Amsterwarm: Gebiedstypologie warmte-eiland Amsterdam
Abstract
Amsterwarm biedt met de ontwikkeling van een gebiedstypologie inzicht in het stedelijk warmte-eiland effect in de stad Amsterdam. De typologie maakt duidelijk in hoeverre de stad Amsterdam zelf bijdraagt aan het stedelijk warmte-eiland effect, in hoeverre buurten en woningen hun bewoners blootstellen aan het warmte-eiland effect, en in hoeverre de bewoners van de stad kwetsbaar zijn voor de gevolgen ervan. De typologie is gebaseerd op het ruimtegebruik fysieke kenmerken van Amsterdam, op de leefbaarheid en de woningkwaliteit, en op de samenstelling van de bevolking in de verschillende delen van de stad. De typologie geeft concrete handreikingen voor het soort actie die de stad Amsterdam kan ondernemen met oog op het welzijn en het comfort van haar bevolking, en met oog op het beperken van het energiegebruik om gebouwen te koelen tijdens warm weer. De gebiedstypologie maakt het mogelijk om uitspraken te doen over specifieke maatregelen/prioriteiten voor verschillende delen van de stad Amsterdam. Amsterwarm verkent tevens hoe sterk het warmte-eiland Amsterdam is.
References
Algemene Rekenkamer. (2012). Aanpassing aan klimaatverandering; strategie en beleid [kst-33470-1]. Netherlands, The Hague: Tweede Kamer der Staten-Generaal
Barsi, J. A., Schott, J. R., Palluconi, F. D., Hook, S. J. (2005). Validation of a web-based atmospheric correction tool for single thermal band instruments. In J. J. Butler (ed.), Proc. SPIE 5882, Earth Observing Systems X, 58820E. Bellingham, WA: SPIE. doi: 10.1117/12.619990
Daniele, V. (2010). Urban planning and design for local climate mitigation. A methodology based on remote sensing and GIS. Paper presented at the 46th ISOCARP Congress 2010, Nairobi, Kenya. Retrieved from http://www.isocarp.net/Data/case_studies/1815.pdf
Dousset, B., Gourmelon, F., Laaidi, K., Zeghnoun, A., Giraudet, E., Bretin, P., Maurid, E. & Vandentorren, S. (2011). Satellite monitoring of summer heat waves in the Paris metropolitan area. International Journal of Climatology, 31(2), 313-323. doi:10.1002/joc.2222
Dousset, B.; Gourmelon, F. (2003) Surface temperatures of the Paris Basin during summertime, Using satellite remote sensing data. In Proceedings of the 5th International Conference on Urban Climate, Lodz, Poland, September 2003. Retrieved from http://nargeo.geo.uni.lodz.pl/~icuc5/text/O_27A_2.pdf
Fabrizi, R., Bonafoni, S., Biondi, R. (2010). Satellite and Ground-Based Sensors for the Urban Heat Island Analysis in the City of Rome. Remote Sensing. 2010, 2(5), 1400-1415. doi:10.3390/rs2051400
Greater London Authority. (2006). London’s Urban Heat Island: A Summary for Decision Makers. Retrieved from http://legacy.london.gov.uk/mayor/environment/climate-change/docs/UHI_summary_report.pdf
Harman, I. N. (2003). The energy balance of urban areas. (Doctoral dissertation, The University of Reading, Reading, United Kingdom). Retrieved from http://www.met.rdg.ac.uk/phdtheses/The%20energy%20balance%20of%20urban%20areas.pdf
Houston Advanced Research Center (2009). Dallas urban heat island. Dallas sustainable skylines initiative. Retrieved from http://files.harc.edu/Projects/DallasUHI/FinalReport.pdf
JAM* Architecten & Merosch. (2011). Maxdak. Amsterdam, Netherlands: Programmabureau Klimaat & Energie & Projectbureau Wibaut aan de Amstel.
