Sustainable Architecture Training Program (EEC.2Q) A.C.S.
Learn how to design and draft eco-friendly buildings. Hands-on training in AutoCAD, building codes, technical drawings, and sustainable architecture technologies. Start your career in just 24 months.
This program leads to an Attestation of Collegial Studies (ACS) recognized by the Minister of Education and Higher Education of Quebec.
Herzing College Montreal is a post-secondary institution recognized by the Ministry of Education and Higher Learning (permit number 749758) and a secondary vocational studies institution (permit number 534501)
Sustainable Architecture: An Eco-Friendly Approach to Building
Sustainable architecture focuses on minimizing a building’s impact on the surrounding environment. Eco-friendly design impacts every aspect of the construction process, including:
- Selecting renewable, non-toxic building materials
- Maximizing energy efficiency (using water recycling, solar panels, efficient electrical and HVAC systems, etc.)
- Ensuring local ecosystems aren’t disrupted by the structure
- Sustainable landscaping (using native plants, rainwater recycling, maximizing available natural resources, and limiting waste)
The Canadian sustainable architecture industry is strong and growing fast. Consumers are motivated to preserve the environment—plus, they know that green building techniques can save big money by increasing energy efficiency.
Over the past several years, we’ve seen a large increase in the number of eco-friendly building projects in Canada. Many architecture and construction firms have begun to specialize in this field, including residential, commercial, and institutional projects.
Herzing College Sustainable Architecture Training Program
Herzing’s Sustainable Architecture training program teaches the principles of green building design, renewable energy, and eco-friendly construction technologies.
Students graduate with a strong foundation in AutoCAD, Canadian building codes, architectural drafting, and 13 weeks of real work experience.
- 24-month diploma program
- 25 hours of class time per week
- 13-week internship
- Multiple program start-dates throughout the year
- Financial assistance may be available to students who qualify
Meet the instructor and learn more about training: Meet Sam Graceffa, Your Guide to Herzing’s Sustainable Architecture Program
There is good demand for sustainable building designers and drafters in Montreal and across Canada. Herzing’s Sustainable Architecture training program prepares students for careers at regular architecture firms, and companies that specialize in green building projects.
Find career opportunities at:
- Architecture firms
- Construction companies
- Property development firms
- Appraisal firms
Possible job titles include:
- Architectural technician
- Architectural technologist
- Drafting technician
Who Hires our Sustainable Architecture Graduates?
Graduates of Herzing’s Sustainable Architecture training program have been hired by:
- McGee & Associates
- George Elbaz Architecture
- Sygma Group
- Barin LLP Architecture & Design
- GMI Architects
- Urban Immersive
- ANA Architects
- MIS OBE Architects
- Martha Franco Architecture & Design
“I really enjoyed Herzing’s Sustainable Architecture training program. I got hired straight out of my internship with McGee & Associes Inc in Beaconsfield, Quebec. I am an Architectural Technician. I do site surveying, interpret design drawings from clients, create technical construction drawings, and 3d modelling/rendering work.” (Robbie Hart)
The Sustainable Architecture training program teaches hands-on design and drafting skills. Students complete several design projects, including a full range of technical drawings for eco-friendly residential, commercial, and cultural buildings.
In this program, you will learn:
- Computer-Aided-Design (CAD) software for architecture
- Principles of eco-friendly architectural design (green materials and building technologies, eco rating systems, appraisals and retrofits, landscaping design)
- Building codes and regulations (National Building Code of Canada, LEED green building certification requirements)
- Design and construction techniques for commercial, residential, and institutional structures
Click to see a detailed description of Sustainable Architecture courses.
Perform calculations on a building-HER0355. This course aims to teach the application of mathematical tools to solve practical problems in architecture and applied science. The concepts covered include mathematical calculations and geometrical systems imperial and metric measurements, introduction to algebra, simple equations, functions and graphs, perimeters, areas and volumes of solid, trigonometry and vectors the factors and billing, fractions and fractional equations, ratios and proportions, the system of two linear equations, quadratic equations, quadratic equations, geometry and descriptive and analytical. Particular applications of mathematics to sustainable architecture will be performed.
