Introduction to Turbomachines. Dimensional Analyses and Performance Laws.

Precision Engineering: concepts, materials, processes – high speed machining; CNC machine tools and machining centres, adaptive systems, multi axis CNC programming – micro/nano scale manufacturing – recent development in nontraditional machining.

Introduction to Turbomachines. Dimensional Analyses and Performance Laws.

Axial Flow Compressors and Fans: Introduction – aero-thermodynamics of flow through an axial flow compressor stage – losses in axial flow compressor stage – losses and blade performance estimation, radial equilibrium equation – design of compressor blades – 2-D blade section design, axial compressor characteristics – multi-staging of compressor characteristics – high Mach number compressor stages – stall and surge phenomenon – low speed ducted fans.

Refrigeration: introduction – analysis of VCR cycles – multistage, multi-evaporator, cascade systems – properties and selection of pure and mixed refrigerants – properties of binary mixtures – analysis of vapor absorption cycles – aqua ammonia and LiBr water cycles – air cycle refrigeration, vortex tube, thermoelectric refrigeration.

Launch vehicle ascent trajectory design – reentry trajectory design – low thrust trajectory design – satellite constellation design – rendezvous mission design – ballistic lunar and interplanetary trajectory design – basics of optimal control theory – mission design elements for various missions – space flight trajectory optimization – direct and indirect optimization techniques – restricted 3-body problem – Lagrangian points – mission design to Lagrangian point.

Overview of industrial manipulators and field robots – robot mechanisms: serial chains, regional and orientational mechanisms, parallel chains, reachable and dexterous workspace, mechanisms of wheeled and walking robots – spatial displacements, rotation matrices, Euler angles, homogenous transformation, DH parameters, forward and inverse problems for serial and parallel manipulators – task planning joint space and task-space planning – sensors: joint displacement sensors, force sensors, range finders, vision sensors – actuators, electric motors: stepper, PMDC and brushless DC motors, pneuma

Derivation of basic equations for viscous fluid flow, including heat conduction and compressibility – exact solutions.

Laminar boundary layer approximations – similar and non-similar boundary layers – momentum integral methods – separation of boundary layer – compressible boundary layer equations – recovery factor – Reynolds analogy – similar solutions.

Introduction to transition of laminar boundary layers.

Turbulent flows – phenomenological theories – Reynolds stress – turbulent boundary layer – momentum integral methods – turbulent free shear layer.

Introductory aspects of non-renewable and renewable energy sources – fundamentals of thermal radiation – resource assessment – solar radiation concepts – solar-earth geometry – models to predict global and daily and hourly irradiation.

Solar collection theory and technologies (non-concentrating): heat transfer in solar collectors – basic modeling aspects – steady and dynamic analysis – performance parameters.

Introduction and a strategic view of supply chains – evolution of supply chain management (SCM) – decision phases in a supply chain – enablers of supply chain performance – supply chain strategy and performance measures – achieving strategic fit – network design in the supply chain – supply chain drivers and obstacles – operations decisions in supply chains – forecasting, aggregate planning – inventory control in supply chain – sourcing decisions in supply chain – supplier selection – transportation in supply chain – routing and scheduling using savings matrix method – coordination in suppl

Combustion and thermochemistry – fuels – chemical kinetics and mechanisms – reacting flows – modeling of reacting flows – premixed flames – detonation and explosion – introduction to turbulence – turbulent premixed combustion – non-premixed combustion – turbulent non premixed combustion – spray combustion – combustion instability.

Introduction, production planning and control – product design – value analysis and value engineering – plant location and layout – equipment selection – maintenance planning – job, batch, and flow production methods – group technology – work study – time and motion study – work/job evaluation – inventory control – manufacturing planning – total quality management – Taguchi’s quality engineering – network models.