Thermodynamics

Fundamentals of energy systems, cycles, and laws of thermodynamics.

Fluid Mechanics

Flow behavior, turbulence, and industrial fluid applications.

Heat Transfer

Conduction, convection, radiation, and thermal system design.

Energy Fundamentals

Overview of energy systems, efficiency, and sustainability.

Engineering Mathematics

Applied mathematics for thermal and energy systems modeling.

Heat Pumps

Design, sizing, and optimization of heat pump systems.

Refrigeration Systems

Industrial refrigeration cycles and performance analysis.

Cogeneration (CHP)

Combined heat and power systems for high efficiency.

Trigeneration

Simultaneous production of heat, power, and cooling.

Pinch Analysis

Energy integration and process optimization techniques.

Energy Storage

Thermal storage systems and advanced energy solutions.

HVAC Systems Design

Design and optimization of heating, ventilation, and air conditioning systems.

Industrial Boilers

Gas boilers, combustion systems, and efficiency improvement.

Energy Audit

Methods for analyzing and improving energy performance.