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001433812 001__ 1433812
001433812 003__ OCoLC
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001433812 020__ $$a9783030662110$$q(electronic bk.)
001433812 020__ $$a303066211X$$q(electronic bk.)
001433812 020__ $$z3030662101
001433812 020__ $$z9783030662103
001433812 0247_ $$a10.1007/978-3-030-66211-0$$2doi
001433812 035__ $$aSP(OCoLC)1237379839
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001433812 049__ $$aISEA
001433812 050_4 $$aTJ163.5.B84$$bZ45 2021
001433812 08204 $$a696$$223
001433812 1001_ $$aZhivov, Alexander M.,$$eauthor.
001433812 24510 $$aDeep energy retrofit - a guide for decision makers /$$cAlexander Zhivov, Rüdiger Lohse.
001433812 264_1 $$aCham, Switzerland :$$bSpringer,$$c[2021]
001433812 300__ $$a1 online resource
001433812 336__ $$atext$$btxt$$2rdacontent
001433812 337__ $$acomputer$$bc$$2rdamedia
001433812 338__ $$aonline resource$$bcr$$2rdacarrier
001433812 347__ $$atext file
001433812 347__ $$bPDF
001433812 4901_ $$aSpringerBriefs in applied sciences and technology
001433812 504__ $$aIncludes bibliographical references.
001433812 5050_ $$aChapter 1. Introduction -- Chapter 2. Deep Energy Retrofit In Public Buildings -- Chapter 3. What Is Deep Energy Retrofit? -- Chapter 4. Deep Energy Retrofit vs Shallow Renovation -- Chapter 5. Major Renovation And Deep Energy Retrofit -- Chapter 6. Product Delivery Quality Assurance Process -- Chapter 7. How To Make Der Cost Effective? -- Chapter 8. Business Models For Der -- Chapter 9. Der Financing -- Chapter 10. Lessons Learned From Pilot Projects -- Chapter 11. Conclusions -- References -- Acronyms and Abbreviations.
001433812 506__ $$aAccess limited to authorized users.
001433812 520__ $$aMany governments worldwide are setting more stringent targets for reductions in energy use in government/public buildings. Buildings constructed more than 10 years ago account for a major share of energy used by the building stock. However, the funding and know-how applied knowledge) available for owner-directed energy retrofit projects has not kept pace with new requirements. With typical retrofit projects, reduction of energy use varies between 10 and 20%, while actual executed renovation projects show that energy use reduction can exceed 50%, and can cost-effectively achieve the Passive House standard or even approach net zero-energy status (EBC Annex 61 2017a, Hermelink and Muller 2010; NBI 2014; RICS 2013; Shonder and Nasseri 2015; Miller and Higgins 2015; Emmerich et al. 2011). Building energy efficiency (EE) ranks first in approaches with resource efficiency potential with a total resource benefit of approximately $700 billion until 2030. EE is by far the cheapest way to cut CO2 emissions (McKinsey 2011, IPCC 2007). However, according to an IEA study (IEA 2014a), more than 80% of savings potential in building sector remains untapped. Thus, the share of deployed EE in the building sector is lower than in the Industry, Transport, and Energy generation sectors. Estimates for the deep renovation potentials show: 600-900bn investment potential, 1000-1300bn savings potential, 70% energy-saving potential, and 90% CO2 reduction potential.
001433812 588__ $$aOnline resource; title from digital title page (viewed on March 15, 2021).
001433812 650_0 $$aBuildings$$xEnergy conservation.
001433812 650_0 $$aBuildings$$xRetrofitting.
001433812 650_6 $$aConstructions$$xÉconomies d'énergie.
001433812 650_6 $$aConstructions$$xAmélioration.
001433812 655_0 $$aElectronic books.
001433812 7001_ $$aLohse, Rüdiger,$$eauthor.
001433812 77608 $$iPrint version:$$aZhivov, Alexander M.$$tDeep energy retrofit - a guide for decision makers.$$dCham, Switzerland : Springer, [2021]$$z3030662101$$z9783030662103$$w(OCoLC)1223067459
001433812 830_0 $$aSpringerBriefs in applied sciences and technology.
001433812 852__ $$bebk
001433812 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-3-030-66211-0$$zOnline Access$$91397441.1
001433812 909CO $$ooai:library.usi.edu:1433812$$pGLOBAL_SET
001433812 980__ $$aBIB
001433812 980__ $$aEBOOK
001433812 982__ $$aEbook
001433812 983__ $$aOnline
001433812 994__ $$a92$$bISE