N O R T H A M E R I C A C O M M E R C I A L TDP

Slides:

Advertisements

Similar presentations

Sustainable School Design Creating Healthy, High Performance School Facilities Presented by Stephen M. Koontz, Energy Services Leader, Tampa Bay Trane.

Advertisements

HVAC 13a CNST 305 Environmental Systems 1 Dr. Berryman

Chapter 3. HVAC Delivery Systems

Trane Voyager™ rooftop units

Environmental Controls I/IG Lecture 14 Mechanical System Space Requirements Mechanical System Exchange Loops HVAC Systems Lecture 14 Mechanical System.

Heating, Ventilation and Conditioning (HVAC) for Hospitals 1 Presentation for: Presented by Leach Wallace Associates September 8, 2011.

HVAC 101 The Basics of Heating, Ventilation and Air Conditioning

Foundations of Real Estate Management BOMA International ® Module 3: Building Operations I Heating, Ventilating, and Cooling the Building ®

Foundations of Real Estate Management TM BOMA International ® Module 3: Building Operations I Heating, Ventilating, and Cooling the Building.

Geothermal Retrofit of HVAC Systems

Components of HVAC System

HVAC Heating, Ventilation and Air Conditioning -something that you never think about until it doesn’t work properly.

1Taylor Engineering, LLC Group Think Mark Hydeman, P.E., FASHRAE Taylor Engineering, LLC

pae consulting engineers, inc. Nick Collins, P.E., LEED™ AP

Objectives Finish with ducts and fans Define project topics.

Energy in Focus Energy Savings with Water Based Systems By Maija Virta Specialist of Indoor Environment Technology.

Heat and cold generation Meyer Hospital Florence Meeting, 8-9 May 2003.

ASHRAE Presentation: VRF Overview Mitsubishi Electric Presenter: Phone number ©2011 Mitsubishi Electric& Electronics USA, Inc.

HVAC Systems Overview HVAC Overview - # 1 Tom Lawrence

Announcement Course Exam October 6 th (Thursday) In class: 90 minutes long Examples are posted on the course website.

Refrigeration and Heat Pump Systems Refrigeration systems: To cool a refrigerated space or to maintain the temperature of a space below that of the surroundings.

 Install new air cooled high efficiency screw chiller (variable speed)  Install new fan coils with ECM motors and low temperature heating coils and proper.

Air Conditioning Systems

Lecture Objectives: Model HVAC Systems –HW3 Asignemnet Learn about eQUEST software –How to conduct parametric analysis of building envelope.

Lecture Objectives: Model processes in AHU –Use eQUEST predefined models –Use detail modeling Define your topics for your final project.

1 as Air Conditioning Systems. 2 as Split Type Air-Cooled Suction Line Liquid Line Condensing Unit (CDU) : Fan Coil Unit (FCU) : MCW,MCX,MCD,MCC,MCV,TTH,TWE,TTV.

Important variables Water: Air: Conversion:

Chilled water Meyrin consolidation Study 1 st Part Many thanks for their contribution to: Pasquale Alemanno, Fortunato Candito, Alexander Putzu.

1 Medical Office Building. 2 Occupancy – 400 persons 8 a.m. – 5 p.m. Monday - Friday Building Characteristics Three stories 40,000 square feet (200’ x.

Lecture Objectives: Finish with HVAC Systems Discuss Final Project.

How a Heat Pump Works By: Adam Meeker. What is a Heat Pump? A heat pump is a device which transfers heat energy from one place to another.

N VAV system varies the air quantity rather than temperature to each zone n Single main duct is run from AHU n Branch duct are run from this main through.

STUDY ON HVAC SYSTEM STUDY ON HVAC SYSTEM

Hilton Hotel at BWI Airport Nathan Patrick The Pennsylvania State University Architectural Engineering – Mechanical Option.

Whitman-Hanson Regional High School Energy Efficient Systems: HVAC All fans and pumps are VFD controlled with fully reactive controls Condensing gas-fired.

Systems and Applications Basic Types Direct Expansion Air-WaterAll-AirAll-Water.

Facilities Management and Design Chapter 7 HVAC Systems.

Announcement Course Exam November 3rd In class: 90 minutes long Examples will be posted on the course website.

FME 706/FML Introduction1 FME 706 REFRIGERATION, HEAT PUMPS AND AIR CONDIRIONING.

Introduction to Energy Management. Week/Lesson 13 Control Strategies for Occupant Comfort.

