics MAT103 3 - 3 2 Physics I PHY101 3 - 3 2 General Chemistry CHM101 3 2 - 2 calculus II MAT10 2 Sem. Two 2 - - 2 L inear Algebra MAT104 3 - 3 2 Physics II PHY102 3 - 3 2 Fundamentals of Computer Programming COM102 2 - - 2 Engineering Chemistry CHM102 3 2 - 2 Differential Equations MAT201 Sem. Three 2 - - 2 Analytic geometric MAT 20 3 3 2 - 2 Complex Variables MAT 2 0 2 Sem. Four 3 2 - 2 Numerical Analysis MAT20 4 2 - - 2 Mathematical Methods MAT301 Sem. Five 3 2 - 2 Statistics &Probability MAT302 Sem. Six 2 - - 2 Research Methodology ENC493 Sem. Eight 2 - - 2 Engineering Professional Ethics EN C594 Sem. Ten 45 14 1 2 34 Total 9 BASIC ENGINEERING SCIENCES Credit Hours Weekly Hours Course Name Course Code Semester Tutorial Laboratory Lecture 3 2 - 2 Engineering Mechanic s ENM123 Sem. Two 2 - - 2 Science of Engineering M aterials ENM225 Sem. Three 3 2 - 2 Fundamentals of Engineering Drawing ENM201 3 1 2 2 Fundamentals of Electrical Engineering ENE211 3 2 - 2 Mechanics of Materials (1) ENC211 3 2 1 2 Mechanics of Materials (2) ENC212 Sem. Four 3 - 3 2 Surveying (1) ENC281 3 2 1 2 Fluid Mechanics ( 1 ) ENC231 2 2 - 1 Civil Engineering Drawing ENC201 3 2 - 2 Structural Analysis (1) ENC321 Sem. Five 3 2 1 2 Thermodynamics &Heat Transfer ENM341 3 2 1 2 Fluid Mechanics ( 2 ) ENC332 3 - 3 2 Surveying (2) ENC382 2 - 1 2 Engineering Geology ENC383 3 2 - 2 H ydrology ENC333 3 2 1 2 Hydraulics ENC334 Sem. Six 3 2 - 2 Structural Analysis (2) ENC322 3 2 - 2 Structural Analysis (3) ENC423 Sem. Eight 2 - - 2 Engineering Economic ENC502 Sem. Nine 3 2 - 2 Structural Analysis ( 4 ) ENC524 2 - - 2 Construction Management ENC503 Sem. Ten 2 - - 2 Environment &Safety Engineering ENC504 60 29 14 43 Total 10 Professional Subjects Credit Hours Weekly Hours Course Name Course Code Semester Tutorial Laboratory Lecture 3 - 3 2 Building Materials and Concrete Technology ENC284 Sem. Four 3 2 - 2 Steel Structure Design (1) ENC374 Sem. Five 3 2 - 2 Reinforced Concrete Design (1) ENC371 Sem. Six 3 1 2 2 Soil Mechanics (1) ENC341 3 2 - 2 Re inforced Concrete Design ( 2 ) ENC472 Sem. Seven 3 2 - 2 Irrigation & Land Drainage ENC435 3 1 2 2 Soil Mechanics (2) ENC442 3 1 2 2 Sanitary Engineering (1) ENC451 3 2 - 2 Tr ansport & traffic engineering ENC461 3 - 3 2 Computer Applications in civil engineering (1) ENC405 3 2 - 2 Steel Structure Design (2) ENC475 Sem. Eight 3 2 - 2 Soil Mechanics (3) ENC443 3 1 2 2 Highway Design & construction ENC462 3 1 2 2 Sanitary Engineering (2) ENC452 3 - - 3 Project (1) ENC591 Sem. Nine 2 - - 2 Estimation and Quantity survey ing ENC585 3 2 - 2 Reinforced Concrete Design ( 3 ) ENC573 3 2 - 2 Hydraulic Structures ENC536 3 2 - 2 Foundation Engineering ENC544 3 - - 3 Project (2) ENC592 Sem. Ten 2 - 3 1 Computer Applications in civil engineering (2) ENC506 3 2 - 2 Elective course *** 3 2 - 2 Elective course *** 67 29 1 9 47 Total 11 Legend: Lec : Number of lecture hours per week Tut : Number of tutorial