College Catalog Fall 2016 - Spring 2017

Architectural Design and Building - BT

The Instructional Program

SUNY Delhi provides preparation for meaningful participation in Architecture through two pre-professional degree programs: a two-year Associate in Applied Science (AAS) in Architectural Technology and a four-year Bachelor of Technology (BT) in Architectural Design and Building.

Both programs build on a solid foundation of liberal arts and sciences, overlaid with building systems technology, structural engineering, architectural history and theory and, most critically, the solution of primarily practical architectural design problems with intensive, multi-semester studio sequences.

Students can apply to the AAS in Architectural Technology, or directly to the BT in Architectural Design and Building.

Minimum Requirements to be Considered for Admission


  • high school graduate with a 80 high school GPA or 2500 GED test score
  • Algebra Regents: 75
  • Geometry Regents: 75

Trigonometry, physics, and studio art are recommended

External Transfer Student:

Transfer applications to the BT in Architectural Design and Building will be accepted from students in architectural and non-architectural programs.  BT year placement and curriculum requirements will be determined from courses completed and transferred to SUNY Delhi. Minimum requirements:

Internal Transfer Student:

Applications to the junior year only of the BT in Architectural Design and Building will be accepted from SUNY Delhi AAS in Architectural Technology students. Minimum requirements:

  • SUNY Delhi GPA: 2.5 at the end of the AAS third semester
  • 3.0 GPA in ARCH 125, ARCH 135, and ARCH 140
  • successfully completed 40 credits in the AAS Architectural Technology curriculum
  • submit a Portfolio


By the end of the fourth semester all students must have:

  • a cumulative GPA of 2.5 or higher in all SUNY Delhi courses
  • a 3.0 or higher GPA in ARCH 125, 14CH 135, ARCH 140, ARCH 240, or equivalent courses
  • successfully earned 60 credits of the SUNY Delhi AAS Architectural Technology curriculum or have equivalent preparation

ANY student who fails to meet BT Junior Status requirements must petition the architecture faculty for continuation, and may be required to submit a Portfolio, and/or retake core courses on which they performed poorly. Students who are not granted continuation in the BT in Architectural Design and Building remain eligible for the AAS in Architectural Technology.


Portfolio Requirements

A portfolio of creative design work is critical part of your admission evaluation. Creative work such as architectural design, rendering, and modeling, photography, graphic design, sketching, painting, and sculpture, etc., may be included. Construction drawings are not encouraged for inclusion. Work done for an employer may be used if the work is the applicant's original design and is at the schematic level, i.e. study models, sketches, renderings. Applicants must detail their personal involvement in any group work included in the portfolio. Portfolios will be evaluated on the basis of graphic and design ability, and craftsmanship. From 10 to 12 samples of work should be included.

Reviewers will look both at the content of the portfolio and at the way the portfolio itself is put together. Applicants should be conscious of the layout, text formatting, cover art, and method of binding as these are the primary components used in framing and presenting one's work.

The portfolio should be in 8½" x 11" format, and must contain printed material only (no slides or CDs, or originals). All inclusions be should be labeled with titles, dates, and relevant information such as course and project objective. A brief statement of intent should also be included.

Portfolio submissions should be sent, along with an application, to:

Bush Hall
SUNY Delhi
454 Delhi Drive
Delhi, NY 13753


SUNY Curriculum Code: 1852

SUNY General Education Requirements: Students who intend to receive AA, AS, or baccalaureate degrees must satisfy SUNY and campus General Education (GE) requirements to graduate. Students should be aware that GE requirements may vary by academic program. Consult with your academic advisor. For general information, see the "General Education" section of this catalog.

AAS and AOS degree students may not be required to fulfill General Education (GE) requirements; however, any student who may wish to transfer should complete as many GE courses as possible. Consult with your academic advisor.

Technical Standards: In addition to academic requirements below, all applicants must also be able to meet the minimum Technical Standards for the program, with or without reasonable accommodation.

Academic Requirements:

Minimum Total Credit Hours = 123

Major Courses Required - 86 credit hours

Course No. Course Cr. Hrs.
AECT 100 Orientation to Architecture and Construction Technology 1
AECT 110 Construction Materials 3
AECT 150 Statics and Strengths of Materials 3
AECT 280 Mechanical, Electrical and Plumbing
AECT 350 Environmental Systems II  
  OR 3
AECT 415 Sustainable Building Practices  
AECT 360 Structural Theory and Application 4
AECT 370 Site Engineering and Design 3
AECT 410 Building Codes and Zoning 3
AECT 450 Building Science 3
AECT 460 Structural Steel Design 3
AECT 480 Reinforced Concrete Design 3
ARCH 110 Computer-Aided Residential Drawings 3
ARCH 125 Architectural Design Graphics 3
ARCH 135 Architectural Design Fundamentals 3
ARCH 140 Architectural Design I 4
ARCH 220 Commercial Detailing 3
ARCH 240 Architectural Design II 4
ARCH 300 Architectural Digital Design 3
ARCH 330 Architectural Design III 6
ARCH 370 Architectural Design IV 6
ARCH 401 Portfolio Preparation 1
ARCH 430 Architectural Design V 6
ARCH 470 Architectural Design VI 6
CNST 110 Residential Building Systems I 3
CNST 210 Commercial Construction 3

