Your search keyword '"Jan Akander"' showing total 32 results

1. Assessing the Economic and Environmental Dimensions of Large-Scale Energy-Efficient Renovation Decisions in District-Heated Multifamily Buildings from Both the Building and Urban Energy System Perspectives

Author

Alaa Khadra, Jan Akander, Xingxing Zhang, and Jonn Are Myhren

Subjects

energy-efficient renovation, HVAC systems, urban energy system, life cycle analysis, life cycle cost analysis, district-heated multifamily buildings, Technology

Abstract

The European Union (EU) has introduced a range of policies to promote energy efficiency, including setting specific targets for energy-efficient renovations across the EU building stock. This study provides a comprehensive environmental and economic assessment of energy-efficient renovation scenarios in a large-scale multifamily building project that is district-heated, considering both the building and the broader urban energy system. A systematic framework was developed for this assessment and applied to a real case in Sweden, where emission factors from energy production are significantly lower than the EU average: 114 g CO2e/kWh for district heating and 37 g CO2e/kWh for electricity. The project involved the renovation of four similar district-heated multifamily buildings with comparable energy efficiency measures. The primary distinction between the measures lies in the type of HVAC system installed: (1) exhaust ventilation with air pressure control, (2) mechanical ventilation with heat recovery, (3) exhaust ventilation with an exhaust air heat pump, and (4) exhaust ventilation with an exhaust air heat pump combined with photovoltaic (PV) panels. The study’s findings show that the building with an exhaust air heat pump which operates intermittently with PV panels achieves the best environmental performance from both perspectives. A key challenge identified for future research is balancing the reduced electricity production from Combined Heat and Power (CHP) plants within the energy system.

Published

2025

2. Development of an AI Model Utilizing Buildings’ Thermal Mass to Optimize Heating Energy and Indoor Temperature in a Historical Building Located in a Cold Climate

Author

Jan Akander, Hossein Bakhtiari, Ali Ghadirzadeh, Magnus Mattsson, and Abolfazl Hayati

Subjects

district heating, deep learning, artificial intelligence (AI), historical building, energy storage, peak shaving, Building construction, TH1-9745

Abstract

Historical buildings account for a significant portion of the energy use of today’s building stock, and there are usually limited energy saving measures that can be applied due to antiquarian and esthetic restrictions. The purpose of this case study is to evaluate the use of the building structure of a historical stone building as a heating battery, i.e., to periodically store thermal energy in the building’s structures without physically changing them. The stored heat is later utilized at times of, e.g., high heat demand, to reduce peaking as well as overall heat supply. With the help of Artificial Intelligence and Convolutional Neural Network Deep Learning Modelling, heat supply to the building is controlled by weather forecasting and a binary calendarization of occupancy for the optimization of energy use and power demand under sustained comfortable indoor temperatures. The study performed indicates substantial savings in total (by approximately 30%) and in peaking energy (by approximately 20% based on daily peak powers) in the studied building and suggests that the method can be applied to other, similar cases.

Published

2024

3. Greenhouse Gas Payback Time of Different HVAC Systems in the Renovation of Nordic District-Heated Multifamily Buildings Considering Future Energy Production Scenarios

Author

Alaa Khadra, Jan Akander, and Jonn Are Myhren

Subjects

life cycle assessment, carbon payback time, multifamily buildings, renovation, HVAC systems, future energy production scenarios, Building construction, TH1-9745

Abstract

The European Union (EU) has implemented several policies to enhance energy efficiency. Among these policies is the objective of achieving energy-efficient renovations in at least 3% of EU buildings annually. The primary aim of this study was to offer a precise environmental comparison among four similar district-heated multifamily buildings that have undergone identical energy efficiency measures. The key distinguishing factor among them lies in the HVAC systems installed. The chosen systems were as follows: (1) exhaust ventilation with air pressure control; (2) mechanical ventilation with heat recovery; (3) exhaust ventilation with an exhaust air heat pump; and (4) exhaust ventilation with an exhaust air heat pump with a Photovoltaic (PV) panel. This study involved a life cycle assessment that relied on actual material data from the housing company and energy consumption measurements. This study covered a period of 50 years for thorough analysis. A sensitivity analysis was also conducted to account for various future scenarios of energy production. The findings revealed that the building with an exhaust air heat pump exhibited the lowest greenhouse gas emissions and the shortest carbon payback period (GBPT), needing only around 7 years. In contrast, the building with exhaust ventilation without heat recovery showed the highest emissions and the longest carbon payback period (GBPT), requiring approximately 11 years. Notably, the results were significantly influenced by future scenarios of energy production, emphasizing the crucial role of emission factors in determining the environmental performance of distinct renovation scenarios.

