Your search keyword '"Köckler H"' showing total 2 results

1. Assessing local heat stress and air quality with the use of remote sensing and pedestrian perception in urban microclimate simulations.

Author

Schaefer M, Ebrahimi Salari H, Köckler H, and Thinh NX

Subjects

Cities, Heat-Shock Response, Hot Temperature, Humans, Microclimate, Perception, Remote Sensing Technology, Air Pollution, Pedestrians

Abstract

Cities are increasingly confronted with multiple environmental and climatic stressors. Especially during heatwaves, street canyons are both producers and sufferers of air pollution and urban heat island (UHI) effects, with severe risks on public health. To better design mitigation measures, it is important to consider both the microclimate behaviors as well as the perceptions of the local population. Therefore, this study examined pedestrian perceptions and microclimate modelings to understand outdoor thermal comfort conditions and air pollution dispersion in the case study neighborhood of Dortmund Marten, Germany. A field survey with measurement points at two street canyons for climatic variables and questionnaires on subjective thermal comfort and air pollution was conducted on a hot day during the heatwave period in August 2020. As a cost-effective method for modeling input generation, we extracted spatial and spectral data like albedo, roof materials and tree locations out of remote sensing imageries. Finally, we compared the modeling results of the physiological equivalent temperature (PET) index, particulate matter concentrations and air temperatures with empirical field measurement data and the questionnaire responses. Results indicate that during hot summer days with light winds from the east, the north-south orientated street canyon with tree arrangements tends to act as a tunnel for particulate matter accumulation. Coincidently, pedestrians show less thermal discomfort than calculated PET values in that particular area during morning and daytime, which underlines the dichotomy of such places. On the other hand, the low rise east-west orientated street canyon shows higher PET votes than predicted by the model. However, particulate matter concentrations were considerably underestimated by the model, while air temperature predictions provided meaningful results. The proposed workflow shows the potential to accelerate future preparations of input data for microclimate modelings, while the results can enhance wind-sensitive planning procedures and heat stress resilience in mid-latitude urban neighborhoods., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021

2. [The city as a place for healthy living?! : Urban development as a health policy area].

Author

Köckler H and Sieber R

Subjects

Cities, Germany, Noise, Health Policy, Urban Renewal

Abstract

Cities can be described by different factors. From a health perspective, density is a factor of great importance. Cities are seen as dynamic places with interaction between built and social environments as well as design by societal stakeholders. This is illustrated through the example of noise and greenspaces as determinants of health and the provision of health services. Different city types and guiding principles of spatial and urban development are explained through the health lens. The potential to influence health determinants through local interventions is illustrated by planning instruments of urban development and environmental protection. Participation of the public and other stakeholders plays a crucial role in local settings. This paper shows the great potential of healthy urban development, which is not utilized in many cases.

Published

2020