Graphic Design

Whole Building Design Guide10 min read

Oct 25, 2022 7 min
Whole Building Design Guide

Whole Building Design Guide10 min read

Reading Time: 7 minutes

The Whole Building Design Guide (WBDG) is a comprehensive resource for design and construction professionals, providing information on integrated design and construction practices. The WBDG is maintained by the National Institute of Building Sciences (NIBS), a nonprofit organization that works to improve the quality and efficiency of the built environment.

The WBDG provides information on a wide range of topics, including:

– Building design

– Building materials

– Building systems

– Construction methods

– Building commissioning

The WBDG is divided into five main sections:

– The Resource Library provides resources on integrated design and construction, including case studies, articles, and toolkits.

– The Planning & Design section provides information on designing high-performance buildings, including case studies, best practices, and design tools.

– The Construction & Operations section provides information on constructing and operating high-performance buildings, including case studies, best practices, and construction tools.

– The Commissioning & Verification section provides information on commissioning and verifying high-performance buildings, including case studies, best practices, and commissioning tools.

– The News & Events section provides news and events relating to integrated design and construction.

The WBDG is an invaluable resource for design and construction professionals looking to create high-performance buildings.

What are the elements of whole building design?

When you’re designing a new building, it’s important to consider all of the elements that will go into it. Whole building design considers all of the factors that will go into the finished product, from the layout and structure to the heating, cooling, and lighting systems.

One of the most important aspects of whole building design is understanding how the different elements of the building will work together. The design must take into account the way people will use the building, the climate conditions where it will be located, and the available resources.

The layout of the building is a key factor in whole building design. The architect must create a layout that is both functional and attractive, and that takes into account the needs of the people who will be using the building. The design must also be adaptable to changes in use or function over time.

The structure of the building is also important. The architect must choose a design that is both sturdy and efficient, and that takes into account the climate conditions where the building will be located.

The heating, cooling, and lighting systems are another important part of whole building design. The architect must choose systems that are efficient and that will meet the needs of the people who will be using the building.

When designing a new building, it’s important to consider all of the elements that will go into it. Whole building design considers all of the factors that will go into the finished product, from the layout and structure to the heating, cooling, and lighting systems. By considering all of the elements together, the architect can create a building that is both functional and attractive, and that meets the needs of the people who will be using it.

See also:  How To Design Board Games

What is the whole building approach?

The whole building approach is a design philosophy that takes into account the interactions between all the different parts of a building and its environment. It considers the building as a whole, rather than just individual elements, in order to create a more harmonious and efficient design.

The whole building approach is particularly useful for large, complex projects, where it can be difficult to account for all the different factors that need to be considered. By taking a holistic view of the project, the whole building approach can help to ensure that all the different elements work together harmoniously, and that the overall design is efficient and effective.

One of the key benefits of the whole building approach is that it can help to reduce energy consumption. By considering the interactions between the building and its environment, it is possible to create a design that is more energy-efficient and that makes use of natural resources, such as sunlight and wind, to reduce the need for artificial lighting and heating.

The whole building approach is also beneficial from a sustainability standpoint. By integrating sustainable design principles into the overall design, it is possible to create a building that is more environmentally-friendly and that uses less energy and resources. This can help to reduce the environmental impact of the building, and can also save money in the long term through reduced energy costs.

The whole building approach is becoming an increasingly important part of the design process, and more and more architects and designers are beginning to adopt this approach in order to create more efficient and sustainable buildings.

What are the steps to design a building?

There is a lot that goes into designing a building. It’s not as simple as just putting a few ideas down on paper. There are a lot of factors that need to be considered, from the climate to the way the building will be used. Here are the steps that are typically taken in the design of a building:

1. Establish the building’s purpose

Before anything else can be done, the purpose of the building needs to be established. What is it going to be used for? Who will be using it? These are important questions that need to be answered before designing the building.

2. Consider the climate

The climate is another important factor to consider when designing a building. The building’s location and the climate there will both have an impact on the design. For example, a building in a hot climate will need to be designed with air conditioning in mind, while a building in a cold climate will need to be designed with insulation in mind.

3. Plan the layout

The layout of the building is another important factor to consider. The layout will determine how the building is used and how it looks. It’s important to plan the layout carefully to make sure it meets the needs of the users and looks good too.

See also:  Creative Ring Light Photography

4. Design the exterior

Once the layout of the building has been planned, the exterior can be designed. The exterior of the building will be seen by everyone, so it’s important to make sure it looks good.

5. Design the interior

Once the exterior of the building is designed, the interior can be designed. The interior will be seen by the people who use the building, so it’s important to make sure it’s designed to meet their needs.