Published

2024

4. Comparison of Space Cooling Systems from Energy and Economic Perspectives for a Future City District in Sweden

Author

Sana Sayadi, Jan Akander, Abolfazl Hayati, Mattias Gustafsson, and Mathias Cehlin

Subjects

nearly zero energy building (NZEB), primary energy number, district cooling, absorption and compression chillers, life cycle cost analysis, climate-resilient buildings, Technology

Abstract

In this study, the performance of different cooling technologies from energy and economic perspectives were evaluated for six different prototype residential Nearly Zero Energy Buildings (NZEBs) within a planned future city district in central Sweden. This was carried out by assessing the primary energy number and life cycle cost analysis (LCCA) for each building model and cooling technology. Projected future climate file representing the 2050s (mid-term future) was employed. Three cooling technologies (district cooling, compression chillers coupled/uncoupled with photovoltaic (PV) systems, and absorption chillers) were evaluated. Based on the results obtained from primary energy number and LCCA, compression chillers with PV systems appeared to be favorable as this technology depicted the least value for primary energy use and LCCA. Compared to compression chillers alone, the primary energy number and the life cycle cost were reduced by 13%, on average. Moreover, the district cooling system was found to be an agreeable choice for buildings with large floor areas from an economic perspective. Apart from these, absorption chillers, utilizing environmentally sustainable district heating, displayed the highest primary energy use and life cycle cost which made them the least favorable choice. However, the reoccurring operational cost from the LCCA was about 60 and 50% of the total life cycle cost for district cooling and absorption chillers, respectively, while this value corresponds to 80% for the compression chillers, showing the high net present value for this technology but sensitive to future electricity prices.

Published

2023

5. Conceptualising a resilient cooling system: A socio-technical approach

Author

Wendy Miller, Anaïs Machard, Emmanuel Bozonnet, Nari Yoon, Dahai Qi, Chen Zhang, Aaron Liu, Abantika Sengupta, Jan Akander, Abolfazl Hayati, Mathias Cehlin, Ongun Berk Kazanci, and Ronnen Levinson

Subjects

Antecedent conditions, Built Back Better, Disaster risk management, Temperature hazard, Resilience capacity, Resilience dividend, Environmental sciences, GE1-350, Urban groups. The city. Urban sociology, HT101-395

Abstract

Prolonged and/or extreme heat has become a natural hazard that presents a significant risk to humans and the buildings, technologies, and infrastructure on which they have previously relied on to provide cooling. This paper presents a conceptual model of a resilient cooling system centred on people, the socio-cultural-technical contexts they inhabit, and the risks posed by the temperature hazard. An integrative literature review process was used to undertake a critical and comprehensive evaluation of published research and grey literature with the objective of adding clarity and detail to the model. Two databases were used to identify risk management and natural hazard literature in multiple disciplines that represent subcomponents of community resilience (social, economic, institutional, infrastructure and environment systems). This review enabled us to characterise in more detail the nature of the temperature hazard, the functionality characteristics of a resilient cooling system, and key elements of the four subsystems: people, buildings, cooling technologies and energy infrastructure. Six key messages can be surmised from this review, providing a guide for future work in policy and practice.

Published

2021

6. A Case Study of Mapping the Heating Storage Capacity in a Multifamily Building within a District Heating Network in Mid-Sweden

Author

Abolfazl Hayati, Jan Akander, and Martin Eriksson

Subjects

district heating, load management, peak shaving, thermal storage, energy signature, thermal inertia of buildings, Building construction, TH1-9745

Abstract

The building sector accounts for a third of the total energy use in Sweden, and district heating provides half of the heating needs. The peak demand loads within a district heating network occur both regularly and irregularly and impose a burden on the energy company to fulfill the demand, often by using more expensive and less environmentally friendly resources (e.g., fossil fuels) instead of the waste heat from industry or biofuels. Heat storage during hours of less demand and prior to colder periods can be used for load management and sustainable planning of energy supply, as well as reduction of total greenhouse gas emissions. Thus, heat supply to the building can be lowered temporarily during the peak power period to utilize the stored thermal energy within the building thermal inertia. The use of indoor temperature decay and the delivery of heating power to a multifamily building are studied here, and heating storage capacity and thermal inertia are calculated. During the performed decay test, the energy supply was estimated to be reduced by 61% for 5 h, which resulted in only a 0.3 °C temperature decay. Therefore, the suggested method can shave eventual peaks in supplied heat with minimal influence on the thermal comfort.

Published

2022

7. Investigating Energy Use in a City District in Nordic Climate Using Energy Signature

Author

Martin Eriksson, Jan Akander, and Bahram Moshfegh

Subjects

energy signature method, district heating, district energy use, multi-family buildings, building stock, energy renovation, Technology

Abstract

This paper focuses on multi-family buildings in a Swedish city district, erected between 1965 and 1973, which are now in need of renovation. For the two types of multi-family buildings in the district, tower buildings and low-rise buildings, dynamic energy use is predicted by using an energy signature method. The energy signature is then used to calculate the primary energy use number of the building stock, according to calculations methods dictated by Swedish building regulations. These regulations are also used to assess which multi-family buildings are in need of renovation, based on the buildings’ primary energy use. For buildings that need energy renovations, it is simulated so that the energy use of each multi-family building complies with these same building regulations. The proposed methodology for simulating energy renovation also determines new energy signature parameters, related to building heat loss coefficient, balance temperature and domestic hot water usage. The effects of simulated renovation are displayed in a duration diagram, revealing how a large-scale renovation affects the district’s heat load in different annual periods, which affects the local district heating system. Sensitivity analysis is also performed before and after simulated energy renovation.