hours per week Lab : Number of practical hours per week Con - H: Total of number of the contact hours per week Credits : Number of credits for the course SEMESTER 1 Code Courses Lec Tut lab Con - H Credits MAT101 Calculus (1) 2 2 - 4 3 MAT103 Basic Mathematics 2 2 - 4 3 PHY101 Physics (1) 2 - 3 5 3 CHM101 General Chemistry 2 - 3 5 3 URC 101 Introduction to Computer Basics 2 - - 2 2 URI 101 Islamic Culture (1) 2 - - 2 2 URA 101 Arabic Language (1) 2 - - 2 2 URE 101 English Language (1) 2 - - 2 2 URS 101 Sudanese Studies 3 - - 3 3 Total 1 9 4 6 29 23 SEMESTER 2 Code Courses Lec Tut lab Con - H Credits MAT102 Calculus (2) 2 2 - 4 3 MAT104 Linear Algebra 2 - - 2 2 PHY102 Physics (2) 2 - 3 5 3 COM102 Fundamentals of Computer Programming 2 - 3 5 3 ENM123 Engineering Mechanics 2 2 - 4 3 CHM102 Engineering Chemistry 2 - - 2 2 URI 102 Islamic Culture ( 2) 2 - - 2 2 URA 102 Arabic Language (2) 2 - - 2 2 URE 102 English Language (2) 2 - - 2 2 Total 18 4 6 28 22 12 SEMESTER 3 Code Courses Lec Tut lab Con - H Credits MAT201 Differential Equations 2 2 - 4 3 MAT203 Analytic geometry 2 - - 2 2 ENM225 Science of Engineering M aterials 2 - - 2 2 ENM201 Fundamentals of Engineering Drawing 2 2 - 4 3 ENE211 Fundamentals of Electrical Engineering 2 1 2 5 3 ENC211 Mechanics of Materials (1) 2 2 - 4 3 URI 201 Islamic Culture ( 3) 2 - - 2 2 URA 201 Arabic Language (3) 2 - - 2 2 URE 201 English Language (3) 2 - - 2 2 Total 18 8 2 28 2 2 SEMESTER 4 Code Courses Lec Tut lab Con - H Credits MAT202 Complex Variables 2 2 - 4 3 MAT204 Numerical Analysis 2 2 - 4 3 ENC212 Mechanics of Materials (2) 2 2 1 5 3 ENC281 Surveying (1) 2 - 3 5 3 ENC231 Fluid Mechanics ( 1 ) 2 2 1 5 3 ENC284 Building Materials and Concrete Technology 2 - 3 5 3 ENC201 Civil Engineering Drawing 1 2 - 3 2 Total 13 10 8 31 20 13 SEMESTER 5 Code Courses Lec Tut lab Con - H Credits MAT301 Mathematical Methods 2 - - 2 2 ENC321 Structural Analysis (1) 2 2 - 4 3 ENM341 Thermodynamics &Heat Transfer 2 2 1 5 3 ENC374 Steel Structure Design (1) 2 2 - 4 3 ENC332 Fluid Mechanics ( 2 ) 2 2 1 5 3 ENC382 Surveying (2) 2 - 3 5 3 ENC383 Engineering Geology 2 - 1 3 2 Total 14 8 6 2 8 19 SEMESTER 6 Code Courses Lec Tut lab Con - H Credits MAT302 Statistics &Probability 2 2 - 4 3 ENC371 Reinforced Concrete Design (1) 2 2 - 4 3 ENC333 Hydrology 2 2 - 4 3 ENC334 Hydraulics 2 2 1 5 3 ENC341 Soil Mechanics (1) 2 1 2 5 3 ENC322 Structural Analysis (2) 2 2 - 4 3 Total 12 11 3 26 18 14 SEMESTER 7 Code Courses Lec Tut lab Con - H Credits ENC472 Reinforced Concrete Design ( 2 ) 2 2 - 4 3 ENC435 Irrigation & Land Drainage 2 2 - 4 3 ENC442 Soil Mechanics (2) 2 1 2 5 3 ENC451 Sanitary Engineering (1) 2 1 2 5 3 ENC461 Transport & traffic engineering 2 2 - 4 3 ENC405 Computer Applications in civil engineering (1) 2 - 3 5 3 Total 1 2 8 7 2 7 1 8 SEMESTER 8 Code Courses Lec Tut lab Con - H Credits ENC493 Research Methodology 2 - - 2 2 ENC423 Structural Analysis (3) 2 2 - 4 3 ENC475 