Architecture Exam Revision

Questions and Answers

What is a zero-energy building?

• A building that produces as much energy as it consumes on an annual basis (correct)
• A building that uses no energy at all
• A building that consumes more energy than it produces
• A building that relies solely on non-renewable energy sources

How to reduce embodied energy in buildings?

• Opt for prefabrication and modular construction (correct)
• Minimize the use of locally sourced materials
• Increase the use of energy-intensive materials
• Ignore the transportation emissions associated with materials

What drives natural ventilation in buildings?

• Artificial cooling systems
• Pressure differences caused by wind and temperature gradients (correct)
• Lack of air circulation
• Excessive heat loss

What is the climatic response in environmentally responsive architecture?

Designing buildings that respond to local climate conditions (C)

What is a passive building?

A building designed to maximize the use of natural resources for heating, cooling, and lighting (A)

How do buildings use energy?

For heating, cooling, lighting, and operating equipment (D)

What are the factors influencing architectural designs from the physical context?

Climatic and general needs of building users (B)

What is the type of glass that reduces solar gain?

Low-E (low emissivity) glass (A)

What is the percentage of heat loss through poorly constructed walls?

45% (D)

What is the equation for thermal transmittance (U-value)?

$U = \frac{1}{(R_{si} + R_{so} + R_i + R_o)}$ (D)

What is single-sided ventilation?

Ventilation that occurs through openings on only one side of a room (D)

What is stack ventilation?

Ventilation method utilizing the natural buoyancy of warm air to draw out stale air (B)

Can moisture move and migrate through the building fabric by heat transfer, ventilation, and differences?

Yes (B)

What is thermal continuity?

Uninterrupted flow of heat through a material or assembly (A)

If the material is colder than the temperature of the surrounding air will condensation happen?

Yes (A)

What do windows and glazing screens provide?

Daylighting, views, and thermal control (A)

What are mullions and transoms?

Structural elements supporting window openings (B)

What is emissivity?

The ability of a surface to emit radiant energy compared to a blackbody (A)

What are the factors that influence architectural designs from the physical context?

Climatic and general needs of building users (C)

What is a type of glass that reduces solar gain?

Low-E glass (A)

What is the percentage of heat loss through poorly constructed roofs?

$35 ext{%}$ (C)

What is conduction?

Heat transfer through direct contact (C)

What is the 2nd law of thermodynamics?

$ ext{The total entropy of any isolated thermodynamic system tends to increase over time, approaching a maximum value}$ (A)

What does insulation prevent?

$ ext{Both heat gain and heat loss}$ (B)

What is thermal transmittance?

The rate of heat transfer through a structure (A)

True or false- the better a structure, the higher the u-value.

False (B)

Name 3 different insulations.

Mineral wool, spray foam, rigid foam (A)

Name all 5 foam plastics.

Polystyrene, polyethylene, polypropylene, PVC, polyurethane (C)

What is natural ventilation?

Passive cooling method using outdoor air movement (B)

What is the function of a load bearing layer in building construction?

To support the weight of the structure above it (B)

What is the primary source of heating in a building?

Natural gas (A)

What is the purpose of a closed cavity facade (CCF) in building design?

To reduce heat loss through poorly constructed walls (C)

What does single-sided ventilation refer to in building design?

Ventilation system operating on one side of the building only (D)

What is thermal continuity in building construction?

The uninterrupted flow of heat through a building element (B)

What are mullions and transoms in building construction?

Vertical and horizontal members dividing window openings (A)

What is the role of a thermal layer in building design?

To offer thermal insulation (C)

What gases do double or triple-glazing systems commonly have?

Nitrogen and argon (B)

What is positive pressure in a system compared to its surroundings?

It is higher than the environment's pressure (C)

What is cross ventilation in building design?

Ventilation provided by windows on opposite sides of a space (C)

What does ethylene propylene diene terpolymer (EPDM) relate to in construction?

Waterproofing material (C)

What is a zero-energy building?

A building that offsets its energy use with the same amount of energy generated on site or nearby (C)

What is thermal mass?

The ability of a material to absorb and store heat energy (C)

What drives natural ventilation in buildings?

