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Engineering sciences. Technology --- Environmental protection. Environmental technology --- Sustainable engineering --- Environmental engineering --- Environmental engineering. --- Sustainable engineering. --- Engineering sustainability --- Green engineering --- Environmental control --- Environmental effects --- Environmental stresses --- Engineering --- Environmental health --- Environmental protection --- Pollution --- Green technology --- Environmental Engineering
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Environmental engineering --- Civil engineering --- Civil engineering. --- Environmental engineering. --- Environmental control --- Environmental effects --- Environmental stresses --- Engineering --- Environmental health --- Environmental protection --- Pollution --- Sustainable engineering --- Public works --- Engineering - General
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Air quality --- Soil science --- Water quality --- Conservation of natural resources --- Agricultural conservation --- Research --- Environmental Engineering
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Water-supply --- Water resources development --- Water quality management --- Environmental policy --- Environmental Engineering
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Environmental protection. --- Environmental protection --- Environnement --- Periodicals. --- Protection --- Périodiques --- Environmental quality management --- Protection of environment --- environmental engineering --- environmental protection --- environmental chemistry --- air pollution --- water and soil pollution --- bioremediation --- Environmental sciences --- Applied ecology --- Environmental engineering --- Environmental policy --- Environmental quality
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Earth Sciences --- Engineering --- Engineering Geology --- Hydrology --- Environmental Engineering --- Engineering geology --- Hydrogeology --- Geology --- Environmental geology --- Water-supply --- Géologie appliquée --- Hydrogéologie
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Hiroshi Komiyama's "Vision 2050" is a plan for paving a road to global sustainability. It lays out a path to a sustainable future for humanity that could realistically be achieved by 2050 through the application of science and technology. A prominent Japanese academic and leader in global sustainability, Komiyama draws upon realistic assumptions and solid scientific concepts to create a vision that makes the living standards enjoyed by developed countries today possible for all people by 2050. "Vision 2050" is built upon three fundamental principles – increased energy efficiency, recycling, and development of renewable energy sources – and the book argues for the technological potential of all three. Specifically, Komiyama envisions a three-fold increase in overall energy efficiency and a doubling of renewable energy resources by 2050. "Vision 2050: Roadmap for a Sustainable Earth" is written to address the concerned citizen as well as to inspire an exchange of ideas among experts, policy makers, industrial leaders, and the general public.
Sustainable development. --- Sustainable engineering. --- Development, Sustainable --- Ecologically sustainable development --- Economic development, Sustainable --- Economic sustainability --- ESD (Ecologically sustainable development) --- Smart growth --- Sustainable development --- Sustainable economic development --- Economic development --- Environmental aspects --- Engineering sustainability --- Green engineering --- Engineering --- Green technology --- Environmental engineering --- Biotechnology. --- Sustainable Development. --- Environmental Engineering/Biotechnology. --- Chemical engineering --- Genetic engineering --- Environmental engineering. --- Environmental control --- Environmental effects --- Environmental stresses --- Environmental health --- Environmental protection --- Pollution --- Sustainable engineering
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Our planet's resources are finite, and the engineer's work must take this fact into account. Sustainable elements should be foremost at every stage of a building s design, including the façade, building technology, lighting, rainwater use, as well as heating and ventilation strategies. The international, multi-disciplinary engineering firm Buro Happold has been active in sustainable and environmental engineering design for thirty years and has earned a reputation for expertise and excellence in this field. This book introduces the work of the firm, presenting selected projects with a wide range of constructional detail. Included are the roof of the Queen Elizabeth II courtyard of the British Museum (with Foster and Partners), the Millennium Dome in London (with Richard Rogers), and the Wessex Water Headquarters in Bath. The firm focuses on realizing ideas in an ecologically sensible way and developing solutions from a long-term perspective. Die Ressourcen unseres Planeten sind endlich, und die Arbeit des Ingenieurs muss dem Rechnung tragen. Die ökologische Planung kann sich in vielen Gebäudeaspekten wiederspiegeln: Fassade, Gebäudetechnik, Belichtung, Regenwassernutzung oder Energiekonzept.Das britische Ingenieurbüro Buro Happold ist seit langen Jahren im Bereich der ökologischen Planung tätig und hat sich damit weltweit einen Namen gemacht. Dieses Buch stellt die Arbeit des Büros vor und zeigt ausgewählte Projekte mit zahlreichen konstruktiven Details. Zu den dargestellten Arbeiten gehören die Überdachung des Innenhofs im British Museum (mit Foster and Partners), der Millennium Dome in London (mit Richard Rogers) oder das Wessex Water Headquarters in Bath. Das Augenmerk liegt dabei auf der ökologisch sinnvollen Umsetzung des konstruktiven Konzepts und dessen Beurteilung über einen längeren Zeitraum. The international, multi-disciplinary engineering firm Buro Happold has been active in sustainable and environmental engineering design for thirty years and has earned a reputation for expertise and excellence in this field. This book introduces the work of the firm, presenting selected projects with a wide range of constructional detail.
Sustainable buildings --- Sustainable architecture. --- Buildings --- Design and construction. --- Environmental engineering. --- Environmental engineering (Buildings) --- Eco-architecture --- Environmentally conscious architecture --- Environmentally friendly architecture --- Green architecture --- Green building design --- Green design (Buildings) --- Sustainable design (Buildings) --- Ecologically sustainable design (Buildings) --- Environmentally sustainable design (Buildings) --- ESD design (Buildings) --- Environmental engineering --- Architecture --- Sanitary engineering --- Sustainable design --- Human factors
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Indoor air pollution --- Air quality management --- Buildings --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Environmental Engineering --- Edifices --- Halls --- Structures --- Architecture --- Air --- Air pollution control --- Air quality --- Control of air pollution --- Environmental protection --- Sick building syndrome --- Environmental engineering --- Pollution --- Control --- Management --- Pollution, Indoor --- Built environment
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