To analyze the work-HER0350. The practice of technical and architectural technologist position in the performance of the design and construction of the built environment are presented. The course is the roles, responsibilities, potential and constraints of the design and construction in general and sustainable architecture in particular. The course allows students to be in the world of architecture, engineering, urban planning, real estate, materials and manufacturing, construction and sustainable architecture. This course introduces students to the basic conventions, practice and techniques of hand drawing and architectural drawing and model making techniques. Students gain the knowledge and ability to understand 3D objects and produce multi-view drawings and 3D renderings, presentation drawings, construction drawings and details. This course also presents the various computer applications and software used in architecture and construction. The concept and use of CAD and basic commands will be presented and practiced in the context of sustainable architecture.
Analyze the work function HER0001; Perform project design HER035N. This course presents the concepts, ideas, the complexities and contradictions, the application of the concept and practice of sustainable development. The application of the concept of sustainable development to the drawings of the environment, architecture, manufacturing and assembly of materials and building design, and construction in the production process of sustainable architecture will be presented. The impacts of construction activities on the environment and ecology will be discussed. The different standards to measure the impact of architecture, construction and design of the environment, including LEED, will be presented. The techniques for measuring the impact of construction activities on the ecology will be performed. The evaluation of materials and assembly components of buildings, new and recycled, will also be presented, as well as the implementation of various government policies in sustainable architecture, construction and urban development.
Appreciate the architectural features of a book HER035A. This course aims to introduce students to the history of architecture through time and place. He will present an overview of the evolution of ideas, styles and architectural expressions, choice of materials and construction techniques. Economic, social and cultural rights have played a role in the design and construction of the built environment will be presented. Finally, the design, site development, landscape and the context, the choice of materials and construction will be analyzed in relation to the concept of sustainable development and their impact on the environment and ecology, to identify examples of sustainable architecture.
Make sketches HER0352. Architectural Drawing I is the first course to introduce students to the applications tools operating CAD (computer aided design) architecture. The course will emphasize the use of the latest version of AutoCAD software for Windows. Students will experience the production of architectural drawings, plans, elevations and sections, site plan and construction details using all the commands, options and useful modifications of AutoCAD. Each student will have access to a computer equipped for the production of DAO. The efficiency, accuracy of measurements and quotes and completeness of the drawings will be required and performed. Using AutoCAD for the production of presentation drawings of sustainable buildings will also be covered. Other software used in the fields of architecture, manufacturing and construction and various operating systems will also be presented. Topics covered include: Polylines and Polyline Edit, Paper Space Layouts, Block Attributes, Xreferences and 3D drawings.
Conduct surveys of buildings HER035B. This course presents the technical graphic and photographic survey, measurement, documentation, design and research information needed to understand an existing building. Students will produce a record of building sustainable according to the conventions of architectural drawing and presentation drawing. The structural and building services will be identified and the context of the building ahead. Following the production of the statement, students will conduct a technical analysis of the building to produce a full report to understand and intervene in an existing building.
Interpret drawings and specifications HER0351; design construction details HER035G. This course is the purpose of presenting the elements, structure and use of residential building materials wood frame. The course will also address building science, materials and construction methods in accordance with Division 9 of the NBC (National Building Code). Producing architectural drawings, structural and details of performance for a residential building wood frame, students will acquire the knowledge, techniques and skills to produce drawings, choice of different wood materials using Tables of materials and their characteristics, and methods of construction and exterior finish. The drawings will be produced by CAD (AutoCAD). The principles of sustainable architecture in wood will be presented and applied. The concepts of physics applied to the architecture and structure, statics, strength of materials and the calculation and distribution of charges will be presented and practiced.
