Energy efficiency is easier at large scale.

This is also true of the international Passivhaus Standard – it is relatively easy for a large building to meet the requirements compared to a smaller building. The heat loss form factor is part of the reason why this is the case. A large building tends to have less surface area to lose heat relative to the internal volume.

Airtightness is another reason. As this is measured in air changes per hour for Passivhaus, a large building has a large air volume. Achieving 0.6 ach with a large air volume isn’t as demanding as achieving it with a small air volume. It’s still an exacting target to meet, though.

However, the total energy consumption of an energy efficient large building might still exceed the total energy consumption of a smaller less efficient building. For this reason and others, constructing smaller buildings is important in the Anthropocene. We must radically reduce the total amount of CO2 being emitted.

Some people are responding to this by designing and constructing ‘Tiny Houses‘. The houses in this growing movement are around 45m2 or less and often on wheels.

Is it possible for a ‘Tiny House’ to meet the Passivhaus Standard?

Yes, it’s possible to construct a Passivhaus Tiny House – this blog post features three examples. The examples come from the United States, Australia and France and all take unique approaches.

Passivhaus Tiny House: not only is it possible, it’s happening.

046 Passivhaus Tiny House
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This is a Passivhaus Basics blog post that gives an overview of a specific aspect of the Passivhaus Standard.

The Passive House Planning Package (PHPP) is one of the most powerful design tools available for designing low energy buildings. It can seem intimidating as an extensive programme of interlinked worksheets, typically used in Micorsoft Excel. However, when viewed worksheet by worksheet is it apparent how straightforward it is.

It is a necessary part of Passivhaus design, both for Passivhaus Designers and Consultants and for Passivhaus Building Certifiers. For designers, it is a useful tool at all stages as detail is gradually built up. And it provides a large degree of the all-critical quality assurance of the international Passivhaus Standard. And finally it is the tool used for certification of a Passivhaus Building.

At it’s most basic, the Passive House Planning Package (PHPP) is a collection of clearly defined building physics algorithms. When the required information is entered, accurate reliable results are produced. And it continues to be developed as the Passivhaus Standard evolves and the world transitions towards a renewable energy future. (No matter how slow that transition might seem to be going currently!)

The Passive House Planning Package (PHPP): design tool, quality assurance tool and certification tool + all the essential building physics a low energy building needs.

040 What is the Passive House Planning Package PHPP?

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integrity
/ɪnˈtɛɡrɪti/
noun
1. the quality of being honest and having strong moral principles.
2.the state of being whole and undivided.

Breaking promises damages your integrity. Do you make promises about the performance of buildings you design or construct? And do your buildings keep those promises?

Let me share a short story with you.

On a commission where I was the project architect, we reassured our clients that their new building would be super energy efficient, among other things. And yet, once the building had been handed over, I found myself in an embarrassing situation.

In a meeting with the clients, they put me on the spot and asked me why the energy bills were so high. No matter how many times I explained that the new building was much larger than their old building and had a lot more energy consuming equipment in it, there was no way out: in the clients’ mind we had not delivered on the promise of a super energy efficient building.

In fact, the new building was very energy efficient. However, we had never quantified what we meant by a “super energy efficient” new building. Therefore, the clients’ interpretation of this was lower energy bills and all they had to compare were the energy bills from their old building.

Needless to say, this project wasn’t a certified passivhaus building. Had it been, we could have given the clients an accurate prediction of what the (radically low) energy consumption would be. They would have had a good estimate of the expected energy bills. And the building would have performed as predicted. Our promise would have been kept.

Integrity is a reason to Love Passivhaus!

018 Love Passivhaus Integrity
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This blog post is a review of “Passive Houses: Energy Efficient Homes” published in March 2012. Chris van Uffelen, who compiled this monograph, is a prolific author with over 50 architecture and design related titles to his name. The book surveys 56 single-family energy efficient homes from around the world that collectively

showcase the great variety of exciting and at the same time sustainable architectural solutions.

I first heard of this book when Murray Durbin mentioned it during his interview on the Home Style Green podcast. Murray and Lee Ann Durbin had found this book to be a particular inspiration when setting out to design their own residential Passive House in Auckland, New Zealand. They have written extensively about the process and you can see pictures of the completed residential Passive House on their blog.

It is a well-deserved recommendation. This book covers an enormous geographic and climatic range, and it showcases a wide variety of architectural styles and approaches to energy efficient homes.

013 Residential Passive House Design

Passive Houses: Energy Efficient Homes” includes houses from the USA, Canada, England, Wales, Germany (as you would expect!), Austria, Switzerland, several Scandinavian countries, Australia, China, Japan and more. The author didn’t limit the choice to only certified residential Passive Houses, but instead selected inspirational energy efficient homes demonstrating a whole range of standards, all employing ‘passive’ techniques of one sort or another.

Out of the 56 homes showcased, at least 18 are certified to the European Passive House Standard and 6 to the Swiss Minergie Standard, which is very similar. Many examples meet a different standard such as the Califorina Green Building Standards Code, KfW40 (a German low energy standard), Energy Star and the UK’s Code for Sustainable Homes Code 6. There are also some certified to multiple complimentary standards. For example the Prescott Passive House in Kansas City, USA, is Passive House certified and also LEED Platinum.

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Climate change is one of the biggest threats we face today. Clearly we need to reduce CO2 emissions globally to zero, or to less than zero, to address climate change. And architecture in the anthropocene must change to address this challenge, as I have written about in my manifesto. Buildings must emit radically less CO2 during construction and occupation. This often leads to the assumption that we should be delivering ‘Zero-Carbon Buildings’. However, this is the wrong target for buildings, radical energy efficiency is the right target for buildings.

In this blog post I explore 9 reasons why ‘Zero-Carbon Buildings’ is the wrong target and what the right targets are.

012 Zero Carbon Buildings Wrong Target
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