zero-energy; neighbourhood; community; buildings; mobility; renewable energy; urban form; building stock; retroffiting; energy mutualisation
Abstract :
[en] Zero-energy buildings (ZEBs) are attracting increasing interest internationally in policies aiming at a more sustainably built environment, the scientific literature and practical applications. Although “zero energy” can be considered at different scales (e.g., community, city), the most common approach adopts only the perspective of the individual building. Moreover, the feasibility of this objective is not really addressed, especially as far as the retrofitting of the existing building stock is concerned. Therefore, this paper aims first to investigate the opportunity to extend the “zero-energy building” concept to the neighbourhood scale by taking into account two main challenges: (1) the impact of urban form on energy needs and the on-site production of renewable energy and (2) the impact of location on transportation energy consumption. It proposes a simplified framework and a calculation method that is then applied to two representative case studies (one urban neighbourhood and one rural neighbourhood) to investigate the feasibility of zero-energy in existing neighbourhoods. The main parameters that act upon the energy balance are identified. The potential of “energy mutualisation” at the neighbourhood scale is highlighted. This paper thereby shows the potentialities of an integrated approach linking transportation and building energy consumptions.
Research Center/Unit :
Lepur : Centre de Recherche sur la Ville, le Territoire et le Milieu rural - ULiège LEMA
Disciplines :
Energy Architecture
Author, co-author :
Marique, Anne-Françoise ; Université de Liège - ULiège > Département Argenco : Secteur A&U > Urbanisme et aménagement du territoire
Reiter, Sigrid ; Université de Liège - ULiège > Département Argenco : Secteur A&U > Urbanisme et aménagement du territoire
Language :
English
Title :
A simplified framework to assess the feasibility of zero-energy at the neighbourhood / community scale
Publication date :
2014
Journal title :
Energy and Buildings
ISSN :
0378-7788
eISSN :
1872-6178
Publisher :
Elsevier Science
Volume :
82
Pages :
114-122
Peer reviewed :
Peer Reviewed verified by ORBi
Name of the research project :
Solutions for Low Energy Neighbourhoods
Funders :
DGATLP - Région wallonne. Direction générale de l'Aménagement du Territoire, du Logement et du Patrimoine
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Bibliography
EC, Technical guidance, Financing the Energy Renovation of Buildings with Cohesion Policy Funding, European Commission, Directorate-General for Energy, 2014.
UNEP, Buildings and Climate Change, Summary for decision-makers, United Nation Environment Programme, 2009.
IEA, Modernising Building Energy Codes to Secure our Global Energy Future, International Energy Agency, 2013.
EPBD, Directive 2001/91/EC of the European Parliament and of the Council of 16 December 2002 on the Energy Performance of Buildings, Brussels, 2002.
L. Müller, and T. Berker Passive house at the crossroads: the past and the present of a voluntary standard that managed to bridge the energy efficiency gap Energy Policy 60 2013 586 593
W. Feist, J. Schnieders, V. Dorer, and A. Haas Re-inventing air heating: convenient and comfortable within the frame of the passive house concept Energy and Buildings 37 2005 1186 1203 (Pubitemid 41329160)
J. Schnieders, and A. Hermelink CEPHEUS results: measurements and occupants' satisfactions provide evidence for Passive Houses being an option for sustainable building Energy Policy 34 2006 151 171 (Pubitemid 41283431)
I. Sartori, A. Napolitano, and K. Voss Net zero energy buildings: a consistent definition framework Energy and Buildings 48 2012 220 232
K. Voss, E. Musall, and M. Lichtmeb From low energy to net zero-energy buildings: status and perspectives Journal of Green building 6 1 2011 46 57
S. Pless, and P. Torcellini Zero Energy Buildings: A Classification System Based on Renewable Energy Supply Options 2010 National Renewable Energy Laboratory Golden, CO Report NREL/TP-550-44586
A.J. Marszal, P. Heiselberg, J.S. Bourrelle, E. Musall, K. Voss, I. Sartori, and A. Napolitano Zero energy buildings - a review of definitions and calculations methodologies Energy and Buildings 43 2011 971 979
M. Panagiotidou, and R.J. Fuller Progress in ZEBs - a review of definitions, policies and construction activity Energy Policy 62 2013 196 206
M. Pacheco, and R. Lamberts Assessment of technical and economical viability for large-scale conversion of single family residential buildings into zero energy buildings in Brazil: climatic and cultural considerations Energy Policy 63 2013 716 725
EPBD, Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010 on the energy performance of buildings, http://eur-lex.europa.eu/ LexUriServ/LexUriServ.do? uri=OJ:L: 2010:153:0013:0035:EN:PDF (accessed December 2013).
