Credit: 4.0 Contact Hours: 4 hours/week Wave and Oscillation: Wave and composition of simple harmonic motion, average value of kinetic and potential energies of a harmonic oscillation, superposition of simple harmonic motion;. Credit: 3.0 Contact Hours: 3 hours/week Chemical Kinetics: Reaction order and molecularity, rate equations, for zeroth, first, second and third order reaction. Credit: 1.50 Contact hours: 3 hours/week Work Drawing of machine elements with sectional view, Drawing of subassembly and assembly; Pipes and pipe fittings; Electrical circuit diagrams.

Credit: 3.0 Contact hours: 3 hours/week Magnetic circuits: Flux, permeability and reluctance, magnetic field strength, magnetic potential, flux density, magnetization curve. Credit: 4.0 Contact hours: 4 hours/week Transistor: Transistor and its current components, BJT characteristics and different operating ranges, different transistor configurations, transistor as a switch and amplifier, transistor biasing, DC and AC load lines, thermal stabilization. Credit: 0.75 Contact hours: 3/2 hours/week Solving Energy Science and Engineering problems using standard simulation software.

Credit: 1.50 Contact Hour: 3 hours/week Computer applications to the problems based on the theory of Math 3113. Credit: 3.0 Contact Hour: 3 hours/week Introduction to Power Systems: Fundamentals of Power System Engineering, Electrical Power System, AC and DC Power Schematics . Credit: 4.00 Contact Hours: 4 hours/week Introduction: Basic heat transfer modes; Thermal properties of materials.

Credit: 3.00 Contact hours: 3 hours/week Pipe flow: Buckingham 𝜋 theorem; Hydraulic diameter, flow regimes based on Reynolds number;. Credit: 0.75 Contact hours: 3/2 h/week The department will organize special lectures for students on the latest research and technology in the field of energy, which will be conducted by experts from the university or outside it. Credit: 0.75 Contact hours: 3/2 hours/week The student will create a system model with his innovative idea under the guidance of the faculty.

Credit: 4.00 Contact hours: 4 hours/week Introduction: Types of coal and their characteristics; Geology of Coal; evaluation of coal for different applications; proximate and final analysis of coal; Overview of Coal Energy in Bangladesh and the World; Role of coal in the overall energy situation. Credit: 1.5 Contact hours: 3 hours/week Theoretical and experimental research on various topics in Energy Science and Engineering. Credit: 3.0 Contact hours: 3 hours/week Fuels and their characteristics: properties of fuels, determination, proximate and final analysis;.

Credit: 3.0 Contact hours: 3 hours/week Introduction: Power plant characteristics, types, components, general layouts, criteria for comparison and selection; Energy sources and their availability; overview of Bangladesh's power sector, current status and future trends. Credit: 3.0 Contact Hours: 3 hours/week Safety Management: Fundamentals of Hazard, Risk, Accident, Safety and Security Management;. Credit: 3.0 Contact Hours: 3 hours/week Introduction to Nuclear Physics: Principles of nuclear energy, nuclear masses and mass defect, binding energy, nuclear reactions, energy from fission and fusion, chain reaction, cross sections and concepts of nuclear criticality , radioactive decay, half life.

Credit: 3.0 Contact hours: 3 hours/week Introduction: Concept for energy management program; basic components of an energy vision.

Optional V

Credit: 3.0 Contact hours: 3 hours/week Introduction: History of hybrid and electric vehicles (HEVs), reasons for the development of HEVs, types; HEV configurations, social and environmental importance of hybrid and electric vehicles, benefits; challenges and key technology of HEVs – concept of hybridization of the Automobile-Plug-in HEVs, commercially available HEVs. Energy Management Strategies: Energy management strategies used in hybrid and electric vehicles, classification of different energy management strategies, comparison of different energy management strategies, implementation issues of energy management strategies. Credit: 3.0 Contact hours: 3 hours/week Introduction: Definition, applications, overview of the technologies required for the comparison of Smart Grid, microgrid and smart grid; sustainable energy options for the smart network, the economy and the market forces of the smart network.

Credit: 3.0 Contact Hours: 3 hours/week Materials for Solar Cells: Inorganic Materials for Solar Cells: Si, GaAs and Other III-V Compounds, PERL Si Solar Cell Materials; crystalline, polycrystalline, amorphous and microcrystalline solar cells. Credit: 3.0 Contact hours: 3 hours/week Introduction: Indoor activities and environmental control, internal and external factors of energy use, characteristics of energy use and its management, macro aspect of residential energy use; . Thermal comfort, ventilation and air quality, air conditioning demand, visual perception, lighting demand, auditory demand.

Thermal performance of buildings: Steady and unsteady heat transfer through wall and glazed window, standards for thermal performance of building envelope; evaluation of the overall thermal transfer: thermal gain and net heat gain, endues energy requirements; status of energy use in buildings, estimation of energy consumption in a building. Credit: 3.0 Contact hours: 3 hours/week Introduction: Overview of various technologies and conventional methods of energy conversion, power cycles, design of a workable system, workable and optimal systems, steps to arrive at a workable system, creativity in concept selection, equation fitting, mathematical modelling, polynomial representation, functions of two variables, exponential forms, best fit method of least squares. Air conditioning: Indoor and outdoor air conditions, comfort air conditions and comfort zone indoor air quality, review of psychrometry; Central air conditioning system: essential components of central air conditioning plant: water chiller and water heater, air handling unit, fan control unit, chilled water and hot water recirculation system, return air supply system, fresh air supply system and air mixing room; supply fan, air dust cleaning and bacteria removal, air supply and air return terminals, diffusers, dampers, grillers and registers; introduction to variable refrigerant flow (VRF) technology.

Air Conditioning System Design: CFM Rating and Air Conditioning Tons of Central Air Conditioning, Cooling and Heating Loads; calculation procedures, channel sizing and pipe design; selection of pumps and fans, ventilation; calculation of fresh air supply to multi-storey buildings, air conditioning devices for processing fresh and return air, designing fans with forced convection. ASHRAE, Handbook - Fundamentals, SI Edition by Circle, T. 1997), American Society of Heating, Refrigerating and Air-Conditioning Engineers. Preparation and development of energy projects: characteristics of energy projects, project cycle, context of energy projects, project identification, project proposal preparation, preliminary studies and feasibility studies, budget planning, project approval and implementation.

Economic Evaluation of Energy Projects: Alternative methods of project evaluation, Traditional methods and new developments, evaluation of costs and benefits, Uncertainty and risk analysis of projects, Analysis of sensitivity and level of return. Credit: 3.0 Contact hours: 3 hours/week Introduction: Basic concept of econometrics and statistical analysis; 2-variable regression model; Multiple regression model; Regression coefficient tests and regression equation;. Input-Output Analysis: Basic concept of Input-output analysis; the concept of the energy multiplier and the implication of the energy multiplier for regional and national energy policy analysis; Energy and Environmental Input - Output analyzes using the I-O model.

Energy modeling: energy-economy-environment interdependence; Modeling concept and application, Methodology of energy demand analysis; Energy forecasting methodology;. Credit: 3.0 Contact hours: 3 hours/week Introduction: An overview of hydrocarbon resources in Bangladesh; Historical overview of the discovery and exploitation of petroleum and its products; Petroleum formation; Physical and chemical properties of petroleum; Introduction to petroleum and mining geology and its classification; Petroleum system; Source of petroleum;.