Architectural Engineering Major

Degree Type
Bachelor of Science

DIRECTOR: S. VAN DESSEL (CEAE)

ASSOCIATED FACULTY: L. D. Albano (CEAE), T. El-Korchi (CEAE), S. Farzin (CEAE), S. Liu (CEAE), N. Ma (CEAE), S. Van Dessel (CEAE) 

Mission Statement

Architectural Engineering is a discipline that focuses on the planning, design, construction and operation of buildings and, particularly, on their parts that support the functioning of the inner space and the undertaking of human activities, including environmental protection, comfort, well-being, sustainability and security. One of the major focuses of the architectural engineering program at WPI is the use of energy in buildings, and this is addressed through courses and projects that incorporate engineering science and design fundamentals that relate to those building parts, e.g., envelope, heating and air conditioning, and electrical systems, which impact the consumption of energy and natural resources. The program seeks to impart to students strong technical competence in fundamental engineering principles as they are applied to a sustainable built environment. The program, in addition, seeks to foster a student’s creative undertaking and his/her development of high standards of professionalism. The project approach at WPI offers students a unique opportunity to explore the humanistic, technological, societal, economic, legal, and environmental issues surrounding architectural design problems. The architectural engineering degree prepares students for careers in the private and public sectors, architectural and engineering consulting, real estate and construction firms, and advanced graduate studies.

Program Educational Outcomes

The objective of the undergraduate program in Architectural Engineering is to prepare graduates for successful careers in the Architectural Engineering profession. A few years after graduation WPI Architectural Engineering graduates are expected to have the ability to: 

  1. Attain registration as Professional Engineers,
  2. Earn a graduate degree in Architectural Engineering or a related discipline,
  3. Enhance their skills through continued education, 
  4. Serve their profession through engagement with professional societies, 
  5. Demonstrate commitment to sustainable design principles within their professional work

Student Outcomes

The Student Outcomes for the Bachelor degree in Architectural Engineering are that all graduates will attain:

  1. an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
  2. an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
  3. an ability to communicate effectively with a range of audiences
  4. an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
  5. an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
  6. an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
  7. an ability to acquire and apply new knowledge as needed, using appropriate learning strategies
  8. the design level in one of the four architectural engineering areas, the application level in a second area, and the comprehension level in the remaining two areas.

 

Program Distribution Requirements for the Architectural Engineering B.S.

The program is designed according to the ABET criteria for Architectural Engineering accreditation. The four basic architectural engineering curriculum areas are building structures, building mechanical systems, building electrical systems, and construction/construction management. The normal period of residency at WPI is 16 terms. In addition to WPI requirements applicable to all students, students wishing to receive a Bachelor degree in “Architectural Engineering” must satisfy the following distribution requirements: 

Mathematics, Basic Science, and Supplemental Science (Minimum 12/3 Units)

Must include a minimum of 10/3 units of a combination of Mathematics and Basic Science. Mathematics must include differential and integral calculus (4/3 units), differential equations (1/3 unit), statistics (1/3 unit), and matrices and linear algebra (1/3 unit). Science must include 2/3 unit in calculus-based physics (PH 1110 or PH 1111 and PH 1120 or PH 1121), and 1/3 unit in chemistry.

Must include 2/3 units of Supplemental Science, including 1/3 unit in thermodynamics (can be fulfilled by PH 2101 or other approved equivalent course such as ES 3001), and 1/3 unit in fluid mechanics (can be fulfilled by ES 3004).

Architectural Engineering Science and Design (Minimum 21/3 Units)

Must include 7 units of Architectural Engineering Science and Design in the different areas of architectural engineering, distributed as follows or with approved equivalents.

Must include the Capstone Design Activity (1 unit) through the MQP that achieves design proficiency in either the structural or mechanical area. 

2/3 units of architectural engineering complements, including introduction to architectural engineering (AREN 2023) and topics related to the history and theory of architecture (AR 2114).

2/3 units in construction/construction management including project evaluation (CE 3025) or Engineering Economics (OIE 2850), and either legal aspects of professional practive (CE 3022) or project management (CE 3020).

5/3 units in building structural systems including Analytical Mechanics I (CE 2000 or ES 2501), Analytical Mechanics II (CE 2001 or ES 2502), Introduction to Analysis and Design (CE 2002), and two design level structural engineering courses (such as CE 3006, CE 3008, CE 3010, CE 3044, or CE 4007).

2/3 units in general architectural design including Architectural Design I (AREN 2002), and Architecural Design III (AREN 3002).

Capstone Design (3/3 Units). 

Must include the Capstone Design activity through the MQP that achieves design proficiency in either the structural or mechanical area.

Must include 1/3 unit in Experimentation (fulfilled by AREN 3003, AREN 3020, ME 3901, CE 3026).

Great Problem Seminar (GPS) courses can only be used to fulfill the HUA, SSPS, or Free Elective requirements. 

For more information please consult the website for this major at https://www.wpi.edu/academics/departments/architectural-engineering.