Transition Engineering Building a Sustainable Future
by Susan Krumdieck
30% discount code: CDC22
Transition Engineering: Building a Sustainable Future examines new strategies emerging in response to the mega-issues of global climate change, decline in world oil supply, scarcity of key industrial minerals, and local environmental constraints. These issues pose challenges for organizations, businesses, and communities, and engineers will need to begin developing ideas and projects to implement the transition of engineered systems. This work presents a methodology for shifting away from unsustainable activities. Teaching the Transition Engineering approach and methodology is the focus of the text, and the concept is presented in a way that engineers can begin applying it in their work.
Table of Contents
Introduction - What is the role of engineers in changing the future?
Chapter 1 - The Mega-Issues of Unsustainability
Accumulation of Greenhouse Gas, Fossil Fuel Supply, but particularly the problem of Peak Oil. The Monkey Trap
Chapter 2 - Problems of Unsustainability
Sustainability Principles, Carrying Capacity, Resource Constraints, Population, Water, Lifestyle Expectations - but mostly the problem of Exponential Growth. Bacteria in the Jar
Chapter 3 - Complexity and Communication
Numerization is the key to cutting through the emotion and nonsense. Finding good data and making straightforward investigations. Presenting data in graphs and figures. The Fox and the Hedgehog and the Bigger Picture
Chapter 4 - Transition Engineering
The Interdisciplinary Transition Innovation, Management and Engineering methodology and how to use it for wicked problems. Blind Men and the Elephant
Chapter 5 - InTIME Models and Methods
Theory of Anthropogenic System Dynamics, Development Vector, Strategic Analysis of Complex Systems, The Matrix Game
Chapter 6 - Economic Decision Support
Cost of Energy, Environmental Externalities and Health Effects. Standard economic analysis. Emperor's New Clothes
Chapter 7 - Transition Economics: Balancing Costs and Benefits
Energy Return on Energy Invested (EROI) and other ways to look at the future. Low-Hanging Fruit
Chapter 8 - Conclusion and Discussion
Cassandra and the Big DO
Here is a book that captures the essential energy crisis of dependency on fossil fuels at a time when dramatic change is urgently needed to reduce emissions of greenhouse gases to avert the worst effects of climate instability. The book is accessible in style and uses imagery that illustrates the problems faced and the solutions available. Engineers need to increase their understanding of the huge challenges around energy that society faces, and this book helps with this understanding."
Peter Guthrie, Professor- Engineering for Sustainable Development, University of Cambridge, UK
"Usually, the societal transition from fossil fuels to renewable energy is discussed in terms of politics and investment. However, this historic shift also presents a huge and fascinating engineering challenge. Transition Engineering is a clear and useful guide to understanding technological issues in key aspects of energy production and usage, as they relate to a sustainable future. If you are interested in making a practical contribution to fighting climate change by redesigning industrial systems, you owe it to yourself to read this book."
Richard Heinberg, Post Carbon Institute, USA
"If you want to be challenged in the way that you think about the future role of energy in an economy that seriously tries to address the problems of finite resource depletion and climate change, then expose yourself to this book’s provocative ideas on how engineering analysis can lead the way. It gets engineers to think as they are trained and inspires non-engineers to change their viewpoint and take action."
Carey King, University of Texas at Austin, USA
Professor Susan Krumdieck’s book Transition Engineering: Building a Sustainable Future is a technical instructional manual for engineers faced with how to adapt within our cities to meet the targets of 80 percent less fossil fuel. Not just the technical stuff, it’s also a strong imperative to do what we clearly must, to effect the inevitable downshift in energy use and in how we operate in the world.
Pat Basket, Climate Activist, New Zealand
There is a growing consensus that urgent action is needed to prevent mass displacement of populations and ecosystem collapse. But what exactly do we need to DO? How will we do it? Who is “we”? Dr Krumdieck’s book, "Transition Engineering: Building a Sustainable Future", provides the missing piece of the puzzle: the operations manual for the carbon downshift.
IMechE, A bold new approach to the climate crisis
Transition engineering is a proactive imperative that demands seeing the problem clearly. Engineers are good at fixing problems, but not necessarily good at picking the right problem to fix. Our challenge is that in developing a cleaner economy, we must also reduce its metabolism to adapt to energy decline. As Professor Krumdieck puts it, let’s not increase our risks by rushing more sustainably toward catastrophic unsustainability. This is a book for engineers, young and old, and others who want a user’s manual for repairing global wicked problems. If you’ve read the IPCC reports, and are wondering what on Earth to do next, read Transition Engineering: Building a Sustainable Future.
Jennifer Wilkins, 2022, Founder and developer of business sustainability knowledge platform Heliocene.org
The underlying approach to Transition Engineering makes sense. Step-down projects consider the site specific conditions at a defined location and focus on essential activities, although projects may have applicability to other locations and other activities. There are no simple solutions that can be applied universally, but the approaches outlined in the book for evaluating the status quo vs. change projects allows for a more comprehensive analysis and evaluation of the alternatives. I struggled with trying to figure out how dams and the benefits they provide fit into Transition Engineering projects but concluded that there are considerations for water projects. The needs and activities supported by water projects (municipal, agricultural and industrial water supply; flood control; and hydroelectric power) are critical in many locations and could be impacted by changes in communities resulting from transition projects, such as higher density housing in urban areas and development of urban agriculture. Hydrologic power has one of the highest EROI values and maintaining these resources can be a major part of the solution in many areas.
The challenges presented by the wicked problem of unsustainable energy use are daunting, but I agree with premise of the book that engineers are in the best position to identify the solutions and implement the change. The last sentence of the book presents the best direction for engineers:
Now get busy preventing what is preventable.
Bill Fiedler, 2022, Geotechnical Civil Engineer, Retired, US Army Corps of Engineers