APEC building codes, regulations, and standards: minimum, mandatory and green
This study is organized with a chapter devoted to each APEC member economy, which seeks to detail:
25 result(s) found
This study is organized with a chapter devoted to each APEC member economy, which seeks to detail:
This is a revised report from the initial Building energy codes issued in year 2008. IEA and UNDP joint report shares best practices and lessons learned among IEA member countries and non-IEA countries in improving energy efficiency in the building sector.
This (English translation) document lists 35 Japanese cities and prefectures and efforts therein to become low-carbon cities.
Each record gives a number of government-instigated projects being undertaken and a government contact person.
Each record indicates how the city or prefecture is accredited as one- or more- of these:
JCM, Future City. Eco-Model City, ICLEI,C40
Buildings can balance the grid through proactive energy demand management and can play a leading role in transforming the EU energy market, shifting from centralised, fossil-fuel-based systems towards a decentralised, renewable, interconnected and variable system. Many actors agree that buildings have a role in shaping the Energy Market Design Initiative.
A range of sustainability rating tools for buildings exist in Australia. In setting sustainability standards for Council buildings, this policy primarily references the GBCA’s holistic design framework and assessment tool ‘Green Star - Design and As Built’ , which is widely used in the commercial and local government sectors and considered the most appropriate tool for Council buildings.
Australia’s current national emissions reduction target is to reduce emissions to 26-28 per cent below 2005 levels by 2030. As a signatory to the Paris Agreement, Australia has committed to the goal of reducing global emissions to net zero emissions and to five yearly reviews of the national target starting from 2020, with the requirement that new pledges be higher than the previous pledge and reflect the highest possible level of ambition.
Globally, 32% of total final energy consumption is attributed to the building sector. To reduce energy consumption, energy codes set minimum energy efficiency standards for the building sector. With effective implementation, building energy codes can support energy cost savings and complementary benefits associated with electricity reliability, air quality improvement, greenhouse gas emission reduction, increased comfort, and economic and social development.
Various policies targeting at building energy efficiency have been promulgated by the Chinese government in the past decade. However, few studies evaluate if China is on the right path to meet its energy goals through these policies by providing an assessment of their effect in reducing energy consumption in residential buildings or the feasibility of such policies to catalyze these reductions.
Today, buildings account for 40 percent of the total energy used in the United States, with building owners and occupants spending roughly $450 billion on energy bills each year. Despite the size of the opportunity for improvement, building efficiency is not highly valued in the real estate market, largely due to a lack of available information about building performance and energy use. A growing number of jurisdictions in the U.S. are passing energy benchmarking and transparency policies to address this information gap.
Low-income energy efficiency programs are an important component of ratepayer-funded efficiency portfolios throughout the country, but there is room for improvement and expansion. In this report the authors address the challenges and opportunities of low-income programs that target single-family homes. This report includes a survey of the low-income program landscape and advice on scaling up energy efficiency in this sector.
The aim of this report, prepared by the Joint Research Centre of the European Union (JRC) is to summarise the efforts undertaken by EU Member States in order to meet the requirements of Article 4 of the Energy Efficiency Directive (EED), to provide an overview of the policies and measures chosen and of the overall strengths and weakness, and to identify best practices.
Housing affordability is defined and measured in a variety of ways. For ASBEC, affordability means enabling people to make a housing choice that suits their needs within their available budget – regardless of whether it involves renting, ownership or having options as they age.
First adopted in 2007, and most recently renewed in 2015, New Mexico’s Sustainable Building Tax Credit supports the greening of many building types across the state. Released in October, 2017, this case study captures the impacts of this landmark policy and highlights the context and people that helped to create and sustain this nation-leading green building policy.
This is an example of LEED being used in an innovative tax policy across the United States and potentially serve as a tax model elsewhere.
The “Clean Energy for All Europeans” package confirms the pivotal role of the EU building stock in meeting EU 2030 climate and energy targets. In fact, the projected decarbonisation of the EU energy system is mainly based on the renovation of existing buildings and the increased penetration of renewable energies in heating, cooling and power generation.
This has been a major project of the AIBS Board over the past five months and represents a significant achievement in enabling AIBS to lead and influence public debate around building regulatory reform throughout Australia.
Cities and states are always looking for ways to more efficiently and effectively deliver public services, such as flood management, resource conservation, pollution prevention, social equity and human health. Green infrastructure is an integrated set of strategies that help realize these outcomes in the built environment through the deployment of design, materials and methods that uses or replicates natural systems.
Improved energy performance of buildings presents a win-win-win opportunity, reducing stress on the electricity network, offering bill savings, supporting a least-cost pathway to a zero carbon built environment, and improving health and resilience outcomes for households and businesses.
The purpose of this project is to identify and discuss potential policy instruments that can accelerate a transition toward a circular economy in the Nordic construction sector. Sixteen interviews were carried out with actors representing stakeholders from Denmark, Finland, Norway and Sweden. The objective of a transition toward a circular economy in the construction sector is to maintain, reuse, refurbish and/or recycle resources and materials used in all parts of the value chain.
In NSW more than 10% of households and small business premises have installed a solar photovoltaic (PV) system (commonly called solar panels). When these solar customers use the electricity generated by their solar panels rather than buying electricity from their retailer, they save money. When they don’t use all this electricity themselves, the excess amount is exported to the grid, and they may be paid a ‘solar feed-in tariff’ for this electricity.
The National Construction Code is a ready-made policy instrument to influence the energy efficiency of new buildings and major renovations. Improved building energy efficiency presents a win-win-win solution, reducing stress on the electricity network and supporting a least-cost pathway to decarbonisation while also delivering cost savings and improved comfort to households and businesses.