91ÖÆƬ³§

Sustainable Building Technology Diploma

Be an agent of change as the built environment shifts to a net-zero energy, water and carbon future. Understand building science, technology, systems thinking and project management to deliver healthy, high-performance buildings.

Learn more about the Department of Sustainable Building Technology and meet program professors and graduates

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Campus

  • Penticton
View schedule and campus details
Legend:
  • Full program offered
  • Partial program offered

Credential

Diploma

Delivery options

Full-Time

  • International students eligible

Tuition and fees

2024-25: $15,299.32 (Total for the program)

Program details

The Sustainable Building Technology offers an accelerated two year or three year curriculum that provides students with the foundation needed to prepare, inspire, and mobilize the next generation of building technologists. This program covers the principles, concepts, and practices of project design to completion through whole systems thinking and multidisciplinary approaches which collectively enables students to deliver sustainably built environments that enhance human well-being.

The program is organized through five core streams which were developed by the Sustainable Building Technology faculty and through consultation with industry representatives. These allow for specialized education within the field of sustainability and the built environment and include the Sustainability, Building Design, Building Science and Systems, Construction Management, and Service Course streams. Together, these courses provide our graduating students with the ability to pursue careers in the (re)design, management, and execution of existing and new building projects. Specifically, the program learning outcomes include:

  1. Communicate a fundamental understanding of construction concepts, practices and regulations for new and existing structures;
  2. Measure and assess the sustainability performance of construction projects including embodied and operational carbon, energy savings, and overall human experience;
  3. Perform effective communication with clients, contractors, building professionals, and municipal authorities through Integrated Project Delivery practices;
  4. Define, describe, and discuss major theories and concepts within the field of building science;
  5. Illustrate how to work independently and interdependently as part of multidisciplinary project teams;
  6. Apply a whole systems thinking approach to design and construction activities to enable greater project potential; and
  7. Effectively realize design intent in executing construction through a proficient understanding of constructability and hands-on construction experience.

Practical learning experiences are incorporated throughout the program through site visits, real project case studies, hands-on building opportunities, and capstone projects. These experiences enrich the program and bridge the gap between the academic courses and the practical skills required by the students upon graduation. During the summer term break between years 1 and 2, the students also have the opportunity to further their practical experience through participating in a paid co-op program.

In addition, the students benefit from a blended learning format where courses are delivered face-to-face and through an online platform. This allows the students to actively participate in courses on the 91ÖÆƬ³§, Penticton Campus, and conveniently from home. Specifically, one day a week is devoted to online classes, three days a week are spent on campus, and the fifth day is set aside as a student group work and study day (with the exception of Term 1).

The College intends to obtain certification with the Canadian Technology Accreditation Criteria (CTAC) for Architectural, Building and Construction Technologist.

Sustainable Building Technology is an emerging field, which means there are a variety of opportunities for graduates to apply for existing positions, create new roles or entrepreneurial ventures, and receive industry accreditations like Natural Resource Canada Energy Advisor or LEED® Green Associate.

Positions that some of our graduates hold include:

  • Energy Advisor
  • Architectural Technologist
  • Sustainability Consultant
  • LEED Consultant
  • WELL Consultant
  • Passive House Designer
  • Energy Modeler
  • Building Information Modeling Specialist
  • Green Building Material Supplier
  • Project Coordinator

Applying learning to real-world problems

In the final year, students work in small teams to solve challenging real-world problems proposed by community partners and college faculty. Students apply knowledge and skills learned throughout the program to projects that contribute to the economic, environmental and social well-being of the community. Upon project completion, the capstone project teams will prepare and present to members of the community and faculty a final report outlining the project findings and its contribution to community sustainability. Below is a summary of capstone projects students have recently completed or are currently working on.

Practicum descriptions with host organizations: 

  • BC Energy Step Code compliance analysis,
  • WELL Building Standard analysis of community building,
  • Optimal building performance pathways through a balanced financial and carbon lens for new and existing buildings,
  • Compressed earth block research and business case,
  • Energy saving potential of building retrofits in the Okanagan,
  • Carbon lifecycle costing assessment on a Part 3 residential tower,
  • Embodied carbon vs operational carbon savings in a typical Step 1, Step 3 and Step 5 Okanagan home: comparing three material pathways,
  • Energy Step Code case studies,
  • Feasibility of hempcrete in achieving Passive House,

The Co-operative (co-op) Education Program at 91ÖÆƬ³§ offers required and elective co-op for a wide variety of academic and vocational programs. Co-op students extend educational knowledge with work-integrated learning, to further reinforce academic learning and professional development. Immersion into related employment opportunities develop skill ability, gain professional experience, and network. 

