eceee  

Panel 5. Buildings and construction technologies and systems

Panel leaders: Åsa Wahlström & Karen Byskov Lindberg

Introduction to Panel 5

The effects of the entry into force of a new electric tariff on Italian residential households equipped with a PV power plant (5-014-17)
This is a peer-reviewed paper.
Simone Maggiore, R.S.E. (Ricerca sul Sistema Energetico), Italy
Massimo Gallanti, R.S.E. (Ricerca sul Sistema Energetico) , Italy

Using smart energy storage to increase self-consumption of solar-generated electricity and reduce peak grid load at household and community level (5-091-17)
This is a peer-reviewed paper.
Adorkor Bruce-Konuah, Oxford Brookes University, United Kingdom
Rajat Gupta

Improving energy performance through an energy measurement and monitoring plan (5-058-17)
This is a peer-reviewed paper.
Marie Swiatek, Evolution Energie, France
Fabien Imbault, Evolution Energie, France
Jules Casoli, Evolution Energie, France

Achieving university campus sustainability with nearly zero energy building retrofits (5-063-17)
This is a peer-reviewed paper.
Paula Fonseca, ISR-University of Coimbra, Portugal
Pedro S. Moura, Institute of Systems and Robotics - University of Coimbra, Portugal
Aníbal De Almeida, Institute of Systems and Robotics - University of Coimbra, Portugal
Humberto Jorge, Institute for Systems Engineering and Computers , Dep. of Electrical and Computer Engineering, University of Coimbra

Remote energy auditing: Energy efficiency through smart thermostat data and control (5-065-17)
This is a peer-reviewed paper.
Guy Newsham, National Research Council Canada, Canada
Ajit Pardasani, National Research Council Canada, Canada
Yuri Grinberg, National Research Council Canada, Canada
Koby Bar, Energy Management Advisor, Israel

Investigating the business case for a zero-energy refurbishment of residential buildings by applying a pre-fabricated façade module (5-166-17)
This is a peer-reviewed paper.
Juan Azcarate-Aguerre, TU Delft / Faculty of Architecture and The Build Environment, The Netherlands
Thaleia Konstantinou, Delft University of Technology, The Netherlands
Tillmann Klein, Delft University of Technology, The Netherlands
Sybren Steensma, Delft University of Technology
Olivia Guerra-Santin, Delft University of Technology
Sacha Silvester, Delft University of Technology

The role of lighting in deep energy retrofitting in European shopping malls (5-069-17)
This is a peer-reviewed paper.
Matthias Haase, SINTEF Building and Infrastructure, Norway
Andreas Ampenberger, Bartenbach GmbH, Austria

Energy neutral living in Amsterdam, Lyon and Helsingborg: practical results and household assessment (5-093-17)
This is a peer-reviewed paper.
Rudy A. Rooth, DNV GL, The Netherlands
Frans van der Woerd, IVM/VU, The Netherlands
Nicolien van der Grijp, The Netherlands
Mia Larsson, Helsingborgshem, Sweden
Bruno Gaiddon, Hespul, France
Maja Grud Minzari, COWI, Denmark
R.M. Hummelshøj, COWI

Cost-effective options for nearly zero energy renovations of municipal buildings (5-122-17)
This is a peer-reviewed paper.
Pedro Manuel Soares Moura, Institute of Systems and Robotics - University of Coimbra, Portugal
Nuno Morais, Municipality of Coimbra, Portugal
Paula Fonseca, Institute of Systems and Robotics, Portugal
Aníbal T. de Almeida, Institute of Systems and Robotics, Portugal

The neglected practice Uncertainties encountered by occupants in a new energy efficient building (5-125-17)
This is a peer-reviewed paper.
Charlotta Isaksson, RISE, Research Institutes of Sweden, Sweden

Effects of different techno-economic regimes on viability of deep energy renovation of existing Swedish multi-family building (5-133-17)
This is a peer-reviewed paper.
Leif Gustavsson, Linnaeus University - Dept. of Building and Energy Technology - Sustainable Built Environment, Sweden
Ambrose Dodoo, LNU, Sweden

Life cycle primary energy use of nearly-zero energy building and low-energy building (5-135-17)
This is a peer-reviewed paper.
Ambrose Dodoo, Linnaeus University, Sweden
Leif Gustavsson, LNU, Sweden
Uniben Tettey, LNU

Using machine learning and mathematical programming to benchmark energy efficiency of buildings (5-157-17)
This is a peer-reviewed paper.
Alexander Severinsen, Institutt for Energiteknikk, Norway
Helen Sorensen Holst, School of Business and Economics, Norway

Impact of a forecast-based operation strategy for grid-connected PV storage systems on profitability and the energy system (5-160-17)
This is a peer-reviewed paper.
Lukas Teichtmann, Fraunhofer Institute for Systems and Innovation Research ISI, Germany
Anna-Lena Klingler, Fraunhofer Institute for Systems and Innovations Research ISI, Germany

