Generalized When comparing volume of research and developments, the United States, the United Kingdom, Australia, and China are the most involved in generating solutions for infrastructure. Different national priorities often result in different sustainability foci among countries. According to a review of available projects and research, the United States and United Kingdom prioritize sustainable solutions towards culture, water, disasters, and urban planning. The United States especially has made progress with green infrastructure initiatives (e.g. Green Alley Programs). China and Australia have similar priorities, but Australian tourism takes larger precedence as opposed to disaster prevention, while China is significantly involved in governance, electricity, and land development.
Australia In contrast to the increasing Chinese population, the population in Australia faces threatened resiliency due to decreasing population growth rates. More efficient land development, also carried out by an integrated group of bureaucratic bodies throughout Australia, and multiuse utility systems can maximize the social, environmental, and economic benefits of a country regardless of whether the population is increasing or decreasing. Attention is paid to
technological and
government policies which enable
urban planning for
sustainable architecture and
sustainable agriculture. In Canada, several organizations related to the
FCM InfraGuide project, including the
Federation of Canadian Municipalities,
Housing, Infrastructure and Communities Canada,
National Research Council of Canada, and Canadian Public Works Association, seek to achieve
sustainability in
municipal infrastructure, especially large scale
urban infrastructure. These organizations advocate
environmental protocols, and inclusion of
ecological and social indicators and factors in
decision making at the earliest possible stage. There is little focus yet on sustainable rural infrastructure, though, this is a stated goal of the project, as is the achievement of sustainable
rural development in
developing nations. In their view,
sustainability concerns apply to all of "maintaining, repairing and upgrading the infrastructure that sustains our
quality of life" including at least: • municipal
decision making and investment planning •
potable water supply •
stormwater and
wastewater especially minimizing the distance that such water travels to be treated and reused •
roads and
sidewalks and their integration with
transit systems to achieve smoother flow of people •
environmental protocols and multidisciplinary practices to ensure they are respected, e.g.
green procurement. These and other Canadian official entities, including the
Auditor General of Canada and
Service Canada, are focused on related efforts such as
municipal performance audits,
information technology,
communications technology,
moral purchasing and sharing of "data, information, common infrastructure, technology," and the need to "integrate their business processes." In particular, this integration further reduces duplication and waste, especially
e-waste and
greenhouse gas emissions that
were a concern under Kyoto Protocol targets that Canada committed to achieve. In 2011, Canada withdrew from the Kyoto Protocol due to economic concerns.
China The increasing population of China has significantly impacted the ratio of resource consumption to resource production, which has put pressure on the Chinese government and economy to establish a more efficient way of using resources to permit sustained longevity of Chinese society. The
Circular Economy Policy has already begun to address this issue by enforcing repeated analysis and reuse throughout a product's entire
life cycle. To solve this problem, first of all, China will improve to promote the progress of science and technology and business management and improve labor efficiency. The second is to guide enterprises to optimize the combination of production factors following market needs and achieve the interface between production and demand. Thirdly the government will allow competition and the mechanism of eliminating winners and losers among enterprises to enhance the ability to produce and operate goods. Last but not least, the Chinese government plans modern urban centers in completely different areas. A modern framework includes open transportation, water supply, and distinctive private regions and mechanical regions dissemination. First-world and developed countries, such as some parts of China, often seek to grow exponentially in economic productivity and consumerism, but this exponential growth must be matched with an exponential drop in resource consumption that may be achieved through an integrated system approach. This systematic approach of incorporating consumerist and lifestyle changes on many societal levels, reflects the systematic dynamic of sustainable urban infrastructure. By treating sustainability as a function of interconnected systems (e.g. transportation, land development, community formation, etc.), the impact of any change in one system can be amplified without causing a sector of infrastructure to singularly fail.
Indonesia The redevelopment of North
Jakarta was the subject of a 2012 project to evaluate the effectiveness of implementing sustainable design, as well as public knowledge about the benefits of such design. City areas along the coast particularly suffer from large socioeconomic gaps, high density slums, and poor development planning. Results from the
Structural Equations Model (SEM) revealed that, although sustainable redesigning would help uplift coastal areas, public efficacy towards sustainable urban infrastructure was lacking significantly. Public surveys conducted in Jakarta emphasized the following priorities: • land use • public transportation • built space • open space • network infrastructure and waste • energy • hydrology • air and sun By applying sustainable technology and methods to these components of infrastructure, the government seeks to reinvigorate the socioeconomic wellbeing of North Jakarta. However, in order to effectively create a wholly resilient society, the project stresses that the design process must be shared between government initiatives, the commercial sector, and public opinion. This mutual relationship is reflected in the project philosophy, which viewed cities as an
ecosystem of the aforementioned priorities shared effectively among different levels of society in order to thrive. One of the biggest challenges faced when implementing sustainable design is expected to be the quantification of future operational costs and maintenance, which are ideally offset by the benefits of increased sustainability. Currently, GIB has developed, in cooperation with the French bank
Natixis, the SuRe® Standard – The Standard for Sustainable and Resilient Infrastructure, which is a global voluntary ISEAL standard. GIB has also developed the SuRe® SmartScan, a simplified version of the SuRe® Standard that serves as a self-assessment tool for sustainable infrastructure projects. It provides project developers with a comprehensive analysis of the various themes covered by the SuRe® Standard, offering a solid foundation for green infrastructure projects that are planning to become certified by the SuRe® Standard. ==Infrastructural aspects==