Published

2022

8. Low-Emissivity Window Films as an Energy Retrofit Option for a Historical Stone Building in Cold Climate

Author

Saman Abolghasemi Moghaddam, Magnus Mattsson, Arman Ameen, Jan Akander, Manuel Gameiro Da Silva, and Nuno Simões

Subjects

low-E window films, LCC, IDA ICE, building energy simulation, historical buildings retrofit, Technology

Abstract

Low-emissivity (low-E) window films are designed to improve the thermal comfort and energy performance of buildings. These films can be applied to different glazing systems without having to change the whole window. This makes it possible to apply films to windows in old and historical buildings for which preservation regulations often require that windows should remain unchanged. This research aims to investigate the impacts of low-E window films on the energy performance and thermal comfort of a three-story historical stone building in the cold climate of Sweden using the simulation software “IDA ICE”. On-site measurements were taken to acquire thermal and optical properties of the windows. This research shows that the application of the low-emissivity window film on the outward-facing surface of the inner pane of the double-glazed windows helped to reduce heat loss through the windows in winter and unwanted heat gains in summer by almost 36% and 35%, respectively. This resulted in a 6% reduction in the building’s annual energy consumption for heating purposes and a reduction in the percentage of total occupant hours with thermal dissatisfaction from 14% (without the film) to 11% (with the film). However, the relatively high price of the films and low price of district heating results in a rather long payback period of around 30 years. Thus, the films seem scarcely attractive from a purely economic viewpoint, but may be warranted for energy/environmental and thermal comfort reasons.

Published

2021

9. Effects on Energy Demand in an Office Building Considering Location, Orientation, Façade Design and Internal Heat Gains—A Parametric Study

Author

Jakob Carlander, Bahram Moshfegh, Jan Akander, and Fredrik Karlsson

Subjects

building energy simulation, energy efficiency indicators, internal heat gains, occupant behavior, parametric study, Technology

Abstract

12.9% of the energy use in the EU originates from the commercial and public sector. It has therefore become a priority to optimize energy efficiency in these buildings. The purpose of this study has been to explore how energy demand in a new office building is affected by different internal heat gains, location, orientation, and façade design, and also to see how different indicators can change perspective on energy efficiency. The study was performed with simulations in IDA-ICE with different façade design and changes in internal heat gains (IHG), orientation, and location. Energy demand was then compared to two different indicators. Using a façade designed to lower solar heat gains had little effect on energy demand in the north of Sweden, but slightly more effect further south. The amount of internal heat gains had significant effect on energy demand. Making deeper studies on design and internal heat gains should therefore be prioritized in the beginning of new building projects so the most energy-efficient design can be chosen. When the indicator kWh/m2 was used, the cases with low internal heat gains were perceived as the most energy efficient, while when kWh/(m2 × hpers) (hpers = hours of use) was used, the cases with high occupancy and low electricity use were considered to be the most energy efficient. Therefore, revising the standardized indicator is of great importance.

Published

2020

10. On the Performance of Night Ventilation in a Historic Office Building in Nordic Climate

Author

Hossein Bakhtiari, Jan Akander, Mathias Cehlin, and Abolfazl Hayati

Subjects

night ventilation, historic buildings, office buildings, building energy simulation, IDA-ICE, Nordic climate, Technology

Abstract

The effect of mechanical night ventilation on thermal comfort and electricity use for cooling of a typical historic office building in north-central Sweden was assessed. IDA-ICE simulation program was used to model the potential for improving thermal comfort and electricity savings by applying night ventilation cooling. Parametric study comprised different outdoor climates, flow rates, cooling machine’s coefficient of performance and ventilation units’ specific fan power values. Additionally, the effect of different door schemes (open or closed) on thermal comfort in offices was investigated. It was shown that night ventilation cannot meet the building’s total cooling demand and auxiliary active cooling is required, although the building is located in a cold climate. Night ventilation had the potential in decreasing the percentage of exceedance hours in offices by up to 33% and decreasing the total electricity use for cooling by up to 40%. More electricity is saved with higher night ventilation rates. There is, however, a maximum beneficial ventilation rate above which the increase in electricity use in fans outweighs the decrease in electricity use in cooling machine. It depends on thermal mass capacity of the building, cooling machine´s coefficient of performance, design ventilation rate, and available night ventilation cooling potential (ambient air temperature).

Published

2020

11. Measured and Simulated Energy Use in a Secondary School Building in Sweden—A Case Study of Validation, Airing, and Occupancy Behaviour

Author

Jessika Steen Englund, Mathias Cehlin, Jan Akander, and Bahram Moshfegh

Subjects

building energy simulation, school building, field measurements, validation, airing, windows and door opening, Technology

Abstract

In this case study, the energy performance of a secondary school building from the 1960s in Gävle, Sweden, was modelled in the building energy simulation (BES) tool IDA ICE version 4.8 prior to major renovation planning. The objectives of the study were to validate the BES model during both occupied and unoccupied periods, investigate how to model airing and varying occupancy behaviour, and finally investigate energy use to identify potential energy-efficiency measures. The BES model was validated by using field measurements and evidence-based input. Thermal bridges, infiltration, mechanical ventilation, domestic hot water circulation losses, and space heating power were calculated and measured. A backcasting method was developed to model heat losses due to airing, opening windows and doors, and other occupancy behaviour through regression analysis between daily heat power and outdoor temperature. Validation results show good agreement: 3.4% discrepancy between space heating measurements and simulations during an unoccupied week. Corresponding monthly discrepancy varied between 5.5% and 10.6% during three months with occupants. Annual simulation indicates that the best potential renovation measures are changing to efficient windows, improved envelope airtightness, new controls of the HVAC system, and increased external wall thermal insulation.

