How to organize a collective response by the building sector to the global issue of climate change?

Peter Graham's picture
20-02-2013 | Peter Graham | Global, 全球, South-East Asia, South-East Asia
Categories: Carbon Emissions Reduction Targets

Welcome to the new GBPN global Knowledge Platform. The building sector is incredibly diverse. In some ways creating a building is one of the most complex tasks that humans undertake – and yet building is a natural human activity reflecting our cultural, technological and economic preferences and priorities. But with so much local diversity and complexity in both process and in the outcomes of our building how can we design strategies that can organize a collective response by the sector to the global issue of climate change?

In his book ‘Critical Mass’ Philip Ball considers the dynamics of change in human society – an issue at the core of GBPN’s mission, how to change the way our buildings use energy so that their collective impact is positive for the planet. Ball suggests that:

“ … collective actions and effects are inevitable…Environmentalists and other activists like to entreat us to ‘think globally, act locally’. But the physics of society shows that the reverse can take effect too: by concerning ourselves with nothing more than how we interact with our immediate neighbors, by ‘thinking locally’, we can collectively acquire a coherent, global influence. The consequences of that – good or bad – are worth knowing.

This speaks to the theory of change that we are testing at the GBPN.

The local diversity of the building sector is strength and not a barrier because it provides a rich diversity of potential solutions to climate change. GBPN’s role is to collect best practices of builders and policy makers from around the world that are ‘thinking locally’ about improving building performance and tackling climate change (Our Vision). In so doing we can demonstrate the global significance of local best practices. By accepting the diversity of the building sector as an asset and creating an organization with a sustained local presence, we can identify, harvest and share local best practices and share these best practices internationally, thereby accelerating the reduction of building energy use and associated green house gas emissions (What we Do).

Peter Graham, GBPN Executive Director

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In the context of climate change mitigation, the abatement potential is the amount of mitigation that could be reduced over time. [Source: IPCC]

Climate in a narrow sense is usually defined as the average weather, or more rigorously, as the statistical description in terms of the mean and variability of relevant quantities over a period of time ranging from months to thousands or millions of years. The classical period for averaging these variables is 30 years, as defined by the World Meteorological Organization. The relevant quantities are most often surface variables such as temperature, precipitation, and wind. Climate in a wider sense is the state, including a statistical description, of the climate system. In various chapters in this report different averaging periods, such as a period of 20 years, are also used. [Source: IPCC - Annex II Glossary of Terms]

The calculated or measured amount of energy needed to meet the energy demand associated with a typical use of the buildings, which includes inter alia, energy used for heating, cooling, ventilation, hot water and lighting (EU). [Source: EPBD recast, 2010/31/EU]

Combines integrated design with regulatory mechanisms, labelling schemes and financial incentives to reduce energy consumption in the buildings sector. The holistic approach means being flexible towards building design, adaptive to changing technologies and responsive to local environmental and socio-economic contexts. [Source: IEA Glossary]

A collection of policies and programmes that support the implementation of a common goal.