General Education/Liberal Arts Courses Required - 25 credit hours

Course No. Course Cr. Hrs.
COMM 100 Public Speaking 3
ENGL ___ Freshman Composition or Advanced Composition1 3
HUMN 241 History of World and Western Arch. I 3
HUMN 242 History of World and Western Arch. II 3
MATH ___ Mathematics2 3
PHYS 150 General Physics I 4
  Liberal Arts and Science Elective Courses with LASC attribute 6

Unrestricted Electives - 12 credit hours


1 English is by placement according to competency.

2Mathematics is by placement according to competency. MATH 150 Precalculus is the minimum exit level for this program.

Student Learning Outcomes (SLOs)

The National Architectural Accrediting Board (NAAB), which is the governing body for accreditation of all architectural programs in the nation, has set student learning outcomes (SLO) criteria to which all schools must adhere. NAAB refers to these as Student Performance Criteria in their online document at

The criteria encompass two levels of accomplishment:

  • Understanding - The capacity to classify, compare, summarize, explain, and/or interpret information.
  • Ability - Proficiency in using specific information to accomplish a task, correctly selecting the appropriate information, and accurately applying it to the solution of a specific problem, while also distinguishing the effects of its implementation.

SLOs are organized into realms to more easily understand the relationships between individual criteria.

Realm A: Critical Thinking and Representation

Architects must have the ability to build abstract relationships and understand the impact of ideas based on research and analysis of multiple theoretical, social, political, economic, cultural and environmental contexts. This ability includes facility with the wider range of media used to think about architecture including writing, investigative skills, speaking, drawing and model making. Students' learning aspirations include:

  • Being broadly educated.
  • Valuing lifelong inquisitiveness.
  • Communicating graphically in a range of media.
  • Recognizing the assessment of evidence.
  • Comprehending people, place, and context.
  • Recognizing the disparate needs of client, community, and society.

A.1. Communication Skills: Ability to read, write, speak and listen effectively.

A. 2. Design Thinking Skills: Ability to raise clear and precise questions, use abstract ideas to interpret information, consider diverse points of view, reach well-reasoned conclusions, and test alternative outcomes against relevant criteria and standards.

A. 3. Visual Communication Skills: Ability to use appropriate representational media, such as traditional graphic and digital technology skills, to convey essential formal elements at each stage of the programming and design process.

A.4. Technical Documentation: Ability to make technically clear drawings, write outline specifications, and prepare models illustrating and identifying the assembly of materials, systems, and components appropriate for a building design.

A.5. Investigative Skills: Ability to gather, assess, record, apply, and comparatively evaluate relevant information within architectural coursework and design processes.

A. 6. Fundamental Design Skills: Ability to effectively use basic architectural and environmental principles in design.

A. 7. Use of Precedents: Ability to examine and comprehend the fundamental principles present in relevant precedents, and to make choices regarding the incorporation of such principles into architecture and urban design projects.

A. 8. Ordering Systems Skills: Understanding of the fundamentals of both natural and formal ordering systems, and the capacity of each to inform two- and three-dimensional design.

A. 9. Historical Traditions and Global Culture: Understanding of parallel and divergent canons and traditions of architecture, landscape, and urban design, including: examples of indigenous, vernacular, local, regional, and national settings from the Eastern, Western, Northern, and Southern hemispheres in terms of their climatic, ecological, technological, socioeconomic, public health, and cultural factors.

A. 10. Cultural Diversity: Understanding of the diverse needs, values, behavioral norms, physical abilities, and social and spatial patterns that characterize different cultures and individuals, and the implication of this diversity on the societal roles and responsibilities of architects.

A.11. Applied Research: Understanding the role of applied research in determining function, form, and systems, and their impact on human conditions and behavior.

Realm B: Integrated Building Practices, Technical Skills and Knowledge:

Architects are called upon to comprehend the technical aspects of design, systems, and materials, and be able to apply that comprehension to their services. Additionally, they must appreciate their role in the implementation of design decisions, and the impact of such decisions on the environment. Students learning aspirations include:

  • Creating building designs with well-integrated systems.
  • Comprehending constructability.
  • Incorporating life safety systems.
  • Integrating accessibility.
  • Applying principles of sustainable design.