Learn more about the co-op program for the Sustainable Building Technology Diploma

 

 

Campus Start date Schedule
Penticton Sep. 04, 2024

This program has an option to complete in two years, or have a lighter course load and complete in three years.

Penticton Sep. 03, 2025

Admission requirements

  • BC secondary school graduation, or 19 years of age and out of secondary school for one year as of the first day of classes.
  • English 12 with minimum 60% or .
  • Math requirement:
    • A minimum of 60% in any of:
      • Pre-calculus Grade 12
      • Foundations of Mathematics Grade 12
      • Principles of Mathematics 12
      • Applications of Mathematics 12
      • Adult Basic Education MATH 012
      • 91ÖÆƬ³§ MATH 120
    • Or a minimum of 67% in any of:
      • Pre-calculus Grade 11
      • Principles of Mathematics 11
      • Adult Basic Education MATH 011
    • Or a minimum of 70% in an 91ÖÆƬ³§ Mathematics 11 Proficiency Test
    • One of the Grade 12 mathematics courses is recommended. The mathematics requirement must be successfully completed no more than seven years prior to enrolment in the program.

Program outline

Notes

Students can complete either a two-year or a three-year option.

Option 1

Two-year option

Term 1

SBT 102 - Introduction to Design
SBT 112 - Construction Measurements and BIM I
SBT 114 - Sustainability and Ethics in Construction
SBT 115 - Construction Methods I
SBT 124 - Sustainability and the Built Environment
BUAD 128 - Computer Applications I
CMNS 136 - Technical Communication I for Sustainable Building Technology
MATH 134 - Mathematics for SBT I

Term 2

SBT 113 - Quantity Surveying and Estimating I
SBT 116 - Scheduling and Cost Control
SBT 120 - Project Delivery
SBT 125 - Construction Methods II
SBT 132 - Introduction to Sustainability Assessment
SBT 134 - Green Building Principles
SBT 144 - Sustainable Methods and Technologies
MATH 144 - Mathematics for SBT II

Term 3

SBT 212 - Construction Drafting and BIM II
SBT 213 - Quantity Surveying and Estimating II
SBT 214 - Biophilic Design
SBT 218 - Building Systems and Energy Management
SBT 223 - Sustainable Materials
SBT 224 - Greening Existing Infrastructure
SBT 228 - Renewable Energy Technologies
SBT 251 - Capstone Project I

Term 4

SBT 226 - Leadership and Innovation
SBT 230 - Construction Conflicts and Law
SBT 234 - Sustainable Design and Development
SBT 238 - Sustainable Business Case
SBT 244 - Regenerative Design
SBT 252 - Capstone Project II
CMNS 146 - Technical Writing & Communications for SCMT II
BUAD 123 - Management Principles

Option 2

Three-year option

Term 1

SBT 102 - Introduction to Design
SBT 115 - Construction Methods I
SBT 124 - Sustainability and the Built Environment
BUAD 128 - Computer Applications I
CMNS 136 - Technical Communication I for Sustainable Building Technology
MATH 134 - Mathematics for SBT I

Term 2

SBT 113 - Quantity Surveying and Estimating I
SBT 116 - Scheduling and Cost Control
SBT 125 - Construction Methods II
SBT 134 - Green Building Principles
SBT 144 - Sustainable Methods and Technologies
MATH 144 - Mathematics for SBT II

Term 3

SBT 112 - Construction Measurements and BIM I
SBT 114 - Sustainability and Ethics in Construction
SBT 213 - Quantity Surveying and Estimating II
SBT 214 - Biophilic Design
SBT 223 - Sustainable Materials

Term 4

SBT 120 - Project Delivery
SBT 132 - Introduction to Sustainability Assessment
SBT 238 - Sustainable Business Case
CMNS 146 - Technical Writing & Communications for SCMT II
BUAD 123 - Management Principles

Term 5

SBT 212 - Construction Drafting and BIM II
SBT 218 - Building Systems and Energy Management
SBT 224 - Greening Existing Infrastructure
SBT 228 - Renewable Energy Technologies
SBT 251 - Capstone Project I

Term 6

SBT 226 - Leadership and Innovation
SBT 230 - Construction Conflicts and Law
SBT 234 - Sustainable Design and Development
SBT 244 - Regenerative Design
SBT 252 - Capstone Project II
Successful completion of the prescribed courses as listed in the program outline with a minimum graduating grade average of 60%.