Steel Structure Design (2) 2 2 - 4 3 ENC443 Soil Mechanics (3) 2 2 - 4 3 ENC462 Highway Design & construction 2 1 2 5 3 ENC452 Sanitary Engineering (2) 2 1 2 5 3 Total 12 8 4 24 17 15 SEMESTER 9 Code Courses Lec Tut lab Con - H Credits ENC591 Project (1) 3 - - 3 3 ENC502 Engineering Economic 2 - - 2 2 ENC585 Estimation and Quantity survey ing 2 - - 2 2 ENC573 Reinforced Concrete Design ( 3 ) 2 2 - 4 3 ENC536 Hydraulic Structures 2 2 - 4 3 ENC544 Foundation Engineering 2 2 - 4 3 ENC524 Structural Analysis ( 4 ) 2 2 - 4 3 Total 15 8 - 23 19 SEMESTER 10 Code Courses Lec Tut lab Con - H Credits ENC594 Engineering Professional Ethics 2 - - 2 2 ENC592 Project (2) 3 - - 3 3 ENC503 Construction Management 2 - - 2 2 ENC504 Environment &Safety Engineering 2 - - 2 2 ENC506 Computer Applications in civil engineering (2) 1 - 3 4 2 ****** Elective course 2 2 - 4 3 ****** Elective course 2 2 - 4 3 Total 14 4 3 21 17 16 Elective courses SEMESTER 10 Code Courses Lec Tut lab Con - H Credits ENC563 RAILWAYS, AIRPORTS AND HARBOUR ENGINEERING 2 2 - 4 3 ENC545 Advanced Foundation 2 2 - 4 3 ENC564 Traffic Safety 2 2 - 4 3 ENC576 TALL BUILDINGS 2 2 - 4 3 ENC577 BRIDGE STRUCTURES 2 2 - 4 3 ENC537 Water Resources Engineering 2 2 - 4 3 ENC586 Remote Sensing 2 2 - 4 3 Total of the selected courses =2 Elective courses 6 6 - 12 6 17 Courses Details : - SEMESTER 1 Course name: CALCULUS (1) Code: MAT101 CH Lec Tut lab Con H 3 2 2 - 4 Learning Outcomes :  Apply the techniques of differential calculus to determine the maxima and minima of functions and to curve sketching.  Determine the MacLaurin series expansions of the standard functions and to apply the ratio test to check the convergence in solving some problems.  Integrate simpl e functions using the methods of substitution, integration by parts and reduction formulae. Course Outcomes PO1 Prerequisite: None Description : Part I: Variables, constants, functions, and limits and continuity. Part II: Derivation of algebra, the trigonometric, inverse trigonometric, exponential and hyperbolic function and algorithms of higher derivatives. Part III: The theory of average value and the maximum values, applications of differentiation, Taylor series, MacLa urin series , physical and engineering applications. Part IV: The concept of integration, integration by: substitution, parts, partial fractions. Diverse ways to find different functions complementarities ailing, finite integration, infinite integration. Part V: Applications of integration: area, volumes and surfaces, along the arc, the center of gravity, the status of fluid pressure, the determination of inertia. Lab: None Textbook: 1 - Narayanan S., Manicavachagom Pillay.T.K and Ramanaiah.G "Advanced Mathematics for Engineering Students" Vol. II & III, S.Viswanathan Publishers Pvt Ltd. 1998 References: 1 - Introduction to vector analysis to analyze Alkmyat almmtdp, d. Murray, D.Cibgel, d interpretation. Samira Abdel - Hafiz . 