Objectives When you have completed this session, you should be able to: 1.Explain the basic principles of heating, ventilation, air conditioning and refrigeration.

Lecture Objectives: Discuss the exam problems Answer question about HW 3 and Final Project Assignments Building-System-Plant connection –HVAC Systems.

Heat Pumps Presentation by: Rana Itani. Objective To familiarize audience on the components of a heat pump and how it works.

Refrigeration What's Refrigerated? What makes up a system?

Control Systems: Circuitry Electricity for Refrigeration, Heating and Air Conditioning 7th Edition Chapter 16 Control Systems: Circuitry and Troubleshooting.

Technical Seminar on Application and Technical Specification June 2016

LEVEL 4 BUILDING SERVICES TRAINING Level 3 Re-cap Cooling Systems looked at within Level 3 included; –Through-the-wall packages –Individual reversible.

Chapter 14 Heating, Ventilation & Air conditioning (hvac)

Lecture Objectives: Discuss HW3 parts d) & e) Learn about HVAC systems

Book E3 Section 1.4 Air-conditioning

The Data Center Challenge

Technology in Architecture

HVAC EQUIPMENT: COOLING SOURCES (see Chapter 16)

Lecture Announcement Developing Concrete with a Structural and Thermal Insulation Performance and Homogenous and Stratified Approach Dr. Mauricio Lopez.

HVAC Basics Arkan Arzesh HVAC – Heating, Ventilation, Air-conditioning.

CONFIDENTIAL Technical Seminar on Application and Technical Specification 21 June 2016 Rezza Arif Bin Mustapa Kamal Senior Engineer Project And Application.

Types of HVAC Technology Used in Business Establishments

Lecture Objectives: Answer questions related to HW 4

Lecture Objectives: Discuss HW3 parts d) & e) Learn about HVAC systems

Lecture Objectives: Answer questions related to HW 4

Chapter 11: DESCRIPTION OF HVAC SYSTEMS

Abbas Shirian, PE Certified GeoExchange Designer

Objectives Discuss Project 1 (eQUEST) Learn about HVAC Systems

October 31st In class test!

Air Conditioning System-1

Lecture Objectives: Discuss HW4 parts

Objective Revie the Cooling Cycle Learn about air distribution systems

‘‘ BUILDING AUTOMATION’’

Chapter 11: DESCRIPTION OF HVAC SYSTEMS

Energy Management Introduction Rantharu Attanayake BSc. (Eng), MSc, MBA EE – Energy Management Mobile :

Presentation transcript:

N O R T H A M E R I C A C O M M E R C I A L TDP Phase 1 - ABC’s of Comfort - Psychrometrics Level 1 - Load Estimating Level 2 - Principles of Mechanical Refrigeration - Concepts of Air Conditioning - Water Piping and Pumps - Duct Design Level 1 - Central Station Air Handlers - Fans: Features and Analysis - Fans in VAV Systems - Air-Cooled Chillers - Water-Cooled Chillers - Rooftop Units Level 1 - Split Systems - Condensers and Cooling Towers - Variable Volume and Temperature - Controls Level 1 For internal use only — Carrier confidential

N O R T H A M E R I C A C O M M E R C I A L TDP Phase 2 - Comfort Control Principles - Filtration - Coils – Direct Expansion, Chilled - Acoustics and Vibration Water and Heating - Indoor Air Quality - Systems Features and Selection - Compressor Types Criteria - Energy Recovery Systems - Life Cycle Costing for HVAC Systems - Load Estimating Level 3 - Water Source Heat Pumps - HVAC Industry Overview - Principles of Mechanical - VAV Rooftop Units Refrigeration Level 2 - Sustainable Design (LEED) - Controls (Networking) - Indoor Package Units - Load Estimating Level 1 - VAV Systems - Refrigerant Piping - Refrigerants - Expansion Devices - Chilled Water Systems - VAV and CV Terminals For internal use only — Carrier confidential

N O R T H A M E R I C A C O M M E R C I A L TDP Phase 3 - Load Estimating Level 4 - Room Air Distribution - Controls 3 Basic Controls Design - Underfloor Air Distribution Systems - Commissioning - Electrical: Starters, Motors, VFD’s - Induction Systems: Dedicated Make Up Air - Energy Estimating - Codes and Standards affecting HVAC Design - Combined Heat and Power For internal use only — Carrier confidential