A. Mohamed, A. Hasan, and K. Sirén Fulfillment of net-zero energy building (NZEB) with four metrics in a single family house with different heating alternatives Applied Energy 114 2014 385 399
K. Voss, and E. Musall Net Zero Energy Buildings. International Projects of Carbon Neutrality in Buildings 2011 Institut für international Architecktur-Dokumentation, GmbH & CO.KG Munich
R.S. Srinivasan, W.W. Braham, D.E. Campbell, and C.D. Curcija Re(De)fining net zero energy: renewable emergy balance in environmental building design Building and Environment 47 2011 300 315
N. Carlisle, O. Van Geet, and S. Pless Definition of a "Zero Net Energy" Community 2009 National Renewable Energy Laboratory Golden, Colorado Technical Report NREL/TP-7A2-46065
S. Attia, E. Gratia, A. De Herde, and J.L.M. Hensen Simulation-based decision support tool for early stages of zero-energy building design Energy and Buildings 49 2012 2 15
Energy Independence and Security Act of 2007, Available from: http://www.gpo.gov/fdsys/pkg/PLAW-110publ140/html/PLAW-110 publ140.htm (accessed October 2013).
Net Zero Energy Buildings Database, 2012. Available from: http://iea40.buildinggreen.com/ (accessed October 2013).
K.F. Fong, and C.K. Lee Towards net zero energy design for low-rise residential buildings in subtropical Hong Kong Applied Energy 93 2012 686 694
N. Baker, and K. Steemers Energy and Environment in Architecture 2000 E&FN Spon London
C. Ratti, N. Baker, and K. Steemers Energy consumption and urban texture Energy and Buildings 37 2005 762 776 (Pubitemid 40537197)
K. Steemers Energy and the city: density, buildings and transport Energy and Buildings 35 2003 3 14 (Pubitemid 35384452)
R. Compagnon Solar and daylight availability in the urban fabric Energy and Buildings 36 2004 321 328
C. Hachem, A. Athienitis, and P. Fazio Evaluation of energy supply and demand in solar neighborhood Energy and Buildings 49 2012 335 347
J.H. Kampf, M. Montavon, J. Bunyesc, R. Bolliger, and D.D. Robinson Optimisation of buildings' solar irradiation availability Solar Energy 84 2010 596 603
J. Burch, J. Woods, E. Kozubal, and A. Boranian Zero energy communities with central solar plants using liquid desiccants and local storage Energy Procedia 30 2012 55 64
C. Hachem, A. Athienitis, and P. Fazio Evaluation of energy supply and demand in solar neighbourhood Energy and Buildings 49 2012 335 347
P. Newman, and K. Kenworthy Gasoline consumption and cities - a comparison of UK cities with a global survey Journal of the American Planning Association 55 1989 24 37
D. Banister Energy use transport and settlement patterns M. Breheny, Sustainable Development and Urban Form 1992 Pion Ltd. London 160 181
P. Naess, S. Sandberg, and P.G. Roe Energy use for transportation in 22 nordic towns Scandinavian Housing and Planning Research 13 1996 79 97
M. Boarnet, and R. Crane Travel by Design. The Influence of Urban form on Travel 2001 Oxford University Press New-York
A.F. Marique, S. Dujardin, J. Teller, and S. Reiter School commuting: the relationship between energy consumption and urban form Journal of Transport Geography 26 2013 1 11
N. Codoban, and C.A. Kennedy Metabolism of neighbourhoods Journal of Urban Planning Development 134 2008 21 31
A.F. Marique, and S. Reiter A Method to Evaluate the Energy Consumption of Suburban Neighbourhoods HVAC&R Research 18 1-2 2012 88 99
S. Reiter, and A.F. Marique Toward low energy cities: a case study of the urban area of Liège Journal of Industrial Ecology 16 6 2012 829 838
S. Kennedy, and S. Sgouridis Rigorous classification and carbon accounting principles for low and zero carbon cities Energy Policy 39 2011 5259 5268
M. Todorovic BPS, energy efficiency and renewable energy sources for buildings greening and zero energy cities planning Energy and Buildings 48 2012 180 189
A. Sharifi, and A. Murayama A critical review of seven selected neighbourhood sustainability assessment tools Environmental Impact Assessment Review 38 2013 73 87
STAR Community Rating System, version 1.0 (2012), Available from: https://www.starcommunities.org/uploads/rating-system.pdf (accessed February 2014).
