Skip to main content

Search the KTH website
Svenska

Journal Articles

Journal Articles

[1]

S. Nateghi et al., "Resource-efficient design of integrated personal exhaust ventilation and physical barriers for airborne transmission mitigation: A numerical and experimental evaluation," Building and Environment, vol. 268, 2025.

[2]

A. Dervishaj and K. Gudmundsson, "Sunlight Autonomy for Buildings: A New Methodology for Evaluating Sunlight Performance in Urban and Architectural Design," LEUKOS The Journal of the Illuminating Engineering Society of North America, vol. 21, no. 1, pp. 34-64, 2025.

[3]

G. Aspetakis, C. Wang and Q. Wang, "Enhancing Air-Based PVT Performance : A numerical and experimental assessment of V-Baffle designs," Applied Thermal Engineering, vol. 262, 2025.

[4]

A. Dervishaj and K. Gudmundsson, "Parametric design workflow for solar, context-adaptive and reusable facades in changing urban environments," Journal of Building Performance Simulation, Taylor & Francis, vol. 18, no. 2, pp. 161-190, 2025.

[5]

Y. Wang et al., "Leakage identification and correlation coefficient method for industrial workshop production process combining with computational fluid dynamics," Indoor + Built Environment, vol. 34, no. 1, pp. 192-209, 2025.

[6]

F. Liu et al., "Evolution of particle size distribution and water content for oily particles in machining workshops," Journal of Building Engineering, vol. 84, 2024.

[7]

J. C. Lorentzen et al., "Mold Odor from Wood Treated with Chlorophenols despite Mold Growth That Can Only Be Seen Using a Microscope," Microorganisms, vol. 12, no. 2, 2024.

[8]

H. Dai et al., "Comparative experimental study on photothermal conversion and shape memory properties of MF-based flexible composite phase change materials loaded with carbon nanotubes and polydopamine," Journal of Energy Storage, vol. 90, 2024.

[9]

R. Sun, D. Lai and W. Liu, "A computationally affordable and reasonably accurate approach for annual outdoor thermal comfort assessment on an hourly basis," Energy and Buildings, vol. 316, 2024.

[10]

Y. Pan et al., "Enhancing removal of air contaminants in existing aircraft cabins by optimizing supply air direction based on Re-field synergy and Bayesian optimization," Science of the Total Environment, vol. 928, 2024.

[11]

W. Liu et al., "Wind tunnel and numerical study of wind pressure coefficients on a medieval Swedish church," Building and Environment, vol. 264, 2024.

[12]

A. Behzadi et al., "Application to novel smart techniques for decarbonization of commercial building heating and cooling through optimal energy management," Applied Energy, vol. 376, 2024.

[13]

X. Chen et al., "Climate change impacts on global photovoltaic variability," Applied Energy, vol. 374, 2024.

[14]

Y. Wang et al., "Integrating NSGA-II and CFD for enhanced urban airflow prediction: Recalibration of closure coefficients for a nonlinear eddy viscosity model," Building and Environment, vol. 259, 2024.

[15]

A. Dervishaj and K. Gudmundsson, "From LCA to circular design : A comparative study of digital tools for the built environment," Resources, Conservation and Recycling, vol. 200, pp. 1-19, 2024.

[16]

A. Dervishaj et al., "A digital workflow for assessing lifespan, carbonation, and embodied carbon of reusing concrete in buildings," Journal of Building Engineering, vol. 96, pp. 1-23, 2024.

[17]

A. Fonsati, K. Gudmundsson and F. Jia, "Digital twin for educational purpose, the case study of the U-building at the KTH in Stockholm," MATEC Web of Conferences, vol. 396, pp. 01002, 2024.

[18]

S. M. Alirahmi et al., "An innovative four-objective dragonfly-inspired optimization algorithm for an efficient, green, and cost-effective waste heat recovery from SOFC," Energy, vol. 263, 2023.

[19]

W. Liu, T. (. Zhang and D. Lai, "Inverse design of a thermally comfortable indoor environment with a coupled CFD and multi-segment human thermoregulation model," Building and Environment, vol. 227, 2023.

[20]

A. Behzadi and S. Sadrizadeh, "A rule-based energy management strategy for a low-temperature solar/ wind-driven heating system optimized by the machine learning-assisted grey wolf approach," Energy Conversion and Management, vol. 277, pp. 116590, 2023.

[21]

R. Sun et al., "Building form and outdoor thermal comfort : Inverse design the microclimate of outdoor space for a kindergarten," Energy and Buildings, vol. 284, 2023.

[22]

S. Ma et al., "Temperature-dependent particle mass emission rate during heating of edible oils and their regression models," Environmental Pollution, vol. 323, 2023.

[23]

Z. Chen et al., "A review of data-driven fault detection and diagnostics for building HVAC systems," Applied Energy, vol. 339, 2023.

[24]

S. Ma et al., "Comparison of the time-dependent characteristics between particle mass and particle number emissions during oil heating and emission mitigation strategies," Building and Environment, vol. 242, 2023.

[25]

S. Ma et al., "Temperature-dependent particle number emission rates and emission characteristics during heating processes of edible oils," Environmental Pollution, vol. 333, 2023.