Program specializations

The Sustainable Building Technology offers an accelerated two year or three year curriculum that provides students with the foundation needed to prepare, inspire, and mobilize the next generation of building technologists. This program covers the principles, concepts, and practices of project design to completion through whole systems thinking and multidisciplinary approaches which collectively enables students to deliver sustainably built environments that enhance human well-being.


The program is organized through five core streams which were developed by the Sustainable Building Technology faculty and through consultation with industry representatives. These allow for specialized education within the field of sustainability and the built environment and include the Sustainability, Building Design, Building Science and Systems, Construction Management, and Service Course streams. Together, these courses provide our graduating students with the ability to pursue careers in the (re)design, management, and execution of existing and new building projects. Specifically, the program learning outcomes include:


  1. Communicate a fundamental understanding of construction concepts, practices and regulations for new and existing structures;
  2. Measure and assess the sustainability performance of construction projects including embodied and operational carbon, energy savings, and overall human experience;
  3. Perform effective communication with clients, contractors, building professionals, and municipal authorities through Integrated Project Delivery practices;
  4. Define, describe, and discuss major theories and concepts within the field of building science;
  5. Illustrate how to work independently and interdependently as part of multidisciplinary project teams;
  6. Apply a whole systems thinking approach to design and construction activities to enable greater project potential; and
  7. Effectively realize design intent in executing construction through a proficient understanding of constructability and hands-on construction experience.

Practical learning experiences are incorporated throughout the program through site visits, real project case studies, hands-on building opportunities, and capstone projects. These experiences enrich the program and bridge the gap between the academic courses and the practical skills required by the students upon graduation. During the summer term break between years 1 and 2, the students also have the opportunity to further their practical experience through participating in a paid co-op program.

In addition, the students benefit from a blended learning format where courses are delivered face-to-face and through an online platform. This allows the students to actively participate in courses on the 91ÖÆƬ³§, Penticton Campus, and conveniently from home. Specifically, one day a week is devoted to online classes, three days a week are spent on campus, and the fifth day is set aside as a student group work and study day (with the exception of Term 1).


The College intends to obtain certification with the Canadian Technology Accreditation Criteria (CTAC) for Architectural, Building and Construction Technologist.

Complete All of the following:
SBT 116 - Scheduling and Cost Control
SBT 213 - Quantity Surveying and Estimating II
SBT 115 - Construction Methods I
SBT 112 - Construction Measurements and BIM I
SBT 120 - Project Delivery
SBT 234 - Sustainable Design and Development
SBT 132 - Introduction to Sustainability Assessment
SBT 102 - Introduction to Design
SBT 223 - Sustainable Materials
SBT 224 - Greening Existing Infrastructure
SBT 113 - Quantity Surveying and Estimating I
SBT 214 - Biophilic Design
SBT 125 - Construction Methods II
SBT 244 - Regenerative Design
SBT 218 - Building Systems and Energy Management
SBT 212 - Construction Drafting and BIM II
SBT 114 - Sustainability and Ethics in Construction
SBT 252 - Capstone Project II
SBT 226 - Leadership and Innovation
SBT 124 - Sustainability and the Built Environment
SBT 230 - Construction Conflicts and Law
SBT 238 - Sustainable Business Case
SBT 228 - Renewable Energy Technologies
SBT 134 - Green Building Principles
SBT 251 - Capstone Project I
SBT 144 - Sustainable Methods and Technologies
MATH 144 - Mathematics for SBT II
MATH 134 - Mathematics for SBT I
BUAD 128 - Computer Applications I
CMNS 136 - Technical Communication I for Sustainable Building Technology
CMNS 146 - Technical Writing & Communications for SCMT II
BUAD 123 - Management Principles
Additional information

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View the Tuition and fees page

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