6. Finalize the design

Once the exterior and interior of the building have been designed, the final design should be finalized. This will ensure that the building is ready to be built.

What is a DoD UFC?

The Department of Defense (DoD) Unified Facilities Criteria (UFC) are planning, design, and construction standards and guidelines used by the Department of Defense and its component organizations. The UFC are developed, maintained, and published by the DoD’s Directorate for Facilities and Environment (DFE). The UFC program is administered by the DFE’s Office of the Deputy Under Secretary of Defense for Installations and Environment.

The UFC are “unified” in the sense that they are developed and maintained by a single organization, and they are “facilities” criteria in that they address the needs of physical infrastructure. The UFC are not design standards or guidelines per se, but rather a comprehensive set of planning, design, and construction criteria that can be used as the basis for the development of design standards and guidelines.

The UFC are also “unified” in that they apply to all DoD components, including the military services, defense agencies, and field activities. The UFC are also “facilities” criteria in that they address the needs of physical infrastructure. The UFC are not design standards or guidelines per se, but rather a comprehensive set of planning, design, and construction criteria that can be used as the basis for the development of design standards and guidelines.

The UFC are also “unified” in that they apply to all DoD components, including the military services, defense agencies, and field activities. UFC are also “facilities” criteria in that they address the needs of physical infrastructure. The UFC are not design standards or guidelines per se, but rather a comprehensive set of planning, design, and construction criteria that can be used as the basis for the development of design standards and guidelines.

Who designs building?

Who designs building? This is a question that many people may ask, and the answer is not always clear. There are a few different people who could be responsible for designing a building, and it depends on the project.

The person who designs a building may be the architect, the engineer, or the contractor. The architect is responsible for the overall design of the building, including the layout, the appearance, and the functionality. The engineer is responsible for the structural design of the building, ensuring that it is safe and can support the weight of the building and the people inside it. The contractor is responsible for the construction of the building, making sure that it is built according to the plans and specifications provided by the architect and engineer.

See also:  Learn About 3d Printing

It is important to know who is responsible for the design of a building, because each of these professionals has a different set of skills and knowledge. The architect is responsible for the overall look and feel of the building, while the engineer is responsible for the safety and stability of the structure. The contractor is responsible for making sure that the building is actually built according to the plans, and they may need to make some adjustments to make sure that it is structurally sound.

What is high performance building design?

What is high performance building design?

High performance building design is a term used to describe the design of buildings that meet or exceed the expectations of the people who use them. The goal of high performance design is to create buildings that are comfortable, healthy, and efficient.

There are many factors that go into high performance building design. Some of the most important factors include:

1. Natural lighting and ventilation

2. Thermal comfort

3. Efficient use of energy

4. Water conservation

5. Appropriate use of materials

Natural Lighting and Ventilation

One of the most important aspects of high performance building design is the use of natural light and ventilation. Windows and skylights allow natural light to enter the building, while operable windows and vents allow fresh air to circulate. This helps to reduce the need for artificial light and air conditioning, which in turn reduces energy consumption.

Thermal Comfort

In order to be comfortable, a building must be able to maintain a comfortable temperature and humidity level. Thermal comfort is determined by the air temperature, humidity, air movement, and the clothing of the occupants. High performance building design takes into account the needs of the occupants, and strives to create a comfortable environment for them.

Efficient Use of Energy

High performance buildings use energy more efficiently than traditional buildings. This is done by incorporating features like energy-efficient lighting, heating, and cooling systems, and by using materials that reflect or absorb sunlight. In addition, building occupants can play a role in conserving energy by using the building’s systems appropriately.

Water Conservation

Water is a valuable resource, and it is important to conserve it whenever possible. High performance buildings use less water than traditional buildings by incorporating features like low-flow plumbing fixtures and drought-tolerant landscaping.

Appropriate Use of Materials

High performance building design also involves the use of appropriate materials. Materials that are durable and low-maintenance are ideal, as is material that can be recycled or reused. In addition, it is important to choose materials that are environmentally friendly and that do not release harmful toxins into the air.

What are the 7 steps in design process?

The design process is a series of steps that designers use to create a product or solution. The steps can vary depending on the project, but typically there are seven steps in the process:

1. Understand the problem

2. Research the problem

3. Ideate solutions

4. Select the best solution

5. Create a prototype

6. Test the prototype

7. Refine the solution

Jim Miller is an experienced graphic designer and writer who has been designing professionally since 2000. He has been writing for us since its inception in 2017, and his work has helped us become one of the most popular design resources on the web. When he's not working on new design projects, Jim enjoys spending time with his wife and kids.