Published

2020

12. Bayesian Calibration with Augmented Stochastic State-Space Models of District-Heated Multifamily Buildings

Author

Lukas Lundström and Jan Akander

Subjects

building energy performance, energy models, bayesian calibration, augmented stochastic state-space modeling, iterated extended kalman filtering, uncertainty, Technology

Abstract

Reliable energy models are needed to determine building energy performance. Relatively detailed energy models can be auto-generated based on 3D shape representations of existing buildings. However, parameters describing thermal performance of the building fabric, the technical systems, and occupant behavior are usually not readily available. Calibration with on-site measurements is needed to obtain reliable energy models that can offer insight into buildings’ actual energy performances. Here, we present an energy model that is suitable for district-heated multifamily buildings, based on a 14-node thermal network implementation of the ISO 52016-1:2017 standard. To better account for modeling approximations and noisy inputs, the model is converted to a stochastic state-space model and augmented with four additional disturbance state variables. Uncertainty models are developed for the inputs solar heat gains, internal heat gains, and domestic hot water use. An iterated extended Kalman filtering algorithm is employed to enable nonlinear state estimation. A Bayesian calibration procedure is employed to enable assessment of parameter uncertainty and incorporation of regulating prior knowledge. A case study is presented to evaluate the performance of the developed framework: parameter estimation with both dynamic Hamiltonian Monte Carlo sampling and penalized maximum likelihood estimation, the behavior of the filtering algorithm, the impact of different commonly occurring data sources for domestic hot water use, and the impact of indoor air temperature readings.

Published

2019

13. Development of a Space Heating Model Suitable for the Automated Model Generation of Existing Multifamily Buildings—A Case Study in Nordic Climate

Author

Lukas Lundström, Jan Akander, and Jesús Zambrano

Subjects

energy performance modeling, gray box, satellite-based solar radiation data, meteorological reanalysis data, ISO 52016-1, Technology

Abstract

Building energy performance modeling is essential for energy planning, management, and efficiency. This paper presents a space heating model suitable for auto-generating baseline models of existing multifamily buildings. Required data and parameter input are kept within such a level of detail that baseline models can be auto-generated from, and calibrated by, publicly accessible data sources. The proposed modeling framework consists of a thermal network, a typical hydronic radiator heating system, a simulation procedure, and data handling procedures. The thermal network is a lumped and simplified version of the ISO 52016-1:2017 standard. The data handling consists of procedures to acquire and make use of satellite-based solar radiation data, meteorological reanalysis data (air temperature, ground temperature, wind, albedo, and thermal radiation), and pre-processing procedures of boundary conditions to account for impact from shading objects, window blinds, wind- and stack-driven air leakage, and variable exterior surface heat transfer coefficients. The proposed model was compared with simulations conducted with the detailed building energy simulation software IDA ICE. The results show that the proposed model is able to accurately reproduce hourly energy use for space heating, indoor temperature, and operative temperature patterns obtained from the IDA ICE simulations. Thus, the proposed model can be expected to be able to model space heating, provided by hydronic heating systems, of existing buildings to a similar degree of confidence as established simulation software. Compared to IDA ICE, the developed model required one-thousandth of computation time for a full-year simulation of building model consisting of a single thermal zone. The fast computation time enables the use of the developed model for computation time sensitive applications, such as Monte-Carlo-based calibration methods.

Published

2019

14. Overheating calculation methods, criteria, and indicators in European regulation for residential buildings

Author

Shady Attia, Caroline Benzidane, Ramin Rahif, Deepak Amaripadath, Mohamed Hamdy, Peter Holzer, Annekatrin Koch, Anton Maas, Sven Moosberger, Steffen Petersen, Anna Mavrogianni, Juan Maria Hidalgo-Betanzos, Manuela Almeida, Jan Akander, Hossein Khosravi Bakhtiari, Olivier Kinnane, Risto Kosonen, and Salvatore Carlucci

Subjects

Summer thermal comfort, EPBD, Mechanical Engineering, Thermal discomfort, Climate change, Indicators, Heatwave, Building and Construction, Electrical and Electronic Engineering, Prescriptive, Civil and Structural Engineering, Performance-based

Abstract

With the ongoing significance of overheating calculations in the residential building sector, building codes such as the European Energy Performance of Building Directive (EPBD) are essential for harmonizing the indicators and performance thresholds. This paper investigates Europe's overheating calculation methods, indicators, and thresholds and evaluates their ability to address climate change and heat events. e study aims to identify the suitability of existing overheating calculation methods and propose recommendations for the EPBD. The study results provide a cross-sectional overview of twenty-six European countries. The most influential overheating calculation criteria are listed the best approaches are ranked. The paper provides a thorough comparative assessment and recommendations to align current calculations with climate-sensitive metrics. The results suggest a framework and key performance indicators that are comfort-based, multi-zonal, and time-integrated to calculate overheating and modify the EU's next building energy efficiency regulations. The results can help policymakers and building professionals to develop the next overheating calculation framework and approach for the future development of climate-proof and resilient residential buildings.

