A systematic approach for major renovation of residential buildings

In Sweden, buildings are responsible for about 40 % of total energy use and about 10 % of total CO2 emissions Today more than 60 % of existing Swedish residential buildings are over 40 years old an ...

[1]  Kristian Fabbri,et al.  Heritage buildings and energy performance: Mapping with GIS tools , 2012 .

[2]  Donatien Njomo,et al.  Thermal comfort: A review paper , 2010 .

[3]  Giuseppe Peter Vanoli,et al.  Rehabilitation of the building envelope of hospitals: Achievable energy savings and microclimatic control on varying the HVAC systems in Mediterranean climates , 2013 .

[4]  Svend Svendsen,et al.  Method and simulation program informed decisions in the early stages of building design , 2010 .

[5]  Godfried Augenbroe,et al.  Analysis of uncertainty in building design evaluations and its implications , 2002 .

[6]  Stefano Paolo Corgnati,et al.  Predicted and actual indoor environmental quality: Verification of occupants' behaviour models in residential buildings , 2016 .

[7]  Wei Tian,et al.  A review of sensitivity analysis methods in building energy analysis , 2013 .

[8]  Søren Østergaard Jensen,et al.  Validation of building energy simulation programs: a methodology , 1995 .

[9]  Bahram Moshfegh,et al.  A Low-Energy Building Project in Sweden – the Lindås Pilot Project , 2013 .

[10]  Fredrik Berg Categorising a historic building stock - an interdisciplinary approach , 2015 .

[11]  Soolyeon Cho,et al.  Energy efficiency and thermal comfort in historic buildings: A review , 2016 .

[12]  Uta Hassler,et al.  Alternative scenarios for energy conservation in the building stock , 2012 .

[13]  Yu Joe Huang,et al.  A Bottom-Up Engineering Estimate of the Aggregate Heating and Cooling Loads of the Entire U.S. Building Stock , 2000 .

[14]  Niccolò Aste,et al.  ENERGY RETROFIT OF HISTORICAL BUILDINGS: AN ITALIAN CASE STUDY , 2012 .

[15]  Marta Braulio-Gonzalo,et al.  A methodology for predicting the energy performance and indoor thermal comfort of residential stocks on the neighbourhood and city scales. A case study in Spain , 2016 .

[16]  N. Boschi,et al.  European project HOPE (Health Optimization Protocol for Energy-efficient Buildings) , 2003 .

[17]  P. Höppe Different aspects of assessing indoor and outdoor thermal comfort , 2002 .

[18]  Ian Hamilton,et al.  Energy and urban built form: an empirical and statistical approach , 2014 .

[19]  Emily M. Ryan,et al.  Validation of building energy modeling tools under idealized and realistic conditions , 2012 .

[20]  Mathias Cehlin,et al.  Visualization of Air Flow, Temperature and Concentration Indoors : Whole-field measuring methods and CFD , 2006 .

[21]  H. Brattebø,et al.  Analysis of energy and carbon flows in the future Norwegian dwelling stock , 2012 .

[22]  Marianna Rotilio,et al.  Improving the energy-efficiency of historic masonry buildings. A case study: A minor centre in the Abruzzo region, Italy , 2014 .

[23]  Stig-Inge Gustafsson,et al.  Mixed integer linear programming and building retrofits , 1998 .

[24]  Tianzhen Hong,et al.  Advances in research and applications of energy-related occupant behavior in buildings ☆ , 2016 .

[25]  Tor Broström,et al.  A method to assess the effect of energy saving interventions in the Swedish stock of historic buildings , 2012 .

[26]  Filip Johnsson,et al.  Energy usage and technical potential for energy saving measures in the Swedish residential building stock , 2013 .

[27]  Bahram Moshfegh,et al.  Investigation of energy performance of newly built low-energy buildings in Sweden , 2011 .

[28]  Giuseppina Ciulla,et al.  Annual heating energy requirements of office buildings in a European climate , 2016 .

[29]  Ove Mørck,et al.  Energy consumption in an old residential building before and after deep energy renovation , 2015 .

[30]  Paul Raftery,et al.  Calibrating whole building energy models: An evidence-based methodology , 2011 .

[31]  Rebecca Hallberg Inomhusmiljöproblem i fuktiga byggnader : En utredning av åtgärder vid fuktrelaterade inomhusmiljöproblem , 2014 .

[32]  Donghwan Lee,et al.  Optimization of Energy Consumption Using BIM-Based Building Energy Performance Analysis , 2013 .

