Efficiency First: A new paradigm for the European Energy System
In February 2015 the principle of ‘Efficiency First’ (E1st) was formally endorsed by the European Commission within the framework of the Energy Union.
27 result(s) found
In February 2015 the principle of ‘Efficiency First’ (E1st) was formally endorsed by the European Commission within the framework of the Energy Union.
This paper outlines and critically ‘maps’ existing roadmaps relevant to transitions to a low or zero carbon built environment in Australia. A roadmap describes the measures required to achieve goals and/or map future innovation opportunities. The three questions addressed by a comprehensive roadmap are: Where do we want to go?, Where are we now?, and How can we get there? The review identified 13 roadmaps/plans that have been produced by: peak industry bodies (Australian Institute of Refrigeration Air Conditioning and Heating); academic research groups (e.g.
This document contains the highlights from the high-level roundtable organised in the framework of the RenoValue project. The event took place at the European Parliament, in Brussels, Belgium, on 26 January 2016, providing the opportunity to discuss how policy makers can strengthen the role of property valuers as drivers of the market transition towards sustainable buildings.
In summary:
1. As a result of Colombia’s new green codes, buildings are expected to consume 10 to 45 percent less energy and water. These reductions will avoid nearly 190,000 metric tons of greenhouse-gas emissions by 2021, helping big cities like Bogota achieve a goal to reduce 2019’s greenhouse-gas emissions by 16 percent compared to 2007.2,3
To maximise the benefits from its application of BIM to infrastructure projects within its annual capital program, this framework will support the effective use of BIM across Queensland Government infrastructure delivery agencies. A focus of the framework includes BIM capability development across government and industry.
USGBC local communities around the country are helping cities jumpstart their building performance benchmarking efforts. And the results are pretty exciting. After four years of benchmarking in New York City, buildings there are using almost 15 percent less energy according to MIT professor David Hsu, one of the most widely recognized experts in energy benchmarking analysis. Learn more in this Benchmarking in Cities brief.
Potential gains from improving energy efficiency are substantial — not only in terms of saving energy and combating climate change, but also in terms of contributing to an array of other co-benefits, including improving human health and creating jobs. We asked Tim Farrell, Senior Advisor at the Copenhagen Centre on Energy Efficiency, what works best when it comes to boosting energy efficiency. He stressed that targeted policy measures and sufficient resources to support implementation and compliance are among a number of critical ingredients for success.
For building owners, the renovation process can be a hassle, shaped by the ambiguity of the measures to implement. Uncertainty is one of the reasons why the renovation rate continues to linger around 1% and private investments remain limited. Achieving the full market potential of renovation calls for a paradigm shift, where a more service-oriented supply-side together with a deeper awareness on the demand-side play key roles. The BetterHome case study shows how innovative business models can drive energy renovations across Europe.
This report is an update from a similar document published in 2013. In 2018, evidence gathered by the International Energy Agency has identified six critical factors to guide policy makers in realising potential savings in both new and existing buildings through the modernisation of building energy codes.
This article is part of our Urban Expeditions series, an initiative made possible by a grant from United Technologies to the National Geographic Society. As the world’s urban population expands, architects and planners are mapping out ways to make cities more sustainable. Cities produce a vast amount of emissions and waste, putting a strain on both human and ecological health. But our buildings themselves may hold a solution.
This document is the companion to parts 1 and 2 of the guidance on how to use Level(s). In part 1 a general introduction to Level(s) is provided, together with in Part 2 an overview of the macro-objectives, performance indicators and the three Levels of performance assessment (Level(s) - Part 1 and 2). The three Levels are:
The current shift from fossil energy resources to “green” energy — renewable energy plus storage in smart grids, many with electric vehicles providing grid services — is now a global phenomenon (International Energy Agency 2016; International Renewable Energy Agency [IRENA] 2017b).
Cities are increasingly taking actions such as building code enforcement, urban planning, and public transit expansion to reduce emissions of carbon dioxide in their communities and municipal operations. However, many cities lack the quantitative information needed to estimate policy impacts and prioritize city actions in terms of carbon abatement potential and cost effectiveness. This report fills this research gap by providing methodologies to assess the carbon abatement potential of a variety of city actions.
The EU building sector needs to develop and deploy more innovative solutions in order to enhance the building stock’s energy efficiency and help meet energy and climate policy targets. The European Union is therefore supporting projects that address design and construction processes as well as new technologies, with funding from the Horizon 2020 programme. The results developed by these projects address key challenges at each stage of the value chain for new nearly zero-energy buildings, deep renovation of existing buildings, and energy-smart buildings.
Energy transition of the EU building stock, from being an energy waster to being highly energy efficient and an energy producer, is a prerequisite for Europe’s carbon neutrality, as well as for meeting Europe’s Sustainable Development Goals (SDGs). Achieving these targets requires shifting the emerging energy renovation market from a market of step-by-step and shallow energy renovation financed by grants to a market of industrialized and holistic energy renovation leading to zero energy buildings financed by long-term loans.
The earth is on a trajectory to warm 3-4°C by 2100. This heat map details how that rise in temperatures will affect major metropolitan hubs.
Smart Cities Dive took a closer look at how this would affect six major metropolitan hubs, and what the respective mayors and city leaders are doing to curb climate impacts as the clock ticks.
The U.S. Green Building Council’s Leadership in Energy & Environmental Design (LEED®) green building certification has transformed how the building industry
and the public consider sustainability in the built environment. The most recent update to LEED, known as LEED v4, is the new standard for high-performance
Analysis of energy renovation costs, as provided by the French Observatory for Low Energy Buildings, identified the following:
This report is the Interim Technical Report for the Building Code Energy Performance Trajectory Project. It accompanies the Interim Synthesis Report for the Building Code Energy Performance Trajectory Project, entitled The Bottom Line – the household impacts of delaying improved energy requirements in the Building Code and which was published on the 8th of February 2018, providing more detail on the assumptions behind and the preliminary results from the underlying modelling work.
The report provides the following key items:
New research finds that people are willing to pay more for energy efficient housing, making the case for a mandatory national rating system for existing homes.
“Location, location, location” is a time-honoured mantra for pricing property, but research shows buyers and renters are also prepared to pay a premium for energy efficiency.