Search results
Results From The WOW.Com Content Network
Energy storage helps overcome barriers to intermittent renewable energy and is an important aspect of a sustainable energy system. [154] The most commonly used and available storage method is pumped-storage hydroelectricity , which requires locations with large differences in height and access to water. [ 154 ]
Sustainable urban design and innovation: Photovoltaic ombrière SUDI is an autonomous and mobile station that replenishes energy for electric vehicles using solar energy. Sustainable engineering is the process of designing or operating systems such that they use energy and resources sustainably, in other words, at a rate that does not ...
It involves the application of science and technology in the process of addressing environmental challenges through environmental conservation and the mitigation of human impact to the environment. The term is sometimes also used to describe sustainable energy generation technologies such as photovoltaics, wind turbines, etc. [citation needed]
Life cycle engineering is defined in the CIRP Encyclopedia of Production Engineering as: "the engineering activities which include the application of technological and scientific principles to manufacturing products with the goal of protecting the environment, conserving resources, encouraging economic progress, keeping in mind social concerns, and the need for sustainability, while optimizing ...
Clean technology includes a broad range of technology related to recycling, renewable energy, information technology, green transportation, electric motors, green chemistry, lighting, grey water, and more. Environmental finance is a method by which new clean technology projects can obtain financing through the generation of carbon credits.
Techno-economic assessment or techno-economic analysis (abbreviated TEA) is a method of analyzing the economic performance of an industrial process, product, or service. The methodology originates from earlier work on combining technical, economic and risk assessments for chemical production processes. [ 1 ]
The outcome of this initiative was the Energy Technology Perspectives, first published in 2006. [1] Energy Technology Perspectives (ETP) provides a long-term outlook on the global energy system, presenting main results up to the year 2050. The 2012 edition extended the analysis to include scenarios up to 2075.
More than 200 Stanford University faculty members are involved in the program. With students, technicians and others who are actively engaged at the tasks at hand, Stanford's Global Climate and Energy Project focuses on traditional issues like renewable energy, fossils and nuclear energy, energy storage, grid modernization and its environmental impact.