DAY 1
PHYSICAL AND CHEMICAL PRINCIPLES (30%)
A. General Inorganic Chemistry
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Matter and Energy
Theory of Atoms and
Molecules
Chemical Periodicity
Calculation Principles
in Chemical Changes
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Chemical Bonding
Solutions
Chemical Kinetics
Chemical Equilibrium
Nuclear Chemistry
Chemistry
B. Organic Chemistry
Structural characteristics and reaction mechanism
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Aliphatic
Aromatics
Arenes
Alcohols
Aldehydes
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Ketones
Carboxylic acids
Carbohydrates
Amino acids
Proteins
C. Analytical Chemistry
Gravimetric and volumetric methods of analysis
D. Physical Chemistry
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Properties of gas,
liquids, solids and
solutions
Introduction to
thermodynamics
Thermochemistry
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Homogenous and
heterogenous
equilibria
Transference and
conductance of
ionized solutions
Electrochemistry
E. Biochemical Engineering
F. Environmental Engineering
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Types of Pollutants
Physical, chemical, and biological process applicable to
pollution control and abatement
abatement
DAY 2
CHEMICAL ENGINEERING PRINCIPLES (40%)
A. Chemical Engineering Calculations
B. Chemical Engineering Thermodynamics
Thermodynamics
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First and second laws of thermodynamics
P-V-T relationships of fluids
Heat effects
Thermodynamics of flow processes
Power and refrigeration cycles
Phase equilibria
Chemical reaction equilibrium
C. Reaction Kinetics
D. Unit Operations
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Fluid Mechanics
Heat Transfer
Evaporation
Filtration
Diffusion
Distillation
Gas Absorption
Humidification
Drying
Leaching
Liquid-Liquid
Extraction
Crystallization
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Sedimentation
Centrifugation
Membrane
Separation
Flotation
Adsorption
Screening
Size Reduction
Agitation and
Mixing
Materials Handling
Dimensional
Analysis
E. Chemical Process Industries
F. Plant and Equipment Design
G. Instrumentation and Process Control
DAY 3
GENERAL ENGINEERING (30%)
A. Mathematics
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Algebra
Trigonometry
Analytic Geometry
Differential Calculus
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Integral Calculus
Differential Equation
Statistics
Probability Theory
B. Physics
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Mechanics
Waves
Sound
Heat
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Electricity
Magnetism
Semi-conductors
Optics
C. Engineering Mechanics
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Statics and Dynamics
Free body concepts
Equilibrium of coplanar
and non-coplanar
systems
Analysis of frames and
trusses
Friction
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Centroids and moment
of inertia
Motion of particles and
rigid bodies
Mass, force, and
acceleration
Work and energy
Impulse and momentum
D. Strength of Materials
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Types of material, classification,
classification, properties and characteristics:
characteristics:
polymers, rigid and composite
composite structures and other engineering
engineering
materials
Axial stress and strain
Stresses in torsion and bending
Combined stresses
Beam deflections
Indeterminate beams
Elastic instability (Thermal expansion)
E. Engineering Economics
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Introductory financial
accounting
Financial mathematics
Time value of money
Break-even analysis
F. Laws, Contracts and Ethics
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Capital investment and
decision criteria
Engineering-oriented
applications
Value engineering and
optimization