The Building as a System PDF

Summary

This document provides an overview of building systems, focusing on the interactions between the building envelope, mechanical systems, and the occupants. The presentation details how heat, air, and moisture flow within and around a building. Useful resources are also included.

Full Transcript

THE BUILDING
AS A SYSTEM
 A building is …
a structure consisting of roof,
walls, windows and doors

designed to protect occupants
from weather
 A building is also …
a system consisting of a number of distinct parts
or components.

Each component may be a system itself comprised
of many sub-systems.

Components are linked in such a way that change
in one component usually results in change in
another.
3 MAJOR COMPONENTS
THE BUILDING ENVELOPE

THE MECHANICAL SYSTEMS

THE OCCUPANTS
THE BUILDING ENVELOPE
Consists of ceilings, walls, windows, doors, exposed
floors, basement floor & walls
Role in terms of HVAC:
separate indoor from outdoor environment
control heat flow into and out of building
control moisture and air flow
Materials used and detailing of parts very important
considerations of building envelope design
THE MECHANICAL SYSTEMS
controls heating, cooling, humidity, air
movement (comfort factors)

also includes any equipment that contributes
to generation of heat and /or moisture – hot
water heater, stove, fridge, lighting, washer &
dryer, motors, etc.
 THE OCCUPANTS
manipulate the building enclosure
contribute to heat and moisture gains
determine the function and use of the
building (what comfort levels are
required)
 3 MAJOR COMPONENTS & 3 FLOWS
Building envelope, mechanical systems and
occupants are linked not only to each other
but also to 3 “flows”
Air flow
Heat flow
Moisture flow
 HEAT FLOW
Heat flows continuously into and out of a
structure.
How it moves determines operating costs
and occupant comfort levels.
Heat flow is the driving force behind air flow
and moisture flow as well.
Heat flow continues until a balance is
achieved.
 Heat Losses
Losses occur in 3 major ways
1. Through openings in the building envelope
2. By conduction, convection and radiation
3. By flue and exhaust fan losses

All heated air eventually ends up outside
of the building and must be replaced by
an equal amount of air
Heat Gains
Heat gains come from 3 major sources
1. Solar gains
2. Internal gains
3. Heating system gains
Solar can account for 10-20% of heating load in
non-solar applications
Internal gains include occupants, lighting,
appliances, etc.
Heating and cooling equipment contribute to
heat gains
 AIR FLOW
is very important to maintain good air
quality and control heat and moisture

continuous changes occurs between the
building and its surroundings by:
1. Ventilation
2. Air leakage
 Ventilation
Is a controlled air leakage

Designed & planned for

includes bathroom exhaust fans, dryer
vents, mechanical ventilators etc.
 Air Leakage
unintentional or uncontrolled air change
occurs as:
Exfiltration
air leaking out of the building
Infiltration
air leaking into the building
also occurs wherever there is a pressure
difference
Stack Effect
Flue Effect
Ventilation Effect
Wind Effect
 Overall Air Flow
Very difficult to
determine
because all 4
pressure
conditions are
constantly
changing
 MOISTURE FLOW
like heat and air, moisture continuously flows
in and around the building
requires air and/or heat to move – if both air
and/or heat is controlled then moisture is
controlled.
sources of moisture include showers,
dishwashers, mechanical devices, occupants,
etc.
some moisture can be controlled by
controlling occupant activities
Resources
www.ukfrs.com
http://www.bpiexamacademy.com
https://energy.ces.ncsu.edu