Published

2023

15. Analyzing the climate-driven energy demand and carbon emission for a prototype residential nZEB in central Sweden

Author

Sana Sayadi, Jan Akander, Abolfazl Hayati, and Mathias Cehlin

Subjects

building performance simulation, Mechanical Engineering, Future climate file, primary energy number, carbon emission, extreme weather file, Building and Construction, Electrical and Electronic Engineering, Energy Systems, Civil and Structural Engineering, Energisystem

Abstract

The changes in climate and the expected extreme climate conditions in the future, given the long life span of the buildings have pushed the design limits. In this study, the changes in primary energy use (PEPET), total energy use and CO2 emission were investigated for a prototype residential building. The building fulfils nearly zero energy building (NZEB) characteristics, imposed by the Swedish building regulations. Different cooling technologies and various typical meteorological year (TMY) climate files assembled for different periods, as well as automatic shading were investigated. The assembled TMY files advocated for the present (2001-2020) and mid-future (2041-2060) period using the CORDEX data. Different cooling methods and set-points (24-28°C) were defined to evaluate the cooling energy requirement changes. It was discovered that the freely available typical climate file fails to cover the induced changes in climate and its extreme implications on the building. The required cooling energy use increased from 1.7-5.8 times the freely available climate file, when using the projected TMY and the extreme climate files. Addition of automatic shading system reduced cooling energy up to 75% within the studied cooling methods and set-points. Moreover PEPET and CO2 emission also decreased for the studied cooling methods, climate and weather files.

Published

2022

16. Comparison of Space Cooling Systems from Energy and Economic Perspectives for a New City District in Sweden

Author

sana sayadi, Jan Akander, Abolfazl Hayati, Mattias Gustafsson, and Mathias Cehlin

Published

2022

17. Viewpoints on Environmental Assessment of Building Certification Method - Miljöbyggnad

Author

Björn Karlsson, Marita Wallhagen, Abolfazl Hayati, Jan Akander, and Mathias Cehlin

Subjects

Engineering, business.industry, Environmental impact assessment, Certification, Viewpoints, business, Construction engineering

Abstract

Production, management, use, and end-of-life of buildings has a large impact on climate change. Therefore, environmental targets are set to lower the greenhouse gas (GHG) emissions from the building sector. To reach these targets building regulation and voluntary environmental assessment methods (EAMs) that evaluate and certify the building’s environmental impact are put forward as tools to push the building sector towards lower GHG emissions. In Sweden, building design is governed by building regulations and the dominant EAM is ‘Miljöbyggnad’ (MB) (“Environmental building”). Today, more than 1900 buildings have been certified by MB and it has influenced the building and property sector. In this chapter the potential impact MB and the linked Swedish building regulations have on building performance, energy use and GHG emissions, will be reviewed and discussed. The analysis investigates several of the MB’s indicators, evaluate to what degree EAMs can influence the design of the building and the energy system to lower the energy use and GHG emissions based on material choices. The analysis presents important aspects that may influence the design of the building and its energy system and what challenges and possibilities the indicators, criteria and regulations can have on buildings and climate change. In addition, some modification and suggestion for improvements are presented.

Published

2021

18. Review on District Cooling and Its Application in Energy Systems

Author

Mathias Cehlin, Jan Akander, Sana Sayadi, and Abolfazl Hayati

Subjects

Waste management, District cooling, Environmental science, Energy (signal processing)

Abstract

This chapter investigates the implementation of district cooling systems by exploring several research studies reported in the literature. The topics addressed include typologies and design parameters, benefits and limitations, applications of the system, and the technology readiness level. District cooling systems are generally regarded as cost-efficient and environmentally friendly solutions. One might think that district cooling is only a solution for areas with a very warm climate. However, based on the reported results of the surveyed studies, the number of operating district cooling systems has increased over the years, with the Scandinavian countries taking the lead in this market within European countries. Implementation of these systems concluded reduction in primary energy and electricity use, they also proved to be an environmentally efficient way.

Published

2021

19. Evaluation of thermal comfort in a historic building refurbished to an office building with modernized HVAC systems

Author

Mathias Cehlin, Jan Akander, and Hossein Khosravi Bakhtiari

Subjects

Engineering, Architectural engineering, Energy demand, business.industry, 020209 energy, 0211 other engineering and technologies, Thermal comfort, 02 engineering and technology, Building and Construction, Energy engineering, 021105 building & construction, HVAC, 0202 electrical engineering, electronic engineering, information engineering, business

Abstract

Envelopes with low thermal performance are common characteristics in European historic buildings, causing higher energy demand and insufficient thermal comfort. This paper presents the results of a ...