Interpret drawings and specifications HER0351; Verify compliance of a building or plan to the Building Code and the laws, regulations and standards HER0356. This course aims to familiarize students with the concepts of all codes, regulations and standards applied in architecture, construction and urban planning. The National Code of Canada will be studied in detail and followed by a learning objective application of the NBC The focus will be on the application of various sections and divisions of the Code in order to identify various solutions to meet the code requirements and zoning and use, size, number of floors and area regarding the safety of users at the structure, fire protection and other safety requirements. In addition, the standard evaluation of materials in general and sustainable architecture, such as LEED, will be presented and implemented.
Make drawings HER035D, design construction details HER035G. This course is in the nature, potential, and the use of three materials used in the field of architecture and construction: steel, masonry and concrete, including their qualities, their means of production and variety . Potential uses of steel, masonry and concrete, used separately and in conjunction and integrated, and the method and criteria for evaluation and selection depending on the nature and needs of the project will presented. The chemical qualities, production and environmental response of these materials in conjunction with other systems, components and building materials will also be presented, as well as the advantages and disadvantages of each in a variety of construction projects and sustainable development . The assembly on site, prefabrication, functions and use for different parts of buildings, such as foundations, structure, etc.., Installation methods and materials performance will be presented. The appropriate calculations depending on usage and accepted standards are introduced and practiced. The concepts learned in this course will be practical in the current commercial and industrial projects.
Conduct surveys of buildings HER035B. Based on the knowledge of architectural design and CAD acquired in previous courses, this course aims to introduce and practice the advanced commands of AutoCAD. Students’ skills in AutoCAD to produce architectural design and construction complex 2D and 3D will be increased. The potential and application of advanced AutoCAD to design, layout, edit and share data, will be charged. Production techniques of 3D drawings and 3D modeling and rendering techniques, lighting, color and texture will be presented and practiced. Students will produce architectural drawings and details using the concepts and techniques presented.
Conduct the feasibility study of a project HER0002. This course presents the evolution and development of urban form and architectural integration into its urban context, meeting the functional needs and respecting the laws, codes and other sustainable development, and finally considering the request of real estate market. The different structures of cities and the economic, social and cultural rights to be considered in feasibility studies and decision-making on the site development, density, materials, construction and project size to better meet market demands will be discussed. The structure of municipal government and the roles of different services and the inclusion of regulations in the implementation of a construction project will be discussed. The real estate market, the economic context, the demands of consumers and developers, the preliminary architectural design, the preliminary selection of materials and mechanical systems, methods of construction, preliminary construction costs and potential sales, as an elements of a market study will be presented and applied to a potential project. The views and 3D presentation drawings and the production of a book promotion, will be presented and practiced with emphasis on techniques of textual and visual communication using the potential of graphic design software.
Analyze a problem with a building HER035F. During this project aims to guide students step by step in the process of design and construction of a small-scale institutional building as a clinic, community center, school, daycare, etc.. Students will produce presentation drawings 2D and 3D architectural drawings of the project and those of structure with the necessary details, applying the conventions and techniques of architectural drawing and CAD. The functions, requirements, design, materials and structural system of steel, masonry and concrete will also be considered. The drawings are finally produced. The science building, the environmental context and the elements of the building envelope will be presented. The foundation, the system structure, control of water, moisture and steam, sustainability and environmental and ecological impact of the building will be integrated into the project.
Analyze the work function HER0001; Perform project design HER035N. This course presents the active elements of the process of land use and planning, architectural form and landscape context of the building. Students will produce site plans based on the principles of landscape architecture, gardening, drainage and traffic, as well as the requirements of regulations and codes, considering the conditions and principles of the sustainable architecture. Students will explore the process of design and construction of the project site in an urban and suburban. The parallels between the design ideas of the environment and ecology, including the approach to green architecture and ecology, will be presented and applied to a project. The process of site analysis, the method of locating information on the site and identification of natural and built the site, such as orientation, topography, access and vegetation, will be presented. Municipal regulations and codes concerning the site will be studied and applied. Architectural and structural requirements of the projects and their relation to the potential and constraints of the site will be analyzed. Suitable materials, the building heights and massing of the project will be reviewed and applied to a concrete project.