Mavrogianni A., Davies M., Batty M., Belcher S.E., Bohnenstengel S.I., Carruthers D., Chalabi Z., (...), Ye Z. (2011) The comfort, energy and health implications of London’s urban heat island. Building Services Engineering Research and Technology, 32 (1) , pp. 35-52. doi: 10.1177/0143624410394530
Mavrogianni, A., Davies, M., Chalabi, Z., Wilkinson, P., Kolokotroni, M., & Milner, J. (2009). Space heating demand and heatwave vulnerability: London domestic stock. Building Research & Information, 37(5-6), 583-597. doi:10.1080/09613210903162597
Oke, T. R. (1982). The energetic basis of the urban heat island. Quarterly Journal of the Royal Meteorological Society. 1982, 108(445), 1-24.
Rahola, B. S. van Oppen, P., Mulder, K. (2009). Heat in the city. An inventory of knowledge and knowledge deficiencies regarding heat stress in Dutch cities and options for its mitigation. Netherlands, Delft: TU Delft.
Robine, J. M., Cheung, S. L., Le Roy, S., Van Oyen, H., & Herrmann, F. R. (2007). Report on excess mortality in Europe during summer 2003 (EU Community Action Programme for Public Health, Grant Agreement 2005114). Retrieved from opa.eu/health/ph_projects/2005/action1/docs/action1_2005_a2_15_en.pdf
SPUR. (2011). Climate change hits home. Adaptation strategies for the San Francisco Bay Area. San Francisco Planning
and Urban Research Association, CA. Retrieved from http://www.spur.org/publications/library/report/climate-change-hits-home
United States Environmental Protection Agency (2008). Reducing Urban Heat Islands: Compendium of Strategies. Washington, DC: EPA. Retrieved from http://www.epa.gov/hiri/resources/compendium.htm
Van Hove, B., Steeneveld, G.-J., Jacobs, C., Heusinkveld, B., Elbers, J., Holtslag, B. (2011). Quantifying the Urban Heat Island Intensity. Literature review of observational studies and assessment of UHI intensity in the Netherlands. Wageningen, Netherlands: WUR.
Yale Center for Earth Observation. (2010). Converting Landsat TM and ETM+ thermal bands to temperature. Retrieved from http://www.yale.edu/ceo/Documentation/DN_to_Kelvin.pdf
Zakšek, K., Oštir, K., Kokalj, Ž. (2011). Sky-View Factor as a Relief Visualization Technique. Remote Sensing, 3(2), 398-415.
Barsi, J. A., Schott, J. R., Palluconi, F. D., Hook, S. J. (2005). Validation of a web-based atmospheric correction tool for single thermal band instruments. In J. J. Butler (ed.), Proc. SPIE 5882, Earth Observing Systems X, 58820E. Bellingham, WA: SPIE. doi: 10.1117/12.619990
Daniele, V. (2010). Urban planning and design for local climate mitigation. A methodology based on remote sensing and GIS. Paper presented at the 46th ISOCARP Congress 2010, Nairobi, Kenya. Retrieved from http://www.isocarp.net/Data/case_studies/1815.pdf
Dousset, B., Gourmelon, F., Laaidi, K., Zeghnoun, A., Giraudet, E., Bretin, P., Maurid, E. & Vandentorren, S. (2011). Satellite monitoring of summer heat waves in the Paris metropolitan area. International Journal of Climatology, 31(2), 313-323. doi:10.1002/joc.2222
Dousset, B.; Gourmelon, F. (2003) Surface temperatures of the Paris Basin during summertime, Using satellite remote sensing data. In Proceedings of the 5th International Conference on Urban Climate, Lodz, Poland, September 2003. Retrieved from http://nargeo.geo.uni.lodz.pl/~icuc5/text/O_27A_2.pdf
Fabrizi, R., Bonafoni, S., Biondi, R. (2010). Satellite and Ground-Based Sensors for the Urban Heat Island Analysis in the City of Rome. Remote Sensing. 2010, 2(5), 1400-1415. doi:10.3390/rs2051400
Greater London Authority. (2006). London’s Urban Heat Island: A Summary for Decision Makers. Retrieved from http://legacy.london.gov.uk/mayor/environment/climate-change/docs/UHI_summary_report.pdf
Harman, I. N. (2003). The energy balance of urban areas. (Doctoral dissertation, The University of Reading, Reading, United Kingdom). Retrieved from http://www.met.rdg.ac.uk/phdtheses/The%20energy%20balance%20of%20urban%20areas.pdf
Houston Advanced Research Center (2009). Dallas urban heat island. Dallas sustainable skylines initiative. Retrieved from http://files.harc.edu/Projects/DallasUHI/FinalReport.pdf
JAM* Architecten & Merosch. (2011). Maxdak. Amsterdam, Netherlands: Programmabureau Klimaat & Energie & Projectbureau Wibaut aan de Amstel.