http://www.usgbc.org/neighborhoods, 2014 (accessed February 2014).
BREEAM, http://www.breeam.org/page.jsp?id=372, 2014 (accessed February 2014).
HQE2R, http://www.suden.org/fr/projets-europeens/hqe2r/, 2014 (accessed February 2014).
CASBEE for Urban Development, Technical Manual 2007 edition, Institute for Building Environment and Energy Conservation, 2007.
K. Glaiser, and P. Stroeve The impact of scheduling appliances and rate structure on bill savings for net-zero energy communities: application to the West Village Applied Energy 113 2014 1586 1595
S.M. Wheeler, R.B. Segar, Chapter 12 - zero net energy at a community scale: UC Davis West village, Energy efficiency, Towards the end of demand growth, 2013, pp. 305-324.
A.F. Marique, and S. Reiter Towards more sustainable neighbourhoods: are good practices reproducible and extensible? M. Bodard, A. Evrard, Proceedings of International Conference PLEA 2011 2011 Presses Universitaires de Louvain Louvain 27 32
K. Boussauw, and F. Witlox Introducing a commute-energy performance index for Flanders Transportation Research Part A 43 5 2009 580 591
A.F. Marique, and S. Reiter A method for evaluating transport energy consumption in suburban areas Environmental Impact Assessment Review 33 2012 1 6
Merenne-Schoumaker (Eds.), M. Beelen, J.M. Halleux, J.M. Lambotte, G. Rixhon, Le mouvement pendulaire en Belgique: les déplacements domicile-travail, les déplacements domicile-école. Enquête Socio-économique 2001. Monographies (n 10) (Traduit en néerlandais), Belgique: SPF Economie, PME, Classes moyennes et Energie, Bruxelles, 2009.
J. Teller, and S. Azar Townscope II - a computer system to support solar access decision-making Solar Energy 70 2001 187 200 (Pubitemid 32333801)
A.F. Marique, T. de Meester, S. Reiter, Energy requirements and solar availability in suburban areas: the influence of built density in an existing district, in: Proceedings of the International Conference Clean Tech for sustainable buildings, From nano to urban scale, Lausanne, 2011, pp. 925-930.
http://re.jrc.ec.europa.eu/pvgis/countries/countries-europe.htm (accessed December 2013).
http://www.ef4.be/fr/photovoltaique/aspects-techniques/ orientation-structure.html (accessed December 2013).
M. Pétel, Le projet de recherche SAFE: Stage Etude et Recherche: efficacité énergétique des bâtiments et production solaire photovoltaïque. ULg report, Liege, 2011.
Les Compagnons d'Eole, APERe, Vents d'Houyet, E.R.B.E., Vade Mecum pour l'implantation des éoliennes de faible puissance en Wallonie. SPW-DGO4, Jambes, 2012.
A.-F. Marique Méthodologie d'évaluation énergétique des quartiers périurbains. Perspectives pour le renouvellement périurbain wallon 2013 University of Liege Liege Unpublished doctoral thesis
P. Hoes, J.L.M. Hensen, M.G.L.C. Loomans, B. de Vries, and D. Bourgeois User behavior in whole building simulation Energy and Buildings 41 2009 295 302
R. Haas, H. Auer, and P. Biermayr The impact of consumer behavior on residential energy demand for space heating Energy and Buildings 27 2 1998 195 205 (Pubitemid 128378515)
T. de Meester, A.F. Marique, A. De Herde, and S. Reiter Impacts of occupant behaviours on residential heating consumption for detached houses in a temperate climate of the northern part of Europe Energy and Buildings 57 2013 313 323
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