REVIEW
Green Professional Building Skills Training
ElectricalSystems
What are the benefits of sustainability in green building
design?
• Promotes new and better jobs• Helps fight climate change• Better Indoor Environmental
Quality• Lowers operating costs
1 SUSTAINABILITY IN ELECTRICAL SYSTEMSPage 12
What is peak demand and under what circumstances is it most
likely to occur?
Peak demand (or peak load) is the maximum power drawn at any given time.
Peak load is most likely to occur on the hottest days of the summer when the most
air conditioners are in use.
1 SUSTAINABILITY IN ELECTRICAL SYSTEMSPage 12
What is the difference between site energy and source energy
and how are they related to electricity usage?
Site energy is the amount of energy delivered to a building and source energy is the amount of
energy in the fuel used to generate the electricity. The amount of useful electrical energy delivered to a building is typically about one-third of the amount of energy used to generate it. The other two-thirds
are lost in thermodynamic inefficiencies at the generating plant and in transmission.
1 SUSTAINABILITY IN ELECTRICAL SYSTEMSPage 12
What are the codes and standards related to green building and what
are their functions?There are two standards or codes that are widely
adopted and aimed at lowering energy consumption. The first is ANSI/ASHRAE/IES Standard 90.1, which has been made significantly more stringent with each
revision, aiming for extremely efficient buildings as standard construction by 2030. A parallel effort is the
International Energy Conservation Code (IECC), which is often adopted as the state or local energy
code in conjunction with ASHRAE 90.1.
1 SUSTAINABILITY IN ELECTRICAL SYSTEMSPage 12
What is ENERGY STAR and how does it relate to the LEED rating
system?
1 SUSTAINABILITY IN ELECTRICAL SYSTEMSPage 12
The U.S. Green Building Council’s LEED rating system is a design standard, establishing criteria for
the energy and water efficiency and broader sustainability of the design of buildings. ENERGY
STAR is similar to LEED but aimed almost exclusively at energy-related items. A project
pursuing an ENERGY STAR rating will install the high-efficiency systems used in LEED projects.
What is a lumen, what is a foot-candle, and how are they related?
A lumen is the basic unit of visible light emitted from a source, analogous to the power in watts
produced by a generator. A foot-candle is a measure of the illuminance, which is the amount of light falling on a surface. A foot-candle is the
illuminance on a one square foot surface on which 1 lumen is uniformly distributed.
2 LIGHTINGPage 33
What is Lighting Power Density (LPD)?
The lighting power density (LPD) is the maximum electrical power
allowed per square foot for lighting, and is specified by energy codes for
different types of spaces.
2 LIGHTINGPage 33
Lamps with a lower color temperature produce light of what
color?
Lamps with lower color temperatures, 2700K – 3500K,
produce yellower or visually "warmer" light and are typically
used in residential spaces.
2 LIGHTINGPage 33
How are magnetic ballasts different from electronic ballasts?
Magnetic ballasts may contain dangerous PCB's, are less efficient, and their lower
frequency causes them to flicker and hum. Electronic ballasts use transistorized circuitry,
create very high frequency AC which eliminates flicker, are smaller and lighter, and
allow a more precise control of operation cycle.
2 LIGHTINGPage 33
What type of lamps are discharge lamps and how do they work?
Metal halide lamps and sodium vapor lamps are discharge lamps.
High-intensity discharge is an electric charge in gas vapor that
produces light.
2 LIGHTINGPage 33
What are some installation tips for occupancy sensors?
Some installation tips for occupancy sensors are:1.Location is very important.2.Proper sensor placement will diminish chances of nuisance action.3.Locate PIR sensors at least 4 – 6 feet from HVAC diffusers and other heat sources.4.Do not mount sensors in locations blocked by door swings.5.Do not use with metal halide lamps.6.Range of ceiling mounted sensors can be diminished by partitions. 7.Sensor placement should be included in all drawings.8.Beware of in-rush with fluorescent lighting. 9.Be aware of minimum load requirements.
2 LIGHTINGPage 33
What are vacancy sensors and how do they compare to occupancy
sensors?
Vacancy sensors operate very much like occupancy sensors with the distinction that a person must
manually turn the lights on, but sensors will turn them off after a set
period of no detected motion.
2 LIGHTINGPage 33
How is using a VFD on a motor efficient? What is an important issue to keep in mind when wiring a VFD?
With a variable frequency drive (VFD) installed on a motor, the speed of the motor can be adjusted to match the load. This is much
better than throttling the output, which wastes a significant amount of power. There should
be no on/off switch external to a VFD combination because the controller may lose
its program if switched off.
3 HEATING AND COOLINGPage 50
What are the effects of using oversized pumps, motors, or control
valves?
Using oversized pumps, motors, or control valves leads to excessive
energy consumption.
3 HEATING AND COOLINGPage 50
How do heat pumps work?