[33]  Bahram Moshfegh,et al.  Experiences from nine passive houses in Sweden – Indoor thermal environment and energy use , 2014 .

[34]  V. Ismet Ugursal,et al.  Modeling of end-use energy consumption in the residential sector: A review of modeling techniques , 2009 .

[35]  Qing-Shan Jia,et al.  Performance Analysis and Comparison on Energy Storage Devices for Smart Building Energy Management , 2012, IEEE Transactions on Smart Grid.

[36]  Alo Mikola,et al.  Case-study analysis of concrete large-panel apartment building at pre- and post low-budget energy-renovation , 2016 .

[37]  Anne Grete Hestnes,et al.  Energy demand in the Norwegian building stock: Scenarios on potential reduction , 2009 .

[38]  J. O. Dalenbäck Solar heating using roof module collectors - Examples from new and existing building areas , 2006 .

[39]  Bahram Moshfegh,et al.  Indoor Environment and Energy Use in Historic Buildings - Comparing Survey Results with Measurements and Simulations , 2012 .

[40]  Simone Ferrari,et al.  A supporting method for defining energy strategies in the building sector at urban scale , 2013 .

[41]  Andreas Molin,et al.  How passive are your activities? An interdisciplinary comparative energy analysis of passive and conventional houses in Linköping , 2009 .

[42]  Greg Energy Efficiency directive consultation paper - Utility Regulator , 2015 .

[43]  Stig-Inge Gustafsson Optimal fenestration retrofits by use of MILP programming technique , 2001 .

[44]  Sevastianos Mirasgedis,et al.  European residential buildings and empirical assessment of the Hellenic building stock, energy consumption, emissions and potential energy savings , 2007 .

[45]  J. Kipling CHAPTER 2 – Experimental Methods , 1965 .

[46]  Tim Johansson,et al.  Energy performance certificates and 3-dimensional city models as a means to reach national targets A case study of the city of Kiruna , 2016 .

[47]  Jan Sundell,et al.  Indoor Air Humidity And Sensation Of Dryness As Risk Indicators Of Sbs , 1993 .

[48]  T. Hall,et al.  The Million Homes Programme: a review of the great Swedish planning project , 2005 .

[49]  Holly Wasilowski Samuelson,et al.  Parametric Energy Simulation in Early Design: High-Rise Residential Buildings in Urban Contexts , 2016 .

[50]  Andreas Uihlein,et al.  Policy options towards an energy efficient residential building stock in the EU-27 , 2010 .

[51]  Rick Diamond,et al.  Evaluating the energy performance of the first generation of LEED-certified commercial buildings , 2006 .

[52]  Wiktoria Glad,et al.  Low-energy buildings – scientific trends and developments , 2010 .

[53]  Ambrose Dodoo,et al.  Cost-optimum analysis of building fabric renovation in a Swedish multi-story residential building , 2014 .

[54]  Y. Shimoda,et al.  Residential end-use energy simulation at city scale , 2004 .

[55]  Olli Seppänen,et al.  Effect of temperature on task performance in office environment - eScholarship , 2006 .

[56]  Paula Femenias,et al.  Two Case Studies in Energy-Efficient Renovation of Multi-family Housing: Explaining Robustness as a Characteristic to Assess Long-Term Sustainability , 2013 .

[57]  R. Yin,et al.  Case Study Research: Design and Methods (4th ed. , 2009 .

[58]  Juha Jokisalo,et al.  Cost-effectiveness of energy performance renovation measures in Finnish brick apartment buildings , 2017 .

[59]  Pierluigi De Berardinis,et al.  PV Integration in Minor Historical Centers: Proposal of Guide-criteria in Post-earthquake Reconstruction Planning☆ , 2014 .

[60]  Dejan Mumovic,et al.  Uncertainty and modeling energy consumption: Sensitivity analysis for a city-scale domestic energy model , 2013 .

[61]  Eir Grytli,et al.  The Impact of Energy Improvement Measures on Heritage Buildings , 2012 .

[62]  Roger Flanagan,et al.  Life cycle costing and risk management , 1987 .

[63]  Catarina Warfvinge,et al.  Projektering av VVS-installationer , 2010 .

[64]  Simon Harvey,et al.  Scenarios for assessing profitability and carbon balances of energy investments in industry , 2010 .

[65]  Pernilla Gluch,et al.  Acceptance and Use of LCC as a Decision Support Tool for Renovation Investments , 2015 .

[66]  Pernilla Gluch,et al.  The life cycle costing (LCC) approach: a conceptual discussion of its usefulness for environmental decision-making , 2004 .