[26]

A. Kabanshi et al., "Windows of Opportunities : Orientation, Sizing and PV-Shading of the Glazed Area to Reduce Cooling Energy Demand in Sub-Sahara Africa," Energies, vol. 16, no. 9, pp. 3834, 2023.

[27]

A. Behzadi et al., "An efficient renewable hybridization based on hydrogen storage for peak demand reduction : A rule-based energy control and optimization using machine learning techniques," Journal of Energy Storage, vol. 57, 2023.

[28]

H. Pieskä, A. Ploskic and Q. Wang, "Life-cycle assessment of a radiant high-temperature cooling system in the Mediterranean climate," Building and Environment, vol. 245, 2023.

[29]

A. Behzadi and S. Sadrizadeh, "Grid-tied solar and biomass hybridization for multi-family houses in Sweden : An optimal rule-based control framework through machine learning approach," Renewable energy, vol. 218, 2023.

[30]

L. Lei and W. Liu, "Inverse identification model for release rates of multiple gaseous pollution sources in an aircraft cabin," Indoor + Built Environment, vol. 32, no. 9, pp. 1798-1810, 2023.

[31]

Y. Wang et al., "Simulation study of the purification system for indoor oil mist control in machining factories," Building Simulation, vol. 16, no. 8, pp. 1361-1374, 2023.

[32]

W. Liu et al., "An open-source and experimentally guided CFD strategy for predicting air distribution in data centers with air-cooling," Building and Environment, vol. 242, 2023.

[33]

H. Amjadimanesh et al., "Micro-particle deposition in maxillary sinus for various sizes of opening in a virtual endoscopic surgery," Experimental and Computational Multiphase Flow, vol. 5, no. 3, pp. 262-271, 2023.

[34]

Y. Wang et al., "Prediction of urban airflow fields around isolated high-rise buildings using data-driven non-linear correction models," Building and Environment, vol. 246, 2023.

[35]

F. Liu et al., "Shape optimization of the exhaust hood in machining workshops by a discrete adjoint method," Building and Environment, vol. 244, 2023.

[36]

P. Li, W. Liu and T. (. Zhang, "CFD modeling of dynamic airflow and particle transmission in an aircraft lavatory," Building Simulation, vol. 16, no. 8, pp. 1375-1390, 2023.

[37]

A. Fonsati et al., "From Geotechnical Data to GeoBIM Models : Testing Strategies for an Ex-Industrial Site in Turin," Buildings, vol. 13, no. 9, 2023.

[38]

L. Lei et al., "A dynamic anomaly detection method of building energy consumption based on data mining technology," Energy, vol. 263, pp. 125575, 2023.

[39]

A. Dervishaj, "From Sustainability to Regeneration : a digital framework with BIM and computational design methods," Architecture, Structures and Construction, vol. 3, no. 3, pp. 315-336, 2023.

[40]

H. Amjadimanesh et al., "The effect of body position while coughing on the airborne transmission of pathogens," Physics of fluids, vol. 34, no. 4, pp. 041902, 2022.

[41]

S. Zheng et al., "Evaluation and comparison of various fast fluid dynamics modeling methods for predicting airflow around buildings," Building Simulation, vol. 15, no. 6, pp. 1083-1095, 2022.

[42]

F. Yuan et al., "Thermal comfort in hospital buildings - A literature review," Journal of Building Engineering, vol. 45, 2022.

[43]

T. Dai et al., "Evaluation of fast fluid dynamics with different turbulence models for predicting outdoor airflow and pollutant dispersion," Sustainable cities and society, vol. 77, pp. 103583, 2022.

[44]

M. Hu et al., "Comparing calculation methods of state transfer matrix in Markov chain models for indoor contaminant transport," Building and Environment, vol. 207, pp. 108515, 2022.

[45]

W. Liu et al., "Performance of fast fluid dynamics with a semi-Lagrangian scheme and an implicit upwind scheme in simulating indoor/outdoor airflow," Building and Environment, vol. 207, 2022.

[46]

S. Ma et al., "Indoor thermal environment in a rural dwelling heated by air-source heat pump air-conditioner," Sustainable Energy Technologies and Assessments, vol. 51, 2022.

[47]

A. Behzadi et al., "A comparative evaluation of alternative optimization strategies for a novel heliostat-driven hydrogen production/injection system coupled with a vanadium chlorine cycle," Energy Conversion and Management, vol. 267, pp. 115878, 2022.

[48]

F. Nasiri et al., "Data Analytics and Information Technologies for Smart Energy Storage Systems : A State-of-the-Art Review," Sustainable cities and society, vol. 84, pp. 104004, 2022.

[49]

K. Moshksayan et al., "In-silico investigation of airflow and micro-particle deposition in human nasal airway pre- and post-virtual transnasal sphenoidotomy surgery," Computer Methods in Biomechanics and Biomedical Engineering, vol. 25, no. 9, pp. 1000-1014, 2022.

[50]

S. Sadrizadeh et al., "Indoor air quality and health in schools : A critical review for developing the roadmap for the future school environment," Journal of Building Engineering, vol. 57, 2022.