Temperature difference and wind pressure (A)

What is a passive building?

A building that uses minimal energy for heating, cooling, and lighting (B)

What makes high thermal mass in buildings?

Heavyweight materials with high density (B)

What is environmentally responsive architecture?

A building that adapts to environmental conditions to maximize natural resources and energy efficiency (D)

What is the function of a load bearing layer in building construction?

Provides structural support to the building (A)

What is a closed cavity facade (CCF) in building design?

A façade system with an outer and inner skin separated by a cavity (C)

What is stack ventilation in building design?

A type of natural ventilation system (B)

What does single-sided ventilation refer to in building design?

Ventilation system with air intake from one side only (A)

What are mullions and transoms in building construction?

Structural elements dividing window openings (A)

What is thermal continuity in building construction?

A process for reducing thermal transmittance (B)

What does thermal transmittance measure?

The rate of heat transfer through a structure (B)

What is the equation for thermal transmittance (U-value)?

U = 1/R (D)

What is the percentage of heat loss through poorly constructed walls?

25% (B)

What is the 2nd law of thermodynamics?

The entropy of any isolated system not in equilibrium will tend to increase over time (C)

What is external insulation?

Insulation material applied to the exterior surface of external walls (B)

What does insulation prevent?

Both heat gain and heat loss (D)

True or false: The better a structure, the higher the U-value.

False (B)

What is conduction?

Heat transfer through direct contact between materials (D)

What is convection?

Heat transfer through fluid circulation (C)

What is radiation?

Heat transfer through electromagnetic waves (D)

What is the function of a load bearing layer in building construction?

To support floor slabs (D)

What is the primary source of heating in a building?

Fossil fuels (A)

What are mullions and transoms in building construction?

Window elements providing thermal insulation (C)

What is a closed cavity façade (CCF) in building design?

An innovative façade system with sealed cavities (C)

What is thermal continuity in building construction?

The uninterrupted flow of heat through materials and components (C)

What does ethylene propylene diene terpolymer (EPDM) relate to in construction?

An insulating material used in roofing (A)

What gases do double or triple-glazing systems commonly have?

Argon and krypton (D)

What does glass have a high or low emissity?

Low emissivity (D)

What are the primary sources of heating a building?

Renewable and fossil fuels combined (B)

What are the advantages and/ or disadvantages of a cold roof?

Reduced risk of condensation, but higher heat loss (D)

What are the advantages and/ or disadvantages of a warm roof?

Higher cost, but better thermal performance (C)

What is the equation for thermal transmittance (U-value)?

$U = \frac{1}{R}$ (B)

What is the percentage of heat loss through poorly constructed roofs?

35% (B)

What is the 2nd law of thermodynamics?

The entropy of any isolated system always increases (D)

What does insulation prevent?

Heat loss (B)

What is the purpose of a closed cavity facade (CCF) in building design?

To reduce heat loss through convection (D)

What is the equation of thermal transmittance?

$U = \frac{1}{R}$ (A)

True or false: The better a structure, the higher the U-value.

False (B)

What is convection?

Heat transfer through fluid circulation (B)

What is radiation?

Heat transfer through electromagnetic waves (B)

What are the factors that influence architectural designs from the physical context?

Climatic, general user needs, and physical context (B)

What are mullions and transoms in building construction?

Window framing components (A)

---

Parameters as a means of testing and evaluating your design thinking- Name them

---

Advantages or disadvantages of external insulation

What is a type of glass that reduces solar gain

Low-E (low emissivity) glass

What is the equation of thermal transmittance

U = rac{1}{R}

What is convection

The transfer of heat by the movement of fluids (liquids or gases) when the warmer, less dense fluid rises and the cooler, denser fluid sinks

What is the 2nd law of thermodynamics

The total entropy of an isolated system can never decrease over time

What is thermal transmittance

The rate of transfer of heat through a structure (U-value)

What is a parameter

A factor that can be considered, adjusted, or measured to evaluate a design

What is quantitive

Relating to or measured by quantity (numerical data)