[67]  Jan Hensen,et al.  A new methodology for investigating the cost-optimality of energy retrofitting a building category , 2015 .

[68]  Petra Eriksson,et al.  EFFESUS Methodology for Assessing the Impacts of Energy-Related Retrofit Measures on Heritage Significance , 2014 .

[69]  Pertti Pasanen,et al.  Primary energy performance and perceived indoor environment quality in Finnish low-energy and conventional houses , 2015 .

[70]  Ulla Janson Passive houses in Sweden - Experiences from design and construction , 2008 .

[71]  Niklaus Kohler,et al.  Building age as an indicator for energy consumption , 2015 .

[72]  Ove Mørck,et al.  Energy consumption and indoor climate in a residential building before and after comprehensive energy retrofitting , 2016 .

[73]  Guy R. Newsham,et al.  Do LEED-certified buildings save energy? Yes, but ... , 2009 .

[74]  Clas Wahlbin,et al.  Information för marknadsföringsbeslut , 2001 .

[75]  Iva Kovacic,et al.  Building life cycle optimization tools for early design phases , 2015 .

[76]  Tor Broström,et al.  A Method to Assess the Potential for and Consequences of Energy Retrofits in Swedish Historic Buildings , 2014 .

[77]  Mathias Cehlin,et al.  Measurements of air temperatures close to a low-velocity diffuser in displacement ventilation using an infrared camera , 2002 .

[78]  Fredrik Karlsson,et al.  Indoor climate in low-energy houses : an interdisciplinary investigation , 2006 .

[79]  Stig-Inge Gustafsson,et al.  Optimisation and simulation of building energy systems , 2000 .

[80]  Anne Power,et al.  Does demolition or refurbishment of old and inefficient homes help to increase our environmental, social and economic viability? , 2008 .

[81]  J. Minx,et al.  Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change , 2014 .

[82]  Bahram Moshfegh,et al.  Evaluating indoor environment of a retrofitted multi-family building with improved energy performance in Sweden , 2015 .

[83]  Timothy L. Hemsath,et al.  Sensitivity analysis evaluating basic building geometry's effect on energy use , 2015 .

[84]  M. Sherman Tracer-gas techniques for measuring ventilation in a single zone , 1990 .

[85]  Fredrik Karlsson,et al.  Multi-dimensional approach used for energy and indoor climate evaluation applied to a low-energy building , 2006 .

[86]  Mattheos Santamouris,et al.  A holistic approach for the assessment of the indoor environmental quality, student productivity, and energy consumption in primary schools , 2015, Environmental Monitoring and Assessment.

[87]  Sture Holmberg,et al.  A methodology to assess energy-demand savings and cost effectiveness of retrofitting in existing Swedish residential buildings , 2015 .

[88]  A. Jiboye Significance of house-type as a determinant of residential quality in Osogbo, Southwest Nigeria , 2014 .

[89]  Tove Malmqvist,et al.  An approach towards sustainable renovation-A tool for decision support in early project stages , 2016 .

[90]  Dagnija Blumberga,et al.  Thermal insulation alternatives of historic brick buildings in Baltic Sea Region , 2014 .

[91]  Vlatko Milić Energy Renovation of an Historic Town Using Life Cycle Cost Optimization : An Assessment of Primary Energy Use and CO2 Emissions , 2016 .

[92]  Göran Berndes,et al.  Bioenergy expansion in the EU: Cost-effective climate change mitigation, employment creation and reduced dependency on imported fuels , 2007 .

[93]  Taehoon Hong,et al.  Development of a prediction model for the cost saving potentials in implementing the building energy efficiency rating certification , 2017 .

[94]  Enno Abel,et al.  Buildings and Energy - a systematic approach , 2007 .

[95]  Bahram Moshfegh,et al.  Energy demand and indoor climate in a low energy building—changed control strategies and boundary conditions , 2006 .

[96]  Alsmyr Thomas Injustering och optimering av värmesystem i befintlig fastighet , 2014 .

[97]  Paul Raftery,et al.  A review of methods to match building energy simulation models to measured data , 2014 .

[98]  T. Konstantinou,et al.  An approach to integrate energy efficiency upgrade into refurbishment design process, applied in two case-study buildings in Northern European climate , 2013 .

[99]  Stig-Inge Gustafsson,et al.  Sensitivity analysis of building energy retrofits , 1998 .

[100]  Per Heiselberg,et al.  Life cycle cost analysis of a multi-storey residential Net Zero Energy Building in Denmark , 2011 .