2 - Advanced Calculus by MURRAY R SDIEGZL 3 - Advanced engineering mathematics ( Kreyszig, Erwin , 10th, Wiley ) 4 - Mathematical methods for science students ( Stephenson, G.2nd, Longman ) Assessment Methods: 1. Written Exam 70% 2. Test/Quiz: 15% 3. Tutorial/Assignment: 15% 18 Course name: BASIC MATHMATICS Code: MAT103 CH Lec Tut lab Con H 3 2 2 - 4 Learning Outcomes: Providing principles of logic and the theory of groups that represent the basis for the understanding of sports science and enable the student to know the ways of mathematical induction. Course Outcomes PO1 Prerequisite: None Description : Part I: Mathematical logic, the issues, the logical links, tables of right, equality. Part II: Methods of mathematical induction, the expressions, the theory of groups, operations on the groups. Part III: algebra groups , groups of strong ties to the functions, equivalence relations. Part IV: functions groups, of the count, proof of non - counting, groups of real numbers to count. Part V: The definition of reparation, bilateral operations, the basic theories, the logical circuits. Lab: None Textbook: 1 - Narayanan S., Manicavachagom Pillay.T.K and Ramanaiah.G "Advanced Mathematics for Engineering Students" Vol. II & III, S.Viswanathan Publishers Pvt Ltd. 1998 References: 1 - Advanced engineering mathematics ( Kreyszig, Erwin , 10th, Wiley ) 2 - Mathematical methods for science students ( Stephenson, G.2nd, Longman ) Assessment Methods: 1. Written Exam 70% 2. Test/Quiz: 15% 3. Tutorial/Assignment: 15% 19 Course name: Physics(1) Code: PHY101 CH Lec Tut lab Con H 3 2 - 3 5 Learning Outcomes: The students will have knowledge on the basics of physics related to properties of matter, optics, acoustics etc., and they will apply these fundamental principles to solve practical Problems related to materials used for engineering applications Course Outcomes PO1 Prerequisite: None Description : 1. Units and dimensions 1.1 Units 1.2 Conservation of units 1 - 3 Dimensions 1.4 Dimensional analysis 2. Vectors 2.1 Vectors 2.2 Scalars 2.3 Scalar product 2.4 Vector product 3. Motion in straight line 3.1 Dynamic 3.2kinematics 3.3 Motion in one dimension 3.4 Motion in two dimension s 4.1 Newton`s law’s of motion 4.1 Newton`s law`s 4 - 2 Equilibrium 4.3 Friction 4.4 Gravitational force 5. Work, energy and power 5.1 Work 5.2 Energy 5.3 Power 5.4 Momentum 5.5 Angular momentum 6. Wave motion 6.1 Wave motion 6.2 Oscillatory motion and pendulum 6.3 Simple harmonic motion 6.4 Wave equation 6.5 Standing and travelling wave 6.6 Energy wave 7. Proper of matters 20 7.1 Density 7.2 Viscosity 7.3 Elasticity 7.4 Pressure 7.5 Young law`s 8. Heat and Thermodynamic 8.1 Heat 8.2 Thermodynamics Lab: Yes Textbook: 1. Arumugam M. Engineering Physics. Anuradha publishers, 2010 References: Senthilkumar G. Engineering Physics I. VRB Publishers, 2011. Assessment Methods: 1. Written Exam 70% 2. Test/Quiz: 15% 3. Laboratory work 15%