What is the percentage of heat loss through poorly constructed roofs

25%

What are the factors that we would take into account. - External and interior

Solar orientation, shading, building materials, and thermal mass

Mechanical ventilation provides

controlled air movement and exchange within a building

Mechanical ventilation is

a system that uses mechanical devices, such as fans, to circulate and replace air within a building

Ventilation is measured by

air changes per hour (ACH) or cubic feet per minute (CFM)

How does mechanical ventilation work. Positive pressure is pressure within a system that is greater than the environment that surrounds that system. True or false. Heat transfer is the air that goes from areas with low/ negative pressures into areas with higher pressure. True or false Natural ventilation- environmental or design factors will affect it. What is single-sided ventilation. Room area ____ x ____. What is cross ventilation. Maximum room depth = ____ x ____. What is stack ventilation. Air intake must be a maximum of _________ below the outlets. The top of a chimney-style stack should be above or below 2-3 m at the highest roof point. Multi-story stack outlets/ inlets should be: 5-6%, 8-10% or 3-4% of the floor area. Can moisture move and migrate through the building fabric by heat transfer, ventilation and differences. Yes or No. Why might heat transfer through convection or conduction affect the movement of moisture within the building. How can you stop water from entering the external envelope. What to do when moisture manages to enter the external wall to be able to disappear. What is the function of load bearing layer. What is the function of a thermal layer. Are junctions points where different components meet. Yes or No. What is thermal continuity. If the material is colder than the temperature of the surrounding air will condensation happen. Yes or No What is a cavity separation and what does it do. Window elements- Sash-> glazing What do windows and glazing screens provide. What are the primary sources of heating a building. What is emissaty. Does glass have a high or low emissity. What gases do double, or triple-glazing systems have. True or False. A thick low-e coating (of metal-oxide) between laminates of glass, enables to reflect the heat into the room. What are mullions and transoms. Are they hung and fixed in the primary structure. Do they support floor slabs. Advantages and/ or disadvantages of a cold roof. Advantages and/ or disadvantages of a warm roof. What is a closed cavity façade (CCF). What is ethylene propylene. diene terpolymer (DPDM).

Flashcards

Zero-Energy Building

A building producing as much energy as it consumes annually.

Reducing Embodied Energy

Minimizing environmental impact by using lower-impact and recycled materials.

Natural Ventilation

Air flow driven by temperature differences and wind, enhancing comfort.

Climatic Response in Architecture

Designing buildings to fit local climate conditions for efficiency.

Passive Building

A strategy focusing on energy efficiency through design without active systems.

Energy Use in Buildings

Energy consumption mainly from heating, cooling, lighting, and appliances.

Physical Context Influence

How geographic and climatic factors affect architectural design.

Glass Types

Various glass options like low-e glass optimize energy efficiency and daylight.

Heat Loss through Walls

25-30% of heat loss occurs through poorly constructed walls.

Thermal Transmittance (U-Value)

A measure of heat transfer rate through building elements.

Ventilation Types

Different methods, like single-sided and stack ventilation, to improve airflow.

Moisture Migration

Movement of moisture through building materials due to temperature differences.

Thermal Continuity

A consistent insulation barrier reduces heat loss and condensation risks.

Condensation Risk

Happens when materials are colder than the air’s dew point temperature.

Windows and Glazing Screens

They impact energy performance while allowing light and views.

Mullions and Transoms

Vertical (mullions) and horizontal (transoms) components in window frames.

Emissivity

Measures a material's ability to emit energy, influencing heating loads.

Construction and Insulation Types

Different insulation types impact energy efficiency in buildings.

Overview of Thermal Dynamics

Includes conduction, convection, and radiation as heat transfer methods.

Mechanical Ventilation

Controlled air exchange improving indoor air quality, measured in air changes per hour.

Closed Cavity Facade (CCF)

Enhances insulation while allowing for airflow management.

Ethylene Propylene Diene Terpolymer (EPDM)

A durable synthetic rubber used for roofing and waterproofing.

Cold Roofs

Designed to reflect sunlight, lowering cooling loads in warm climates.

Warm Roofs

Retain heat to mitigate heating demands, beneficial in cold climates.

Study Notes

Zero-Energy Building

• A building that produces as much energy as it consumes over the course of a year.
• Achieved through energy-efficient design, renewable energy sources, and smart technologies.