Interpret drawings and specifications HER0351, Perform calculations for a building HER0355, estimate construction costs HER035J. This course presents an overview of the control system of the environment inside the building. Emphasis is placed on a qualitative and quantitative understanding of several elements and mechanical components, electric and acoustic to make the building habitable, comfortable and functional, taking into account the impact of these interventions in terms of architecture sustainable and environmentally friendly. The various possibilities for achieving these goals for mechanical, electrical including lighting and acoustics will be presented. This course presents methods of selection, evaluation, energy efficiency measures and the installation methods and modes of operation of various mechanical, electrical and lighting. The basic physics of electricity and lighting will be applied to the process of power distribution, the main entrance to all areas of the building. The lighting design based on the principles of engineering and architecture will be discussed and practiced. Students will conduct the evaluation and selection of the lighting system to meet the needs of the building and considering the requirements of sustainable architecture and energy efficiency. Among the topics covered, the visual process, the natural and artificial light, color, performance and effectiveness of devices are presented and applied.This course introduces the concepts of heating, cooling and ventilation, light and design process, evaluation and selection of equipment to meet the needs of users, considering the requirements of sustainable architecture and the energy efficiency. Topics covered in this course are also the notions of basic thermal comfort, heat transfer, insulation, the calculation of heat loss, moisture control and the basic principles of plumbing. Students will become familiar with the design manuals, tables of standards, working drawings and specifications for projects.
The integration of electrical and mechanical services with other architectural and structural systems will be presented and practiced.
Promote and practice their skills, services and achievements HER0003. This course aims to equip students with the tools to succeed in finding and maintaining employment in their field. Interview strategies, the writing process and the organization of a resume will be reviewed, practiced and applied. The process of finding employment in areas related to professional practice students will be introduced and practiced. The production of a CV based on the evaluation of personal and professional skills will be presented. Presentation tools of their personal tailored to each job will be performed. The size, diversity, functions and content of a professional portfolio and its adaptation to the requirements of each job offer will be presented. Students produce a portfolio of their projects and present it to potential employers by exercising their ability to be interviewed. The initiation of a process of job search, producing a CV and a portfolio appropriate comprehensive and relevant and the presentation of his CV, its expertise in sustainable architecture and its portfolio will be presented and practiced by students. The context of professional practice, relationships with other professionals, the specificity of each type of job in architecture and construction will be presented. Strategies to maintain employment and meet the job requirements will also be presented.
Produce the specifications of a project HER035H, estimate construction costs HER035J. This course introduces the varieties, characteristics and application of building materials commonly used in an architectural project in general and sustainable architecture in particular. Methods of application materials, their advantages and disadvantages for use in different parts of a building such as foundations, exterior siding, roof, structure, etc.., Assemblies and components such as windows, will be analyzed and methods of evaluation and selection will be presented. The use and application, content and organization of a typical specification will be presented. Based on knowledge of materials, this course presents the process and the steps of producing a specification for architectural design, considering the characteristics of sustainable architecture. The standard materials will be presented. Students produce a project specification for a material and an element of the building. The focus will be on developing skills in writing and technical communication students. This course introduces students to the principles and practice of quantitative and qualitative analysis of project costs and estimating using Timberline software. Different methods of estimating costs will be presented. This course examines the principles and practice of quantitative material. Requirements for estimating projects will be discussed. The role and responsibility of the estimator in the process of realization of architectural and sustainable design will be presented and the estimation of different phases of the project. Students apply these principles and practices for estimating project costs of sustainable architecture. Relationships and overlapping materials, specifications and estimates will be discussed.