Mavrogianni A., Davies M., Batty M., Belcher S.E., Bohnenstengel S.I., Carruthers D., Chalabi Z., (...), Ye Z. (2011) The comfort, energy and health implications of London’s urban heat island. Building Services Engineering Research and Technology, 32 (1) , pp. 35-52. doi: 10.1177/0143624410394530
Mavrogianni, A., Davies, M., Chalabi, Z., Wilkinson, P., Kolokotroni, M., & Milner, J. (2009). Space heating demand and heatwave vulnerability: London domestic stock. Building Research & Information, 37(5-6), 583-597. doi:10.1080/09613210903162597
Oke, T. R. (1982). The energetic basis of the urban heat island. Quarterly Journal of the Royal Meteorological Society. 1982, 108(445), 1-24.
Rahola, B. S. van Oppen, P., Mulder, K. (2009). Heat in the city. An inventory of knowledge and knowledge deficiencies regarding heat stress in Dutch cities and options for its mitigation. Netherlands, Delft: TU Delft.
Robine, J. M., Cheung, S. L., Le Roy, S., Van Oyen, H., & Herrmann, F. R. (2007). Report on excess mortality in Europe during summer 2003 (EU Community Action Programme for Public Health, Grant Agreement 2005114). Retrieved from opa.eu/health/ph_projects/2005/action1/docs/action1_2005_a2_15_en.pdf
SPUR. (2011). Climate change hits home. Adaptation strategies for the San Francisco Bay Area. San Francisco Planning
and Urban Research Association, CA. Retrieved from http://www.spur.org/publications/library/report/climate-change-hits-home
United States Environmental Protection Agency (2008). Reducing Urban Heat Islands: Compendium of Strategies. Washington, DC: EPA. Retrieved from http://www.epa.gov/hiri/resources/compendium.htm
Van Hove, B., Steeneveld, G.-J., Jacobs, C., Heusinkveld, B., Elbers, J., Holtslag, B. (2011). Quantifying the Urban Heat Island Intensity. Literature review of observational studies and assessment of UHI intensity in the Netherlands. Wageningen, Netherlands: WUR.
Yale Center for Earth Observation. (2010). Converting Landsat TM and ETM+ thermal bands to temperature. Retrieved from http://www.yale.edu/ceo/Documentation/DN_to_Kelvin.pdf
Zakšek, K., Oštir, K., Kokalj, Ž. (2011). Sky-View Factor as a Relief Visualization Technique. Remote Sensing, 3(2), 398-415.
How to Cite
VAN DER HOEVEN, Frank; WANDL, Alexander.
Amsterwarm: Gebiedstypologie warmte-eiland Amsterdam.
BK projects, [S.l.], v. 1, n. 1, jan. 2018.
Available at: <https://journals.open.tudelft.nl/bkprojects/article/view/1973>. Date accessed: 27 may 2020.
Published
2018-01-28