16 - 20 Feb 2025
Istanbul (Turkey)
Hotel : DoubleTree by Hilton Istanbul Esentepe
Cost : 5775 € Euro
HVAC is a method for providing comfort in both indoor and outdoor environments in vehicles. High indoor air quality and thermal comfort are the goals of the technique. Mechanical, forced, and natural ventilation are a few types of ventilation systems that can be used to ventilate a building and maintain an ideal temperature throughout the day and at night.
Nowadays, HVAC systems can be found everywhere, in both household and business settings. HVAC systems provide pressure regulation and ventilation for vacuum spaces. Room air distribution is a technique for removing air from areas and providing air.
Provide a deep understanding of real-world solutions and have been tailored with simple yet realistic modules for effective and holistic implementation.
Equip the learner with all the fundamentals of AC systems and design
Use of testing equipment, and the principles of mechanics, electricity, and electronics.
Enabling the learners to start with a great professional career in this field.
Day 1
First Cost, Energy Efficiency / O&M Cost
Maintainability. Reliability. Redundancy. Flexibility
Change in Occupancy
Partial Controllability
Temperature
Humidity
Pressurization
Air Quality
Infection Control
Day 2
The Selection of HVAC Systems
Packaged Air Handling Units, Direct Expansion
Chilled Water, Local Special Systems
Medical Equipment, Computer Rooms
Terminal Units, Unitary or Served by a Central Plant
Fan Coil Units, Incremental Units
Heat Pumps
Induction Traditional Hospital HVAC Systems Decentralized Systems
Packaged Terminal Air Conditioner filter
Water-Source Heat Pump
Fan-Coil Unit cooling coil supply fan return-air inlet supply-air outlet filter
Fan Coil Systems 4 pipe 2 pipe Central ventilation unit
Induction Units 4 pipe 2 pipe Central ventilation unit
Air-Cooled Chiller, Fan-Coil System
Small Chilled-Water System
Day 3
Traditional HVAC Systems
All Air Systems
Central Heating
Central Cooling
Single Zone
Multiple Zones & Constant Volume cooling
Multiple Zones & Variable Volume
HVAC Filtration
Primary panel filter Secondary filter HEPA or tertiary filter
Sources of Chilled Water
Cooling Sources Chiller Plant
Constant or Variable Flow-Primary-Flow Systems bypass two-way valve variable-flow pumps control valve check valves optional bypass with three-way valve
Primary-Secondary Configuration production pumps
Variable-Speed Drives
Boiler Plant Steam vs. Hot Water Fire tube vs. water tube Full size vs. Modular Hot Water
Day 4
LEED for HealthCare
Energy Conservation is a significant part
Establish ASHRAE 90.1 for base performance
LEED forces early consideration of all measures
Energy modeling required
ASHRAE Standard 189.2P
Non-All Air Systems
Ventilation- Energy Recovery
High-Performance Healthcare Facilities
Guidelines for Construction
Building Envelope Improvements
Reduce Building Volume (Height)
Reduce Fan Horsepower's
BIM as a resource
Requires less external static pressure
Dedicated ventilation air systems
Heat Recovery Chillers
Using the rejected condenser heat
Day 5
Chiller, Heat Recovery, Solar, Hydronic
PV Strategies to Reduce Energy Consumption
Heat Pumps Heat Recovery, Laundry, Data Centers, Ground Source Heat Pumps, Cogeneration
Trigeneration Strategies to Reduce Energy Consumption Continued…
Ground-Source Heat-Pump System geothermal heat exchanger heat pump pumps
Reducing building height and horizontal duct lengths
Non-All Air Alternatives
Fan Coil Units
Chilled Beams
Positive Displacement Ventilation
Hybrid VAV Systems
Active Chilled Beams in Cooling and Heating Mode
Passive Chilled Beams
Active Chilled Beams
Displacement Ventilation