Explaining the historical energy use in dwelling stocks with a segmented dynamic model: case study of Norway 1960-2015
Journal article, Peer reviewed
Published version
Permanent lenke
http://hdl.handle.net/11250/2456622Utgivelsesdato
2016Metadata
Vis full innførselSamlinger
- Publikasjoner fra CRIStin - SINTEF AS [5912]
- SINTEF Community [2286]
Sammendrag
A segmented dynamic dwelling stock model is proven useful for understanding the development and changes of ageing building stocks, which is highly relevant for renovation measures and estimates of energy use and emissions in aggregated building stocks. In this paper, such a model is developed further for detailed analyses of dwelling stock energy demand and exemplified for the Norwegian dwelling stock 1960–2015. The dwelling stock model simulates the development in stock size and composition and is combined with archetype-specific energy intensities to estimate the total energy demand. After calibrating the model results with statistics, the model is used to explore the phenomena and causes of historical changes. A large-scale improvement of the energy efficiency of the Norwegian dwelling stock has taken place through renovation and construction of new dwellings. A historical shift to more efficient energy carriers and heating systems has had an effect on energy savings in the system, of the same size as the effect of the improved energy efficiency of the stock. However, the total average energy savings per m 2 are offset by changes in user heating habits. A significant decrease in average delivered energy intensity per m 2 is only observed after the introduction of heat pumps.
Utgiver
Elsevier B.V.Tidsskrift
Energy and BuildingsOpphavsrett
© 2016 The Authors.
Med mindre annet er angitt, så er denne innførselen lisensiert som Attribution-NonCommercial-NoDerivatives 4.0 Internasjonal
Beslektede innførsler
Viser innførsler beslektet ved tittel, forfatter og emneord.
-
Energy Hub and Micro-Energy Hub Architecture in Integrated Local Energy Communities: Enabling Technologies and Energy Planning Tools
Rossi, Mosè; Jin, Lingkang; Monteforti Ferrario, Andrea; Di Somma, Marialaura; Buonanno, Amadeo; Papadimitriou, Christina; Morch, Andrei Z; Graditi, Giorgio; Comodi, Gabriele (Peer reviewed; Journal article, 2024)The combination of different energy vectors like electrical energy, hydrogen, methane, and water is a crucial aspect to deal with in integrated local energy communities (ILECs). The ILEC stands for a set of active energy ... -
Energy measurements at Skarpnes zero energy homes in Southern Norway: Do the loads match up with the on-site energy production?
Sørensen, Åse Lekang; Imenes, Anne Gerd; Grynning, Steinar; Dokka, Tor Helge (Journal article; Peer reviewed, 2017)Five houses are designed as zero-energy homes in Skarpnes, Norway. The energy goal is to achieve net zero-energy balance on an annual basis. The houses have heat pumps and solar cells (PV). Energy use and delivered energy ... -
A coordinated control to improve energy performance for a building cluster with energy storage, EVs, and energy sharing
Huang, Pei; Zhang, Xingxing; Bales, Chris; Persson, Tomas (SINTEF Proceedings;5, Chapter; Peer reviewed; Conference object, 2020)Existing studies have developed some advanced controls for energy storage system charging/discharging in a building cluster (enabling PV power sharing among different buildings), which can effectively improve the aggregated ...