TY  - JOUR
A1  - Alsaad, Hayder
A1  - Hartmann, Maria
A1  - Voelker, Conrad
T1  - The effect of a living wall system designated for greywater treatment on the hygrothermal performance of the facade
JF  - Energy and Buildings
N2  - Besides their multiple known benefits regarding urban microclimate, living walls can be used as decentralized stand-alone systems to treat greywater locally at the buildings. While this offers numerous environmental advantages, it can have a considerable impact on the hygrothermal performance of the facade as such systems involve bringing large quantities of water onto the facade. As it is difficult to represent complex entities such as plants in the typical simulation tools used for heat and moisture transport, this study suggests a new approach to tackle this challenge by coupling two tools: ENVI-Met and Delphin. ENVI-Met was used to simulate the impact of the plants to determine the local environmental parameters at the living wall. Delphin, on the other hand, was used to conduct the hygrothermal simulations using the local parameters calculated by ENVI-Met. Four wall constructions were investigated in this study: an uninsulated brick wall, a precast concrete plate, a sandy limestone wall, and a double-shell wall. The results showed that the living wall improved the U-value, the exterior surface temperature, and the heat flux through the wall. Moreover, the living wall did not increase the risk of moisture in the wall during winter and eliminated the risk of condensation.
KW  - Feuchteleitung
KW  - Diffusionswärme
KW  - Heat transport
KW  - Moisture transport
KW  - Living wall
KW  - Delphin
KW  - ENVI-Met
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20240116-65299
UR  - https://www.sciencedirect.com/science/article/pii/S0378778821009956
VL  - 2022
IS  - volume 255, article 111711
ER  - 
TY  - JOUR
A1  - Alsaad, Hayder
A1  - Hartmann, Maria
A1  - Völker, Conrad
T1  - Hygrothermal simulation data of a living wall system for decentralized greywater treatment
JF  - Data in Brief
N2  - This dataset presents the numerical analysis of the heat and moisture transport through a facade equipped with a living wall system designated for greywater treatment. While such greening systems provide many environmental benefits, they involve pumping large quantities of water onto the wall assembly, which can increase the risk of moisture in the wall as well as impaired energetic performance due to increased thermal conductivity with increased moisture content in the building materials. This dataset was acquired through numerical simulation using the coupling of two simulation tools, namely Envi-Met and Delphin. This coupling was used to include the complex role the plants play in shaping the near-wall environmental parameters in the hygrothermal simulations. Four different wall assemblies were investigated, each assembly was assessed twice: with and without the living wall. The presented data include the input and output parameters of the simulations, which were presented in the co-submitted article [1].
KW  - Kupplung
KW  - Feuchteleitung
KW  - Heat transport
KW  - Moisture transport
KW  - Living wall
KW  - Wärmeübertragung
KW  - coupling
KW  - ENVI-Met
KW  - Delphin
KW  - OA-Publikationsfonds2022
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20220106-45483
UR  - https://www.sciencedirect.com/science/article/pii/S2352340921010167?via%3Dihub
VL  - 2022
IS  - volume 40, article 107741
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Alsaad, Hayder
A1  - Hartmann, Maria
A1  - Hilbel, Rebecca
A1  - Völker, Conrad
T1  - ENVI-met validation data accompanied with simulation data of the impact of facade greening on the urban microclimate
JF  - Data in Brief
N2  - This dataset consists mainly of two subsets. The first subset includes measurements and simulation data conducted to validate the simulation tool ENVI-met. The measurements were conducted at the campus of the Bauhaus-University Weimar in Weimar, Germany and consisted of recording exterior air temperature, globe temperature, relative humidity, and wind velocity at 1.5 m at four points on four different days. After the measurements, the geometry of the campus was modelled and meshed; the simulations were conducted using the weather data of the measurements days with the aim of investigating the accuracy of the model.

The second data subset consists of ENVI-met simulation data of the potential of facade greening in improving the outdoor environment and the indoor air temperature during heatwaves in Central European cities. The data consist of the boundary conditions and the simulation output of two simulation models: with and without facade greening. The geometry of the models corresponded to a residential buildings district in Stuttgart, Germany. The simulation output consisted of exterior air temperature, mean radiant temperature, relative humidity, and wind velocity at 12 different probe points in the model in addition to the indoor air temperature of an exemplary building. The dataset presents both vertical profiles of the probed parameters as well as the time series output of the five-day simulation duration. Both data subsets correspond to the investigations presented in the co-submitted article [1].
KW  - Messung
KW  - Measurements
KW  - Simulations
KW  - ENVI-met
KW  - Living wall
KW  - Green facade
KW  - Simulation
KW  - OA-Publikationsfonds2022
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20220511-46455
UR  - https://www.sciencedirect.com/science/article/pii/S2352340922004048#!
VL  - 2022
IS  - Volume 42, article 108200
SP  - 1
EP  - 13
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Alsaad, Hayder
A1  - Schälte, Gereon
A1  - Schneeweiß, Mario
A1  - Becher, Lia
A1  - Pollack, Moritz
A1  - Gena, Amayu Wakoya
A1  - Schweiker, Marcel
A1  - Hartmann, Maria
A1  - Voelker, Conrad
A1  - Rossaint, Rolf
A1  - Irrgang, Matthias
T1  - The Spread of Exhaled Air and Aerosols during Physical Exercise
JF  - Journal of Clinical Medicine
N2  - Physical exercise demonstrates a special case of aerosol emission due to its associated elevated breathing rate. This can lead to a faster spread of airborne viruses and respiratory diseases. Therefore, this study investigates cross-infection risk during training. Twelve human subjects exercised on a cycle ergometer under three mask scenarios: no mask, surgical mask, and FFP2 mask. The emitted aerosols were measured in a grey room with a measurement setup equipped with an optical particle sensor. The spread of expired air was qualitatively and quantitatively assessed using schlieren imaging. Moreover, user satisfaction surveys were conducted to evaluate the comfort of wearing face masks during training. The results indicated that both surgical and FFP2 masks significantly reduced particles emission with a reduction efficiency of 87.1% and 91.3% of all particle sizes, respectively. However, compared to surgical masks, FFP2 masks provided a nearly tenfold greater reduction of the particle size range with long residence time in the air (0.3–0.5 μm). Furthermore, the investigated masks reduced exhalation spreading distances to less than 0.15 m and 0.1 m in the case of the surgical mask and FFP2 mask, respectively. User satisfaction solely differed with respect to perceived dyspnea between no mask and FFP2 mask conditions.
KW  - Sport
KW  - Training
KW  - Fahrradergometer
KW  - sport
KW  - training
KW  - cycle ergometer
KW  - schlieren imaging
KW  - particles concentration
KW  - OA-Publikationsfonds2023
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20230208-49262
UR  - https://www.mdpi.com/2077-0383/12/4/1300
VL  - 2023
IS  - Volume 12, issue 4, article 1300
PB  - Basel
CY  - MDPI
ER  -