B. 1. Pre-Design: Ability to prepare a comprehensive program for an architectural project, such as preparing an assessment of client and user needs, an inventory of space and equipment requirements, an analysis of site conditions (including existing buildings), a review of the relevant laws and standards and assessment of their implications for the project, and a definition of site selection and design assessment criteria.

B. 2. Accessibility: Ability to design sites, facilities, and systems to provide independent and integrated use by individuals with physical (including mobility), sensory, and cognitive disabilities.

B. 3. Sustainability: Ability to design projects that optimize, conserve, or reuse natural and built resources, provide healthful environments for occupants/users, and reduce the environmental impacts of building construction and operations on future generations through means such as carbon-neutral design, bioclimatic design, and energy efficiency.

B. 4. Site Design: Ability to respond to site characteristics such as soil, topography, vegetation, and watershed in the development of a project design.

B. 5. Life Safety: Ability to apply the basic principles of life-safety systems with an emphasis on egress.

B. 6. Comprehensive Design: Ability to produce a comprehensive architectural project that demonstrates each student's capacity to make design decisions across scales while integrating the following SPC/SLO:

A.2. Design Thinking Skills B.2. Accessibility
A.4. Technical Documentation B.3. Sustainability
A.5. Investigative Skills B.4. Site Design
A.8. Ordering Systems B.5. Life Safety
A.9. Historical Traditions & Global Culture B.8. Environmental Systems
  B.9. Structural Systems

B. 7 Financial Considerations: Understanding of the fundamentals of building costs, such as acquisition costs, project financing and funding, financial feasibility, operational costs, and construction estimating with an emphasis on life-cycle cost accounting.

B. 8 Environmental Systems: Understanding the principles of environmental systems' design such as embodied energy, active and passive heating and cooling, indoor air quality, solar orientation, day lighting and artificial illumination, and acoustics; including the use of appropriate performance assessment tools.

B. 9. Structural Systems: Understanding of the basic principles of structural behavior in withstanding gravity and lateral forces and the evolution, range, and appropriate application of contemporary structural systems.

B. 10. Building Envelope Systems: Understanding of the basic principles involved in the appropriate application of building envelope systems and associated assemblies relative to fundamental performance, aesthetics, moisture transfer, durability, and energy and material resources.

B. 11. Building Service Systems: Understanding of the basic principles and appropriate application and performance of building service systems such as plumbing, electrical, vertical transportation, security, and fire protection systems.

B. 12. Building Materials and Assemblies: Understanding of the basic principles utilized in the appropriate selection of construction materials, products, components, and assemblies, based on their inherent characteristics and performance, including their environmental impact and reuse

Note: Realm C below represents SLOs that are not part of Delhi's current Architectural Program, which is a Bachelor of technology degree; instead, they represent SLOs that are applicable to a professional Bachelor of Architecture curriculum.

Realm C: Leadership and Practice: Architects need to manage, advocate, and act legally, ethically and critically for the good of the client, society and the public. This includes collaboration, business, and leadership skills. Student learning aspirations include:

  • Knowing societal and professional responsibilities.
  • Comprehending the business of building.
  • Collaborating and negotiating with clients and consultants in the design process.
  • Discerning the diverse roles of architects and those in related disciplines.
  • Integrating community service into the practice of architecture.

C. 1. Collaboration: Ability to work in collaboration with others and in multidisciplinary teams to successfully complete design projects.

C. 2. Human Behavior: Understanding of the relationship between human behavior, the natural environment and the design of the built environment.

C. 3 Client Role in Architecture: Understanding of the responsibility of the architect to elicit, understand, and reconcile the needs of the client, owner, user groups, and the public and community domains.

C. 4. Project Management: Understanding of the methods for competing for commissions, selecting consultants and assembling teams, and recommending project delivery methods.

C. 5. Practice Management: Understanding of the basic principles of architectural practice management such as financial management and business planning, time management, risk management, mediation and arbitration, and recognizing trends that affect practice.

C. 6. Leadership: Understanding of the techniques and skills architects use to work collaboratively in the building design and construction process and on environmental, social, and aesthetic issues in their communities.

C. 7. Legal Responsibilities: Understanding of the architect's responsibility to the public and the client as determined by registration law, building codes and regulations, professional service contracts, zoning and subdivision ordinances, environmental regulation, and historic preservation and accessibility laws.

C. 8. Ethics and Professional Judgment: Understanding of the ethical issues involved in the formation of professional judgment regarding social, political and cultural issues in architectural design and practice.

C.9. Community and Social Responsibility: Understanding of the architect's responsibility to work in the public interest, to respect historic resources, and to improve the quality of life for local and global neighbors.