TRAINING
AVAILABLE COURSES

Swegon offers architects AIA-approved courses for professional development.

CitizenM Bowery
Above: CitizenM Bowery, New York

Hospitality Ventilation


AIA-approved course # SAA 1901
1.0 LU/HSW

Hotel owners seek to operate profitably while providing a pleasant guest experience. The hotel ventilation system is a main source for guest comfort and represents a substantial impact on life-cycle costs. This course explores hotel ventilation systems that provide maximum guest comfort, low investment and minimum footprint.

Course Objectives

  • Understand the basics of hotel ventilation.

  • Explore occupant comfort, as applied to hotel guests.

  • Learn about energy-efficient, code-compliant ventilation systems.

  • Learn about specific HVAC equipment applied in hotels, in case study format.

ASU
Above: Arizona State University

Chilled Beam Advances – Adding Demand Control for Maximum Energy Savings and Comfort

1.0 LU/HSW

Chilled beams technology continues to advance. Today’s chilled beam technology offers building owners and occupants additional energy savings and comfort through the addition of demand control. This course explores the many benefits of chilled beams with integrated demand control ventilation. Fresh air for breathing, for the health, safety and welfare of the occupants.

Course Objectives

  • Review Chilled Beam capabilities and limitations.

  • Review demand control ventilation strategies.

  • Explore the benefits of integrating demand control ventilation strategies into chilled beams.

  • Review typical chilled beam applications with case studies.

Above: Passive House Dormitory at Wheaton College, Norton Massachusetts

Integrating HVAC into Large Passive House Building Design


PHI-approved course # SAA 1930
1.0 CEU

This course explores the integration of HVAC systems into the design of large Passive House buildings in order to save enormous amounts of energy, reduce operating costs and provide high levels of occupant comfort.

Course Objectives

  • Review the main characteristics of large Passive House buildings.

  • Learn the differences between HVAC systems for large buildings meeting code, and large buildings built to the Passive House Institute standard.

  • Examine the role of the Energy Recovery Air Handling Unit in large Passive House buildings.

  • Explore steps taken to integrate HVAC into large Passive House buildings.

 

ref
Above: Automobile Dealership Built to Passive House standard, Red Deer Alberta

Source: https://www.cadcr.com/shifting-gears-a-passive-house-car-dealership-in-the-making/

Passive House Ventilation: Cooling with Ventilation Air with case studies


AIA-approved course # SAA 1920
1.5 LU|HSW

A benefit of airtight Passive House buildings is a lower cooling load in the building than a typical code-compliant building. Opportunities result to take advantage of more free cooling, smaller mechanical equipment and centralized cooling. This course educates on the basics of cooling Passive House Buildings, and includes case studies.

Course Objectives

  • Understand the key features of building ventilation devices: energy recovery air handling units, Energy Recovery Ventilators (ERV) and Heat Recovery Ventilators (HRV).

  • Examine the impact on building energy use from cooling with ventilation air in case studies.

  • Learn basic concepts about cooling loads.

  • Explore post-cooling: the use of ventilation air as a means of cooling a building.

  • Understand the integration of energy recovery ventilators in the Passive House design, with case studies.

  • Summarize concepts learned through case studies.

Ventilating the Passive House Project with case studies


AIA-approved course # SAA 1902
1.5 LU|HSW

Passive House projects have very specific ventilation requirements, offering both challenges and opportunities. This course intends to train specifiers on the benefits and limitations of Energy Recovery Ventilators (ERV) used on Passive House certified projects. Course includes case studies.

Course Objectives

  • Understand the benefits of energy recovery ventilators in general, with special focus on their benefits to the Passive House project.

  • Understand the properties of energy recovery ventilators that are most valuable on Passive House projects.

  • Understand the limits of energy recovery ventilators when applied on Passive House projects.

  • Understand the integration of energy recovery ventilators in the Passive House design, with case studies.

Passive House Ventilation: Humidity Considerations in Multifamily Residential Buildings with case studies


AIA-approved course # SAA 1903
1.5 LU|HSW

Passive House buildings benefit from airtight construction. Minimizing winter infiltration directly lowers energy consumed heating the building. Airtight construction also hinders airborne moisture from escaping the building through the building skin. Multifamily residential projects are at greater risk of moisture buildup. This course examines the causes and solutions to humidity buildup in Passive House buildings.

Course Objectives

  • Understand the sources of indoor humidity in multifamily residential buildings.

  • Determining the best method of managing humidity in airtight buildings.

  • Understand the impact of airtight construction on heating energy use.