Reducing Embodied Energy

• Select materials with lower environmental impact.
• Use recycled materials to minimize new resource extraction.
• Design for durability and lifespan extension to reduce future energy requirements.

Natural Ventilation

• Driven by temperature differences, wind pressures, and buoyancy effects.
• Can enhance indoor air quality and comfort while reducing mechanical cooling needs.

Climatic Response in Architecture

• Involves adapting designs to local climates to optimize energy efficiency and occupant comfort.
• Focuses on passive strategies such as orientation, shading, and thermal mass.

Passive Building

• A design strategy emphasizing energy efficiency through insulation, air-tightness, and ventilation without active heating or cooling.
• Optimizes building envelope performance to maintain comfortable indoor temperatures.

Energy Use in Buildings

• Consumed primarily through heating, cooling, lighting, and appliances.
• Energy management strategies aim to reduce peak consumption and overall energy use.

Physical Context Influence on Design

• Geographic location, climate, topography, and local materials significantly affect architectural decisions.
• Buildings are designed to respond to their specific context for enhanced functionality and sustainability.

Glass Types

• Low-emissivity (low-e) glass reduces solar gain while maximizing daylighting.
• Triple glazing enhances insulation and minimizes energy loss.

Heat Loss through Poorly Constructed Walls

• Approximately 25-30% of heat loss occurs through poorly constructed walls.
• Quality construction practices can significantly reduce this percentage.

Thermal Transmittance (U-Value)

• The equation for U-value is U = Q / (A * ΔT), where Q is heat transfer rate, A is area, and ΔT is temperature difference.
• A higher U-value indicates more heat loss through building elements.

Ventilation Types

• Single-sided ventilation involves airflow through one façade, promoting cross ventilation.
• Stack ventilation utilizes buoyancy to draw air through a space, creating effective cooling.

Moisture Migration

• Moisture can move through building fabric due to heat transfer, ventilation, and vapor pressure differences.
• Management strategies are essential to prevent moisture issues.

Thermal Continuity

• Refers to the consistent insulation barrier that reduces heat loss and condensation risks.
• Essential for maintaining comfort and efficiency in buildings.

Condensation Risk

• Condensation occurs if building materials are colder than the surrounding air’s dew point temperature.
• Proper thermal management and insulation prevent this issue.

Windows and Glazing Screens

• Provide daylighting, ventilation, and views while impacting energy performance.
• Effective glazing systems enhance thermal insulation properties.

Mullions and Transoms

• Vertical (mullions) and horizontal (transoms) structural components support window frames and divisions.
• Integral to aesthetic design and structural integrity of facades.

Emissivity

• Measures a material's ability to emit absorbed energy, influencing heating and cooling loads.
• Low-emissivity coatings on glass improve energy efficiency by reflecting heat.

Construction and Insulation Types

• Different insulations (e.g., fiberglass, foam board, cellulose) are crucial for energy efficiency.
• Foam plastics, such as EPS, XPS, and polyisocyanurate, are common insulation materials.

Overview of Thermal Dynamics

• Conduction, convection, and radiation are the three primary forms of heat transfer in buildings.
• Second law of thermodynamics indicates that energy flows from high to low temperatures, guiding thermal design strategies.

Mechanical Ventilation

• Provides controlled air exchange, improving indoor air quality and comfort.
• Often measured in air changes per hour, indicating the volume of air replaced within a space.

Closed Cavity Facade (CCF)

• Enhances insulation while allowing for effective airflow management.
• Minimizes heat transfer while permitting natural ventilation.

Ethylene Propylene Diene Terpolymer (EPDM)

• A synthetic rubber commonly used in roofing and waterproofing membranes.
• Provides durability and weather resistance in building applications.

Roof Types

• Cold roofs are designed to reflect sunlight and lower cooling loads, beneficial in warm climates.
• Warm roofs retain heat and can mitigate heating demands, especially in colder climates.

Description

Test your knowledge of sustainable architecture concepts, including factors of sustainable building, climatic and environmentally responsive architecture, passive buildings, and zero-energy buildings.