Perform project management activities HER035M, Taking responsibility under health and safety on construction sites HER0359. This course presents methods, tools and roles of professionals in the process of project management architecture and construction. The various management methods and software used in project management and construction will be presented. The roles and responsibilities of project manager and construction strategies to adopt and collaboration with other professionals in order to meet the requirements of the project, including planning, scheduling, cost control and vendor management and labor will be presented. The distribution of tasks, training, work teams, holding meetings, working relationships with clients and internal communications are among the topics discussed. Finally, an overview of the construction industry describing the roles, responsibilities and contractual relationship of each stakeholder will be presented. Legal documents of a construction project will be studied by students. Legal requirements applied to a construction site safety and health of workers and the responsibilities of each of these levels will be presented. Procedures for site inspection of construction and verification are also discussed. Management of materials and construction waste and energy efficiency of the implementation of a construction project will be presented. This course introduces the code of Health and Safety Commission Health and Safety at Work and its application in various projects. Potential situations of danger based on past experiences will be presented. Finally, students apply the methods and knowledge learned during the course to a concrete project.
Make drawings HER035D. During this project aims to guide students step by step in the process of design and construction of an industrial building or commercial small scale as a warehouse, garage, store, shop or office. Students will produce presentation drawings 2D and 3D architectural drawings of the project and those with structural details, applying the conventions and techniques of architectural drawing and CAD. The functions, requirements, design, materials and structural system of steel, masonry and concrete will also be taken into account. The drawings are finally produced. Building science, environmental context and the elements of the building envelope will be presented. Foundations, the system structure, control of water, moisture and steam, interior finish, durability and environmental and ecological impact of the building will be incorporated. Systems structure and materials appropriate to this type of building will be analyzed, evaluated and implemented. The mechanical, electrical, lighting, and sound will also be considered and incorporated. The principles and requirements of sustainable architecture will be applied. Bylaws and relevant sections of the NBC will be identified and considered in the process of the project. Finally, a rough estimate of costs and a management plan for the project will be produced.
Make presentation drawings. HER035C. During this project aims to guide students step by step in the process of design and construction of a proposed design within a building as a small-scale nursery, shop, or a cultural center. Students will produce presentation drawings 2D and 3D architectural drawings and details of the project by applying the conventions and techniques of architectural drawing and CAD. The functions, requirements, design, materials and structural systems, mechanical and electrical will be considered. The drawings are finally produced. The choice of finishing materials and furniture will be presented, considering the requirements of sustainable interior design. The integration of different services of the building with architectural space, the colors and lighting will be part of the project students. These will be familiar with various software used in design and presentation tools with the project design, interior finishes such as tables, perspectives and the representation in words and graphics.
Analyze a problem with a building HER035F. During this project aims to guide students step by step in the process of study, analysis, evaluation and technical heritage, and design and construction of a conservation project, recycling and renovation to meet customer needs. Heritage features and techniques of the existing building will be included in the project. The peculiarities of the building and the special challenges of intervention will be considered. Students will produce presentation drawings 2D and 3D architectural drawings of the project and those with structural details, applying the conventions and techniques of architectural drawing and CAD. The functions, requirements, design and materials will also be considered. Appropriate reports and drawings are finally produced. Building science, environmental context and the elements of the building envelope, foundations, system structure, control of water, moisture and steam, sustainability and environmental impact and Green building will be incorporated. The requirements of an old building, heritage or recognized and methods of locating information will be presented. The various laws, regulations, policies and guidelines will be discussed and considered in a project of architectural conservation and renovation. The choice of materials and their application, restoration techniques and the principles of sustainable architecture will be presented and applied.
Promote and practice their skills, services and achievements HER0003. In this course students will be supervised during their training in the workplace to ensure their integration and application of professional skills acquired during their training. Students will be supported in their placement in industry during their internship. Exchanges between the teacher, the supervisor and the student will be structured to ensure the success of vocational training. The nature, quality and impact of professional training, employment relationships, productivity, respect for others, punctuality and behavior of students in the workplace will be supervised. Students will participate in the realization of an architectural design and construction by putting into practice all the skills acquired during their studies.
Sam currently holds a bachelor’s degree in Engineering from Concordia University and is pursuing an Education degree at the University of Sherbrooke. He has experience in plant facility start up and construction at Chrysler Inc. in Auburn Hills Michigan, as well as Corning Inc. in Concord North Carolina. Before joining Herzing College, Sam has worked as a project manager for over 15 years in residential housing projects across the Greater Montreal Area.