  • Understand the different types of systems used to ventilate airtight buildings.

ref
Above: Buffalo State Bishop Hall, NY

Source: http://www.mach-arch.com/buffalo-state-bishop-hall

Decentralized DOAS Design: Dedicated Outside Air System Benefits and Components with case studies


AIA-approved course # SAA 1911
1.5 LU|HSW

Course is designed to advance knowledge of air handling system application, with emphasis on occupant wellness associated with the concepts of Dedicated Outside Air Systems (DOAS) and demand control ventilation (DCV), life-cycle cost savings, occupant comfort, sound control and system integration. Course includes case studies.

Course Objectives

  • Understand DOAS functions, benefits, components

  • Understand the application of DOAS air handlers to meet code requirements and industry standards

  • Understand DOAS impact on occupant Health, Safety and Welfare

  • Understand the value of energy recovery effectiveness on building life cycle cost by reviewing case studies

ref
Above: Radius, Whistler BC

Passive House Ventilation: Cooling with Ventilation Air


AIA-approved course # SAA 1802
1.0 LU|HSW

A benefit of airtight Passive House buildings is a lower cooling load in the building than a typical code-compliant building. Opportunities result to take advantage of more free cooling, smaller mechanical equipment and centralized cooling. This course educates on the basics of cooling Passive House Buildings, and includes case study.

Course Objectives

  • Understand the key features of building ventilation devices: energy recovery air handling units, Energy Recovery Ventilators (ERV) and Heat Recovery Ventilators (HRV).

  • Examine the impact on building energy use from cooling with ventilation air in case studies.

  • Learn basic concepts about cooling loads.

  • Explore post-cooling: the use of ventilation air as a means of cooling a building.

ref
Above: Hanac Corona, New York

Passive House Ventilation: Humidity Considerations in Multifamily Residential Buildings


AIA-approved course # SAA 1801
1.0 LU|HSW

Passive House buildings benefit from airtight construction. Minimizing winter infiltration directly lowers energy consumed heating the building. Airtight construction also hinders airborne moisture from escaping the building through the building skin. Multifamily residential projects are at greater risk of moisture buildup. This course examines the causes and solutions to humidity buildup in Passive House buildings.

Course Objectives

  • Understand the impact of airtight construction on heating energy use.

  • Understand the sources of indoor humidity in multifamily residential buildings.

  • Understand the different types of systems used to ventilate airtight buildings.

  • Understand methods of determining the best method of managing humidity in airtight buildings.

GOLD RX

“Everyone who attended your lunch thoroughly enjoyed it and learned a lot. We all sit through plenty of lunch n’ learn sessions that are pretty awful. So it is refreshing to hear one that is actually interesting and informative. Great job.” – Stephen E, Architect, St. Louis MO

Decentralized DOAS Design: Dedicated Outside Air System Benefits and Components


AIA-approved course # SAA 1007
1.0 LU|HSW

Advance your knowledge of air handling system application, with emphasis on occupant wellness associated with the concepts of Dedicated Outside Air Systems (DOAS) and demand control ventilation (DCV), life-cycle cost savings, occupant comfort, sound control and system integration.

Course Objectives

  • Understand DOAS functions, benefits, components and impact on occupant Health, Safety, Welfare

  • Understand DCV design impact on life cycle cost

  • Understand the impact of ventilation system sound on building design

  • Understand the benefits of simplified air handler system integration

Passive House Certification

“I’ve already heard back from several associates that they found the presentation most instructive!” – Thomas, Architecture firm, New York NY

Ventilating the Passive House Project


AIA-approved course # SAA 1601
1.0 LU|HSW
PHIUS-approved course code 66124 

Passive House projects have very specific ventilation requirements, offering both challenges and opportunities. This course intends to train specifiers on the benefits and limitations of Energy Recovery Ventilators (ERV) used on Passive House certified projects.

Course Objectives

  • Properties of energy recovery ventilators that are most valuable on Passive House projects.

  • Benefits of energy recovery ventilators in general, with special focus to the Passive House project.

  • Limits of energy recovery ventilators when applied on Passive House projects.

  • Integration of energy recovery ventilators in the Passive House design.

beams

Chilled Beam Design Considerations


1 PDH Credit accredited by AIA
Duration: 1.5 Hours

This course is intended to educate design engineers on the basics of active chilled beam system design including primary air system design. It shows how design conditions impact annual energy usage so the design engineer can appreciate the impact of design conditions. The course includes demand control ventilation design as means of improving energy efficient and comfort.

GOLD RX

Dedicated Outdoor Air Systems Design


1 PDH Credit accredited by AIA
Duration: 1.5 Hours

This course is intended to educate design engineers on a range of design considerations for Dedicated Outdoor Air Systems (DOAS) and their impact on the HVAC system performance. It is based on an ASHRAE Journal Article published in March 2016.

See our other courses