Published

2019

20. Resilient cooling strategies – A critical review and qualitative assessment

Author

Giacomo Chiesa, Agnese Salvati, Feryal Chtioui, Philipp Stern, Maria Kolokotroni, Chen Zhang, Hilde Breesch, Ramin Rahif, Behzad Sodagar, Hui Zhang, Dahai Qi, Abantika Sengupta, Ardeshir Mahdavi, Vincent Lemort, Helene Teufl, Saqib Javed, Abolfazl Hayati, Liangzhu Leon Wang, Shady Attia, Stephen Selkowitz, Taha Arghand, Emmanuel Bozonnet, Mathias Cehlin, Michele Zinzi, Ronnen Levinson, Ricardo Forgiarini Rupp, Guoqiang Zhang, Dragos-Ioan Bogatu, Sana Sayadi, Edward Arens, Jan Akander, Ongun Berk Kazanci, Zhengtao Ai, Per Heiselberg, Sadegh Forghani, Patrick Salagnac, Bjarne W. Olesen, Essam Elnagar, Nari Yoon, Universitat Politècnica de Catalunya. Departament de Tecnologia de l'Arquitectura, Universitat Politècnica de Catalunya. AIEM - Arquitectura, energia i medi ambient, Zhang, C., Kazanci, O. B., Levinson, R., Heiselberg, P., Olesen, B. W., Chiesa, G., Sodagar, B., Ai, Z., Selkowitz, S., Zinzi, M., Mahdavi, A., Teufl, H., Kolokotroni, M., Salvati, A., Bozonnet, E., Chtioui, F., Salagnac, P., Rahif, R., Attia, S., Lemort, V., Elnagar, E., Breesch, H., Sengupta, A., Wang, L. L., Qi, D., Stern, P., Yoon, N., Bogatu, D. -I., Rupp, R. F., Arghand, T., Javed, S., Akander, J., Hayati, A., Cehlin, M., Sayadi, S., Forghani, S., Zhang, H., Arens, E., Zhang, G., Institut de Recherche en Sciences et Techniques de la Ville - FR 2488 (IRSTV), Université de Nantes (UN)-École Centrale de Nantes (ECN)-EC. ARCHIT. NANTES-Université d'Angers (UA)-Université de La Rochelle (ULR)-Centre National de la Recherche Scientifique (CNRS), Laboratoire des Sciences de l'Ingénieur pour l'Environnement - UMR 7356 (LaSIE), and Université de La Rochelle (ULR)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Passive cooling, Computer science, Arquitectura::Arquitectura sostenible [Àrees temàtiques de la UPC], 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, 7. Clean energy, [SPI]Engineering Sciences [physics], Building cooling, Arquitectura i estalvi d'energia, Power outage, 11. Sustainability, Resilient Climate change, SDG 13 - Climate Action, 0202 electrical engineering, electronic engineering, information engineering, Water cooling, Active cooling, Climate change, Critical review, Heatwave, Low-energy cooling, Qualitative analysis, Resilient, uilding cooling, ComputingMilieux_MISCELLANEOUS, Architecture and energy conservation, Energies::Gestió de l'energia::Estalvi energètic [Àrees temàtiques de la UPC], climate change, building cooling, resilient, power outage, 020209 energy, Heatwave Power outage, Energy Engineering, Effects of global warming, Electrical and Electronic Engineering, Resilience (network), 0105 earth and related environmental sciences, Civil and Structural Engineering, Adaptive capacity, Mechanical Engineering, Buildings -- Cooling, Edificis -- Refrigeració, Building and Construction, Reliability engineering, Energiteknik, 13. Climate action, K100 Architecture, Envelope (motion)

Abstract

Copyright © 2021 The Author(s). The global effects of climate change will increase the frequency and intensity of extreme events such as heatwaves and power outages, which have consequences for buildings and their cooling systems. Buildings and their cooling systems should be designed and operated to be resilient under such events to protect occupants from potentially dangerous indoor thermal conditions. This study performed a critical review on the state-of-the-art of cooling strategies, with special attention to their performance under heatwaves and power outages. We proposed a definition of resilient cooling and described four criteria for resilience—absorptive capacity, adaptive capacity, restorative capacity, and recovery speed —and used them to qualitatively evaluate the resilience of each strategy. The literature review and qualitative analyses show that to attain resilient cooling, the four resilience criteria should be considered in the design phase of a building or during the planning of retrofits. The building and relevant cooling system characteristics should be considered simultaneously to withstand extreme events. A combination of strategies with different resilience capacities, such as a passive envelope strategy coupled with a low-energy space-cooling solution, may be needed to obtain resilient cooling. Finally, a further direction for a quantitative assessment approach has been pointed out. The research is supported by Det Energiteknologisk Udviklings- og Demonstrationsprogram (EUDP) under grant 64018-0578. It was also supported by the Assistant Secretary for Energy Efficiency and Renewable Energy, Building Technologies Office of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231.

Published

2021

21. Introducing Weight Factors into A Decision Making Tool for Evaluating The Sustainability Aspects of Buildings Renovation Alternatives

Author

Alaa Alaa, Alaa Khadra, Mårten Hugosson, Jan Akander, and Jonn Myhren

Published

2020

22. Effects on Energy Demand in an Office Building Considering Location, Orientation, Facade Design and Internal Heat Gains - A Parametric Study

Author

Fredrik Karlsson, Bahram Moshfegh, Jan Akander, and Jakob Carlander

Subjects

Control and Optimization, Occupancy, 020209 energy, Energy Engineering and Power Technology, Energy Engineering, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, lcsh:Technology, building energy simulation, 0202 electrical engineering, electronic engineering, information engineering, energy efficiency indicators, Electrical and Electronic Engineering, Energy Systems, Engineering (miscellaneous), Building energy simulation, parametric study, 0105 earth and related environmental sciences, Energisystem, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, Public sector, internal heat gains, Environmental economics, occupant behavior, Energiteknik, Environmental science, Facade, Electricity, business, Internal heating, Energy (signal processing), Energy (miscellaneous), Efficient energy use