A heat pump movies heat from one location (the source) at a lower temperature to another location called the heat sink at a higher temperature using mechanical work, generally supplied by an electric motor. The device operates by passing refrigerant through a heat exchanger called the evaporator, where the heat required to boil it into a vapor is taken from the fluid in which the evaporator is
immersed, either air or water. Cooled air or water is the result of this process.
3 HEATING AND COOLINGPage 50
What are some of the capabilities of building management and
information systems?Some capabilities of BMS systems are:
• Scheduling timely operation of equipment• Controlling temperature, pressure, and humidity • Controlling fans and pumps to regulate the flow of
air and water• Responding of equipment to fire alarm system
operations• Alarming and providing building operators with
notifications of predefined conditions
3 HEATING AND COOLINGPage 50
Give examples of central, distributed, renewable energy and nonrenewable energy generation.• Central generation: Large generation stations
powered by coal, natural gas, nuclear power, or hydropower
• Distributed generation: Rooftop photovoltaics, gas-fired cogeneration, and small local wind turbines
• Renewable energy generation: Solar energy, tidal power
• Nonrenewable energy generation: Fossil fuels
4 RENEWABLE AND DISTRIBUTED ENERGYPage 69
Why is a secure disconnect system needed for a distributed generator?
A secure disconnect system is needed for a distributed generator because it can be
dangerous if the grid has gone down and the distributed source continues to generate electricity, as the power could electrocute workers. A secure disconnect ensures that even if the building continues to generate power, none of it should feed back to the
affected grid.
4 RENEWABLE AND DISTRIBUTED ENERGYPage 69
What should you consider when determining the most cost-effective
size of a building's cogeneration system?
You should make sure the cogen system is always running at full capacity by measuring the minimum electric load of
the building. Then determine the building’s thermal load and compare it to the thermal output of the cogenerator, to not
waste thermal energy. The simplest approach is to specify a cogen unit with a thermal output about equal to the building’s thermal base load, but a larger cogen unit can be installed if
storage tanks for hot water are added.
4 RENEWABLE AND DISTRIBUTED ENERGYPage 69
What does a fuel cell produce?
A fuel cell produces electricity, heat, and water by an electrochemical
reaction.
4 RENEWABLE AND DISTRIBUTED ENERGYPage 69
What is the relationship between maximum voltage and maximum power in photovoltaic panels?
In photovoltaic panels, a connection in parallel means that the current will be high but the voltage will be low. Connection in series means that the current will be low
but the voltage will be high. A typical PV panel will generate the highest voltage when no current is being drawn; this is the open circuit voltage. The short circuit current is the largest current, produced when the output terminals are connected to each other through a zero-
resistance ammeter.
4 RENEWABLE AND DISTRIBUTED ENERGYPage 69
What type of power is generated in a PV cell and how is it used in a
building?
The power generated in a PV cell is DC, but the power used in most buildings is AC. This means that
the panels have to be connected to an inverter to convert the DC power
to AC power.
4 RENEWABLE AND DISTRIBUTED ENERGYPage 69
What are some factors to consider when determining the most effective
location of a wind turbine?Some factors to consider when
determining the most effective location of a wind turbine are wind speeds and
stresses on buildings. Turbines are placed where wind velocities are highest in order to maximize generated energy.
4 RENEWABLE AND DISTRIBUTED ENERGYPage 69
What are the responsibilities of the CxA?
The CxA is responsible for the entire commissioning process. The CxA prepares the Cx Plan, forms, tests, and reports, and is
responsible for training and turnover.
5 ASSURING BUILDING PERFORMANCEPage 81
Name 2 steps that should be taken prior to the start of field testing.
1. Providing and maintaining necessary documentation required for testing
2. Meeting with the CxA prior to testing to go over forms and what will happen on test day
5 ASSURING BUILDING PERFORMANCEPage 81
Why would a CxA plan for deferred testing?
Deferred testing is used when a building system cannot be tested
until the building is actually occupied and the system is
being utilized under design conditions.
5 ASSURING BUILDING PERFORMANCEPage 81
What is a proper comparison to estimate the energy and water consumption savings in a new
building?Designers construct a computer model of the building to determine what the energy
and water consumption would have been if the building had been constructed using standard techniques and compare that to the actual energy and water levels after
construction.
5 ASSURING BUILDING PERFORMANCEPage 81
Describe some scenarios where inter-trade coordination is critical for
building performance.
• Floor penetrations• Underfloor distribution of HVAC
and wiring• Building management systems • Low VOC materials
6 JOB MANAGEMENTPage 87
What should every worker on a green building job understand?
• Safety should never be compromised• This is a green and sustainable building project• Rating systems, such as LEED and ENERGY
STAR• Strategies for conserving resources such as
water, energy, and materials• The importance of good indoor air quality• What makes this project green
6 JOB MANAGEMENTPage 87