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Building Decarbonization and the Clean Energy Transition

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Building Decarbonization and the Clean Energy Transition

Instructors: Martin A Fischer

8 modules

Gain insight into a topic and learn the fundamentals.

Intermediate level

Recommended experience

1 week to complete

at 10 hours a week

Flexible schedule

Learn at your own pace

8 modules

Gain insight into a topic and learn the fundamentals.

Intermediate level

Recommended experience

1 week to complete

at 10 hours a week

Flexible schedule

Learn at your own pace

What you'll learn

Key approaches such as energy efficiency, electrification, and the integration of renewable energy to reduce carbon emissions in buildings.
Cutting-edge advancements in low-carbon materials, smart building technologies, and policy frameworks that support sustainable building practices.
Skills to apply decarbonization strategies in their own projects, balancing environmental goals with economic feasibility.

Skills you'll gain

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There are 8 modules in this course

This course provides a comprehensive exploration of building decarbonization, equipping professionals with the knowledge and strategies needed to achieve sustainable, energy-efficient buildings. Through expert-led modules, participants will learn how to use energy efficient, electrification, renewable energy, low embodied carbon materials, and market-based approaches in the design of the next generation of high performance buildings. Featuring case studies from the US, Asia, the EU, and global leaders, the course highlights practical approaches, emerging technologies, and policy frameworks to guide building managers, developers, and policymakers toward impactful, scalable solutions for a low-carbon future. The course is taught by industry veterans and global experts from Stanford including world famous Amory Lovins.

Module details

Learn the core principles of decarbonization, including the differences between operational and embodied carbon, the financial and regulatory drivers behind sustainability efforts, and the risks of inaction.

What's included

1 video8 readings1 assignment

1 videoTotal 6 minutes

Why building decarbonization matters6 minutes

8 readingsTotal 34 minutes

Before we begin8 minutes
Why decarbonization matters today4 minutes
Tracking the carbon story of buildings2 minutes
Decarbonizing embodied carbon4 minutes
Decarbonizing operational carbon4 minutes
Future impacts on building design and construction1 minute
Inside Infosys: a climate leadership story from India (Audio)6 minutes
Conclusion5 minutes

1 assignmentTotal 30 minutes

Check your knowledge (5 questions)30 minutes

Investigate the evolution and future of building energy efficiency, and examine how modern buildings use significantly less energy than their historical counterparts.

What's included

2 videos21 readings1 assignment

2 videosTotal 15 minutes

Integrative design for deep energy efficiency7 minutes
Elements and examples of deep energy-efficient design8 minutes

21 readingsTotal 60 minutes

Welcome!1 minute
The lighting transition: a powerful example of energy efficiency3 minutes
Systems, standards, and integration3 minutes
Looking ahead and thinking systemically3 minutes
Architectural strategies for energy efficiency1 minute
Strategy 1: Building orientation and massing2 minutes
Strategy 2: High-performance glazing2 minutes
Strategy 3: Improved window-to-wall ratio2 minutes
Strategy 4: Improved daylight and views1 minute
Strategy 5: Exterior shading and light shelves2 minutes
Strategy 6: Improved insulation2 minutes
Strategy 7: Tight building envelope1 minute
Strategy 8: Thermal mass3 minutes
Strategy 9: Sufficient space for building systems1 minute
Strategy 10: Integrated design1 minute
The RMI Innovation Center: where architectural design drives building performance (Audio)6 minutes
The power of light: optimizing daylighting and lighting for energy efficiency3 minutes
Daylighting fundamentals: optimizing natural light for energy efficiency7 minutes
Efficient electric lighting fundamentals4 minutes
The importance of smart lighting design (Audio)7 minutes
Conclusion5 minutes

1 assignmentTotal 40 minutes

Check your knowledge (7 questions)40 minutes

Examine advanced strategies for optimizing HVAC systems, focusing on energy-efficient heating, cooling, and distribution methods, while gaining insights into the latest technologies and case studies that drive sustainability and reduce operational carbon in building management.

What's included

1 video19 readings1 assignment

1 videoTotal 6 minutes

Impact of HVAC systems on sustainability6 minutes

19 readingsTotal 55 minutes

Welcome!1 minute
The path to energy-efficient cooling and heating2 minutes
Sources of and cooling and heating1 minute
Category 1: Traditional passive cooling systems 3 minutes
Category 2: Conventional refrigerant-based cooling systems2 minutes
Category 3: Advanced low-energy cooling systems2 minutes
Background on heating1 minute
Category 1: Traditional heating sources1 minute
Category 2: Conventional heating sources1 minute
Category 3: Advanced low-energy heat sources6 minutes
Tamedia office building, Zurich, Switzerland: a model of sustainable innovation and energy efficiency2 minutes
Smarter heating and cooling for sustainable buildings (Audio)7 minutes
Importance of heating and cooling distribution systems - fans and pumps1 minute
Conventional distribution systems4 minutes
Low energy distribution systems4 minutes
Low energy distribution systems (Continued)5 minutes
Designing for impact: Lee Eng Lock’s vision for super low-energy pumping 1 minute
The bottom line: why distribution systems make or break efficiency goals (Audio)6 minutes
Conclusion5 minutes

1 assignmentTotal 30 minutes

Check your knowledge (5 questions)30 minutes

Gain a deeper understanding of how electrification reduces operational carbon, enhances efficiency, and supports the transition to renewable energy in building management, and examine the latest technologies and energy-efficient solutions for space heating, water heating, and cooking.