Moncef Noual, professor in the sustainable architecture department at Herzing College since January 2017.
Architect, holding a bachelor’s and a master’s degree in architecture in 2002 from the School of Architecture and Town Planning of Algiers in Algeria (EPAU).
Since then, I have worked for 7 years in an architectural design office in Algiers. During the first 2 years as a junior architect, but after joining the Algiers Architects Association, I was promoted to architect manager in the design office where I practiced. I led a team of architects and technicians in the design of various architectural projects and I ensured site monitoring of ongoing projects.
My mastery of software has allowed me to initiate and train members of my team in software, thus increasing their productivity and autonomy. Moreover, my taste for teaching was revealed thanks to this first experience.
Subsequently, my experience in the field of architecture was consolidated thanks to the various positions that I held from 2009 until 2016 as well as autonomous architect and project manager.
However, in recent years, I have found in the teaching of sustainable architecture the opportunity to share my experiences and knowledge with students while accompanying them on their journey through this program. My goal is that they manage to design ecological projects, respectful of the environment, taking care of users in order to ensure their well-being and increase their productivity. I keep in mind that every student deserves appropriate attention and support from me to lead them to the best possible experience.
In addition, I consider myself to be a person who makes every effort to develop his skills using the available resources. It is for this reason that I am constantly in continuous training to perfect my mastery of the drawing software that I use with students: AutoCAD 2020, Revit Architecture 2020, 3DS Max 2021, Sketchup, Photoshop, InDesign, Illustrator Twinmotion. This also reflects my concern to integrate innovative and efficient technologies in the field of architecture into my teaching as suggested by the current job market.
Finally, I have a great interest and a passion for sport, reading, cinema and video games.
What you need to get started.
- Quebec issued high school diploma or equivalent
- Minimum of two consecutive terms OR One school year interruption from full-time studies OR Minimum of one year post-secondary education
- Pass a general admissions entrance test
- Meet any additional program specific entrance requirements
HERZING COLLEGE MONTREAL
1616 Boulevard Rene-Levesque Ouest
Phone: (514) 935-7494
Fax: (514) 933-6182
SAMPLE AVERAGE SALARY RANGE:
$40,320 to $61,420
Includes 13 week internship
On Campus, Online, Hybrid (Flex-Ed)
English and French
TRY OUR CAREER EXPLORATION KIT
Our online kit takes 3-minutes to complete and you’ll get a personalized report. Identify your strengths and social style plus the training and positions you’re best suited for.
Learn it your way
Education your way. A convenient online learning environment with the option to work at the campus and receive support from your instructor. Students can choose to work completely or partially online and come to the campus during set hours each day to meet with their instructor and use our facilities.
2020 Overall Graduate Employment Rate
89% of available Herzing College Montreal graduates were employed in a related field.
*statistics based on most recent available
Your Next Steps
Ready to learn more the Sustainable Architecture program? It’s easy to get started. It’s easy to get started. Choose from the following options:
- Fill out the form to ask questions via email
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- Click Apply Now to get your application started today!
- An Advisor will explain tuition costs, financial aid options, course schedules, start-dates, how to apply, and any other questions you have
Why Choose This Program?
The Sustainable Architecture training program is quick and practical, with an excellent graduate employment rate. Here’s why Herzing should be your first choice:
- Study with expert instructors with years of architecture experience
- Learn the practical design and drafting skills employers want
- Do a wide range of hands-on sustainable architecture projects
- Study in small classes where every student gets step-by-step support
- Get an extensive 13-week internship to gain experience for your resume
- Graduate and start working in just 24 months
- Get access to the Herzing Open Education Program (HOEP), which lets you take additional courses after you graduate, tuition-free!
- We have an amazing Career Development team, who helps create your resume, prepare for interviews, and apply for design/drafting jobs
- Herzing has a 55-year track record of quality career training employers trust