Abstract

12.9% of the energy use in the EU originates from the commercial and public sector. It has therefore become a priority to optimize energy efficiency in these buildings. The purpose of this study has been to explore how energy demand in a new office building is affected by different internal heat gains, location, orientation, and facade design, and also to see how different indicators can change perspective on energy efficiency. The study was performed with simulations in IDA-ICE with different facade design and changes in internal heat gains (IHG), orientation, and location. Energy demand was then compared to two different indicators. Using a facade designed to lower solar heat gains had little effect on energy demand in the north of Sweden, but slightly more effect further south. The amount of internal heat gains had significant effect on energy demand. Making deeper studies on design and internal heat gains should therefore be prioritized in the beginning of new building projects so the most energy-efficient design can be chosen. When the indicator kWh/m(2) was used, the cases with low internal heat gains were perceived as the most energy efficient, while when kWh/(m(2) x hpers) (hpers = hours of use) was used, the cases with high occupancy and low electricity use were considered to be the most energy efficient. Therefore, revising the standardized indicator is of great importance. Funding Agencies|Sankt Kors Fastigheter AB, Linkoping, Sweden; KK-foundation (KK-stiftelsen, Stiftelsen for Kunskaps och Kompetensutveckling) [20150133]

Published

2020

23. Economic performance assessment of three renovated multi-family buildings with different HVAC systems

Author

Jan Akander, Jonn Are Myhren, Mårten Hugosson, and Alaa Khadra

Subjects

Engineering, Architectural engineering, business.industry, 020209 energy, Mechanical Engineering, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Energy engineering, 021105 building & construction, HVAC, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Civil and Structural Engineering

Abstract

Economic performance assessment of three renovated multi-family buildings with different HVAC systems

Published

2020

24. Simulation of Ventilation Rates and Heat Losses during Airing in Large Single Zone Buildings in Cold Climates

Author

Abolfazl Hayati, Magnus Mattsson, and Jan Akander

Subjects

law, Cold climate, fungi, Ventilation (architecture), food and beverages, Heat losses, Environmental science, Single zone, Atmospheric sciences, humanities, law.invention

Abstract

Airing can be a solution to introduce extra ventilation in large single zone buildings, especially where there are large aggregations of people such as churches or atriums. In naturally ventilated ...

Published

2018

25. Comprehensive investigation on energy retrofits in eleven multi-family buildings in Sweden

Author

Jan Akander, Mathias Cehlin, Linn Liu, and Bahram Moshfegh

Subjects

Engineering, Energy demand, Zero-energy building, business.industry, Mechanical Engineering, Environmental resource management, Building and Construction, Environmental economics, Energy engineering, Energy conservation, media_common.cataloged_instance, Profitability index, Electrical and Electronic Engineering, European union, business, Energy (signal processing), Civil and Structural Engineering, Efficient energy use, media_common

Abstract

Rapidly growing energy use in the building sector is considered a serious problem by both the European Union (EU) and Sweden. Reducing energy demand in the building sector is important for Sweden i ...

Published

2014

26. Assessment of Airflows in a School Building with Mechanical Ventilation Using Passive Tracer Gas Method

Author

Jessika Steen Englund, Bahram Moshfegh, Jan Akander, and Mikael Björling

Subjects

Energy conservation, Mechanical ventilation, Architectural engineering, Air changes per hour, TRACER, medicine.medical_treatment, Airflow, medicine, Environmental science, Relative humidity, Attic, Constant air volume, Atmospheric sciences

Abstract

The focus of this study is to assess the airflows in a school building built in 1963 in Gavle, Sweden, which is subject to energy conservation measures (ECMs) in a forthcoming renovation. Today, the school building is mainly ventilated by several mechanical ventilation systems, which are controlled by a constant air volume (CAV) strategy. Schedules and presence sensors impose a high operation mode during the day and a low operation mode at night, on weekends and on holidays. The homogeneous tracer gas emission method with passive sampling is used to measure the average local mean age of air (τ) during different operation modes. Temperature, relative humidity and CO2 concentration are simultaneously measured. The calculated relative uncertainty for the average local mean age of air in every measured point is approx. ±20 %. The results during low operation mode show an average value of τ of approx. 8.51 h [corresponding to 0.12 air changes per hour (ACH)], where τ in various zones ranges between 2.55 and 16.37 h (indicating 0.06–0.39 ACH), which is related to the unintentional airflow in the school. The results during mixed operation mode show an average value of τ of approx. 4.60 h (0.22 ACH), where τ in various zones ranges between 2.00 and 8.98 h (0.11–0.50 ACH), which is related to both unintentional and intentional airflows in the school. Corridors, basement and attic rooms and entrances have lower τ compared to classrooms, offices and other rooms. High maximums of the CO2 concentration in some rooms indicate an imbalance in the mechanical ventilation systems. During a regular school week of mixed operation, which includes both high and low operation modes, it is found that mainly the low operation modes show up in the results. The dynamics of the highly varying airflows in the building cannot be identified using the passive sampling technique.