An optimum renovation strategy for Swedish single-family house envelopes: The implications of climate zones and the age of the houses (5-165-17)
This is a peer-reviewed paper.
Farshid Bonakdar, Built Environment and Energy Technology Department, Linnaeus University, Sweden
Angela Sasic Kalagasidis, Division of Building Technology, Chalmers University of Technology, Sweden

Household thermal routines and their impact on space heating demand patterns (5-192-17)
This is a peer-reviewed paper.
Clare Hanmer, University College London, United Kingdom
David Shipworth, University College London, United Kingdom
Michelle Shipworth, University College London, United Kingdom
Edwin Carter, PassivSystems Ltd, United Kingdom

Integrated and sustainable energy concepts for urban neighbourhoods – a generic approach based on Austrian experiences (5-189-17)
This is a peer-reviewed paper.
Gerhard Hofer, e7 Energie Markt Analyse GmbH, Austria
Christof Amann, e7 Energie Markt Analyse GmbH, Austria
Daniela Bachner, e7 Energie Markt Analyse GmbH, Austria
Klemens Leutgöb, e7 Energie Markt Analyse GmbH, Austria

Hydronic balancing and control – how to overcome the global challenge of reducing energy use in multifamily housing (5-235-17)
This is a peer-reviewed paper.
Matjaz Osojnik, Danfoss d.o.o., Slovenia
Stephan Kolb, Danfoss
Helge Schramm, Danfoss
Alix Chambris, Danfoss

A smarter way to electrify heat – the balanced energy network approach to demand side response in the UK (5-301-17)
This is a peer-reviewed paper.
Aaron Gillich, CEREB - London Southbank University, United Kingdom
Andy Ford, London South Bank University
Csaba Zagoni, Upside Energy, 1 Fore St London EC2Y 9DT
Graham Oakes, Upside Energy, 1 Fore St London EC2Y 9DT
Mark Hewitt, ICAX, 33 Greenwood Place, London NW5 1LB

Demand response in the service sector – setting course for energy flexibility and efficiency (5-326-17)
This is a peer-reviewed paper.
Katharina Wohlfarth, Fraunhofer Institute for Systems and Innovation Research, Germany
Marian Klobasa, Fraunhofer ISI, Germany
Anke Eßer, Fraunhofer ISI, Germany
Deniz Cöl, Fraunhofer ISI

Shaving the peaks through statistical learning: smart use of solar energy and storage solutions (5-327-17)
This is a peer-reviewed paper.
Arne Lind, Institute for Energy Technology, Norway
Petter Arnestad, Storekeeper AS, Norway
Josefine Helene Selj, Institute for Energy Technology, Norway
Ioannis Tsanakas, Institute for Energy Technology, Norway
Alexander Severinsen

Design strategies to minimise heating and cooling demands for passive houses under changing climate (5-342-17)
This is a peer-reviewed paper.
Uniben Yao Ayikoe Tettey, Linnaeus University - Built Enevironment and Energy Technology, Sweden
Ambrose Dodoo, Linnaeus University Faculty of Technology, Dept. of Built Environment & Energy Technology, Sweden
Leif Gustavsson, Linnaeus University Faculty of Technology, Dept. of Built Environment & Energy Technology, Sweden

Comparing energy systems in California and Sweden: A pilot-study to further develop a methodology for prediction of overall demand response potential in Northern Europe (5-367-17)
This is a peer-reviewed paper.
Sofia Stensson, RISE Research Institutes of Sweden, Sweden
Mary Ann Piette, Lawrence Berkeley National Laboratory, USA

Estimating energy consumption by purpose and analyse standby power in non-residential buildings in Japan (5-373-17)
This is a peer-reviewed paper.
Takuo Yamaguchi, Bizen Green-Energy Inc., Japan
Yumiko Iwafune, Collaborative Research Center for Energy Engineering, Institute of Industrial Science, The University of Tokyo, Japan

Some basic insight about the cost optimal opaque thermal insulation in buildings without overheating or cooling (e.g. transalpine Europe) (5-374-17)
This is a peer-reviewed paper.
Dirk Van Orshoven, Independent energy engineer, Belgium

Measuring building occupancy through ICT data streams (5-412-17)
This is a peer-reviewed paper.
Bianca Howard, Imperial College London, United Kingdom
Salvador Acha, Imperial College, United Kingdom
Nilay Shah, Imperial College, United Kingdom
John Polak, Imperial College, United Kingdom

Optimization Design of Light Shelf for Visual Comfort and Energy Savings in a Office Space (5-428-17)
This is a peer-reviewed paper.
Yaseri Dahlia Apritasari, Podomoro University, Indonesia

Panels of the eceee 2017 Summer Study on energy efficiency:

Panel 1. Foundations of future energy policy

Panel 2. Policy: governance, design, implementation and evaluation challenges

Panel 3. Local action

Panel 4. Mobility, transport, and smart and sustainable cities

Panel 5. Buildings and construction technologies and systems

Panel 6. Buildings policies, directives and programmes

Panel 7. Appliances, products, lighting and ICT

Panel 8. Monitoring and evaluation: building confidence and enhancing practices

Panel 9. Consumption and behaviour

eceee 2017 Summer Study on energy efficiency start page

Industrial Efficiency 2016 partners