What's included

2 videos19 readings1 assignment

2 videosTotal 11 minutes

How hybrid systems enable building decarbonization5 minutes
Heat pumps in action: large-scale energy efficiency6 minutes

19 readingsTotal 83 minutes

Welcome!1 minute
How to electrify buildings6 minutes
Why electrify buildings?8 minutes
Electrification excellence in action: lessons from the Exelixis Corporate HQ8 minutes
Why heat pumps are central to the future of sustainable buildings (Audio)7 minutes
An introduction to heat pumps and how they work6 minutes
Heat sources3 minutes
Cost and efficiency in electric heating3 minutes
Types of heat pumps and their applications3 minutes
Advanced systems: variable refrigerant flow & heat recovery2 minutes
Affordability - hybrid approach to boiler replacement2 minutes
Key considerations for heat pump deployment3 minutes
Heat pumps for domestic hot water3 minutes
The transformational impact of multi-use heat pumps (Audio)6 minutes
The energy and health impacts of cooking5 minutes
Induction cooking4 minutes
The bigger picture: equity, infrastructure, and policy2 minutes
The power of induction: revolutionizing energy use in buildings (Audio)6 minutes
Conclusion5 minutes

1 assignmentTotal 40 minutes

Check your knowledge (7 questions)40 minutes

Examine the integration of renewable energy and storage systems in buildings as a crucial step in achieving operational decarbonization.

What's included

1 video16 readings1 assignment

1 videoTotal 6 minutes

Energy solutions in context: how needs, finances, and location shape renewable energy decisions6 minutes

16 readingsTotal 62 minutes

Welcome!1 minute
How solar panels power the shift to affordable, low-carbon buildings3 minutes
Components of solar photovoltaic systems2 minutes
Residential vs Commercial building PV systems and sizing3 minutes
Selling power back to the grid4 minutes
St. Peter Apartments New Orleans, LA: affordable, all-electric, and net zero4 minutes
Solar energy’s role in decarbonization (Audio)7 minutes
Renewable energy from the grid5 minutes
Credits, offsets, and making the best choice for clean energy5 minutes
Advancements in batteries3 minutes
Types of batteries2 minutes
Why battery storage in buildings?4 minutes
Resilience in action: how batteries keep St. Peter Apartments running4 minutes
Banking on batteries: how Officeworks Warana cuts costs with solar power and battery storage3 minutes
Why grid-sourced renewable energy and storage matter for decarbonization (Audio)7 minutes
Conclusion5 minutes

1 assignmentTotal 30 minutes

Check your knowledge (5 questions)30 minutes

Review how structural system and building material selection impact a building’s embodied carbon, the role of building reuse in carbon reduction, and the tools available to assess and manage embodied carbon.

What's included

1 video26 readings1 assignment

1 videoTotal 6 minutes

Innovations in low embodied carbon6 minutes

26 readingsTotal 88 minutes

Welcome!1 minute
What is embodied carbon?4 minutes
Sources of embodied carbon 6 minutes
Strategies for reducing embodied carbon7 minutes
Implementation in practice2 minutes
Global policy and market trends2 minutes
Emerging innovations1 minute
Professional implications2 minutes
Alternative structural materials: LC3 cement (Audio)9 minutes
The business case for building reuse3 minutes
Adaptive reuse strategies3 minutes
Quantifying carbon savings1 minute
Analyzing carbon impacts: reuse vs. new construction2 minutes
The French RE2020 example2 minutes
Technical and cultural challenges1 minute
Reusing residential buildings1 minute
Global perspectives1 minute
Addressing embodied carbon in the AIA headquarters renovation5 minutes
How reusing buildings accelerates our path to decarbonization (Audio)8 minutes
Why measurement matters3 minutes
Environmental Product Declarations (EPDs)3 minutes
Tools for calculating embodied carbon (with a practitioner’s comparison)4 minutes
Key metrics and benchmarking (and how to compare apples to apples)3 minutes
Why measurement unlocks management4 minutes
Measuring embodied carbon (Audio)8 minutes
Conclusion2 minutes

1 assignmentTotal 40 minutes

Check your knowledge (7 questions)40 minutes

Examine the business case for building decarbonization, particularly through the lenses of developers and building owners, and learn about strategies for making decarbonization both financially viable and impactful in the long term.

What's included

2 videos14 readings1 assignment

2 videosTotal 16 minutes

Reducing initial costs for long-term decarbonization8 minutes
The business of building decarbonization8 minutes

14 readingsTotal 46 minutes

Welcome!1 minute
Introduction to decarbonization in real estate1 minute
The decarbonization journey: more than just compliance2 minutes
Overcoming the "split incentive" barrier3 minutes
Alternative lease arrangements: the power of green leases4 minutes
The financial benefits of building a decarbonized future4 minutes
The financial case for decarbonized buildings (Audio)7 minutes
The decarbonization imperative: beyond the "why" to the "how"1 minute
Strategies for affordability: making decarbonization accessible4 minutes
Financed energy efficiency and renewables: unlocking capital3 minutes
Strategies for management: navigating stakeholder dynamics4 minutes
Prioritization framework for decarbonization initiatives4 minutes
Case Study: making the business case for decarbonization6 minutes
Conclusion2 minutes

1 assignmentTotal 30 minutes

Check your knowledge (5 questions)30 minutes

In this final activity, you will demonstrate your understanding and application of building decarbonization principles by evaluating a fictional building that is underperforming on key sustainability goals and propose climate-appropriate, actionable strategies for improvement.