Published

2016

27. Assessing the Myths on Energy Efficiency When Retrofitting Multifamily Buildings in a Northern Region

Author

Jan Akander, Bahram Moshfegh, and Mathias Cehlin

Subjects

Architectural engineering, Engineering, business.industry, Energy performance, Retrofitting, Environmental economics, business, Built environment, Stock (geology), Efficient energy use

Abstract

In the light of EU’s requirements to achieve a major cut in energy use by 2050, Sweden has the same target. The built environment must by 2020 reduce energy use by 20 and 50 % by 2050. The size of the future building stock will naturally increase and regardless of how energy efficient future buildings will be, the energy performance of the old stock must be improved in order to reach those goals. In major renovation projects involving multifamily buildings in large residential areas in the cities, 50 % reduction can be achieved. This is cost-effective and profitable even if the rent is increased.

Published

2016

28. Status, needs and possibilities for service life prediction and estimation of district heating distribution networks

Author

Daniel Hallberg, Bojan Stojanovic, and Jan Akander

Subjects

Engineering, Distribution networks, business.industry, Mechanical Engineering, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Maintenance strategy, Ocean Engineering, Building and Construction, Geotechnical Engineering and Engineering Geology, Factor method, ComputingMethodologies_ARTIFICIALINTELLIGENCE, Profit (economics), Proactive maintenance, Risk analysis (engineering), Service life, Operations management, Safety, Risk, Reliability and Quality, business, Civil and Structural Engineering

Abstract

An optimised and proactive maintenance strategy aims to maximise the economical profit, minimise environmental impacts and keep the risk of failure to a low level. Implementation of such a strategy ...

Published

2012

29. A steady state thermal duct model derived by fin-theory approach and applied on an unglazed solar collector

Author

Jan Akander, Bojan Stojanovic, and Daniel Hallberg

Subjects

Materials science, Fin, Renewable Energy, Sustainability and the Environment, business.industry, Thermodynamics, Mechanics, Solar energy, Thermal conductivity, Heat flux, Thermal, Heat transfer, General Materials Science, Duct (flow), business, Roof

Abstract

This paper presents the thermal modelling of an unglazed solar collector (USC) flat panel, with the aim of producing a detailed yet swift thermal steady-state model. The model is analytical, one-di ...

Published

2010

30. Build-up and long-term performance test of a full-scale solar-assisted heat pump system for residential heating in Nordic climatic conditions

Author

Jan Akander and Bojan Stojanovic

Subjects

Engineering, Solar-assisted heat pump, business.industry, Full scale, Energy Engineering and Power Technology, Solar energy, Industrial and Manufacturing Engineering, Performance factor, law.invention, Term (time), Low energy, law, Electricity, business, Process engineering, Telecommunications, Heat pump

Abstract

This paper presents the build-up and long-term performance test of a full-scale Solar-Assisted Heat Pump System (SAHPS) for residential heating in Nordic climatic conditions. This particular SAHPS was developed within the EU project ENDOHOUSING, by predominantly using components and techniques that are available on the market. The analysis primarily focuses on system performance, with emphasis on Heat Pump (HP) and total system Seasonal Performance Factor (SPF), based on long-term and full-scale operation. Analysis shows that despite unfavourable building conditions, for low energy use and utilisation of a SAHPS, the system was successfully in full operation (for about 2 years) fulfilling heating requirements. Data processing of the series representing the full year period of 2007(February)–2008(February), presented a HP and total SAHPS performance of: SPFHP = 2.85 and SPFSAHPS = 2.09. The authors argue that with an optimised SAHPS control and operation strategy, additional use of circulation pumps and energy (electricity) could be vastly reduced, hence attaining a SPFSAHPS value that is in parity with the SPFHP. As the Nordic (Swedish) Endohousing SAHPS has not yet been properly optimised/designed and installed in an appropriate house, the SPFHP = 2.85 is considered satisfactory.

Published

2010

31. Natural and semi-natural field exposure testing and analysis, on optical degradation of a building integrated unglazed solar collector surface

Author

Bengt Eriksson, Bojan Stojanovic, and Jan Akander

Subjects

Pollution, Materials science, business.industry, Scanning electron microscope, media_common.quotation_subject, Building and Construction, Test method, Durability, Surface coating, Optics, Mechanics of Materials, Degradation (geology), General Materials Science, Thermal emittance, Specular reflection, Composite material, business, Civil and Structural Engineering, media_common

Abstract

Durability is of great importance when considering sustainable energy systems. In turn it lays emphasis on assessing performance over time of energy systems and components. This paper presents a study on optical degradation of a building-integrated Unglazed Solar Collector (USC) surface, by exposing USC specimens to a natural and semi-natural field exposure test. Particular interest is devoted to the semi-natural field exposure test method evaluation, and the degradation of optical properties. The study showed that about 11 months of field exposure testing did not cause any significant optical (total solar absorptance and IR emittance) or material (surface coating) degradation; although measurements revealed a decrease in specular reflectance as diffuse increased. It was likely due to surface pollution that predominantly consisted of quartz. The study also showed that it is possible to achieve a considerable increased moisture exposure on test surfaces (semi-natural field exposure test), through a relatively simple cooling device (Direct-Air Peltier-Element) and rough control strategy.

Published

2007

32. Energy Performance of Residential Buildings

Author

Servando Alvarez Domínguez, Matthaios Santamouris, Francisco José Sánchez de la Flor, and Jan Akander

Published

2010