Ecological Design for Urban Regeneration in Industrial Metropolitan Areas: The Santa Cruz Refinery Case

  1. López-Arquillo, Juan Diego 2
  2. Cristiana, Oliveira 2
  3. Víctor, Cano Ciborro 2
  4. José Luis, Esteban Penelas 3
  5. Francisco, Domouso de Alba 3
  6. Mariana Bernice, Arteaga Orozco 1
  1. 1 Universidad Politécnica de Madrid
    info

    Universidad Politécnica de Madrid

    Madrid, España

    ROR https://ror.org/03n6nwv02

  2. 2 Universidad Europea de Canarias
    info

    Universidad Europea de Canarias

    Orotava, España

    ROR https://ror.org/051xcrt66

  3. 3 Universidad Europea de Madrid
    info

    Universidad Europea de Madrid

    Madrid, España

    ROR https://ror.org/04dp46240

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Zeitschrift:
Urban Science

ISSN: 2413-8851

Datum der Publikation: 2024

Ausgabe: 8

Nummer: 3

Seiten: 114

Art: Artikel

DOI: 10.3390/URBANSCI8030114 GOOGLE SCHOLAR lock_openOpen Access editor

Andere Publikationen in: Urban Science

Zusammenfassung

Ecological design is crucial in shaping contemporary, resilient, and livable cities. The Santa Cruz de Tenerife Refinery, a prominent landmark in the Mid-Atlantic, serves as an exemplary case study for understanding advanced metropolitan processes and integrating trans-scalar, transdisciplinary, and nature-based solutions (NBS) practices into urban contexts. This article explores the challenges of transforming obsolete industrial areas, including the refinery’s decommissioning process, its port, and industrial heritage value, and their relationship with the sea, into vibrant urban cores. It examines innovative strategies for land use, decontamination, and urban resilience, which are vital for fostering adaptability and recovery from natural and anthropogenic disasters. By emphasizing the refinery’s connection to Santa Cruz de Tenerife and its metropolitan area, as well as its coastal interface, this study proposes a comprehensive methodology to assess the territorial impacts of urban processes and guide project decisions toward enhancing the quality of life for the region’s residents.

Bibliographische Referenzen

  • (2008), Estud. Geogr., 69, pp. 23
  • Rosa, (2017), Landsc. Urban Plan., 157, pp. 180, 10.1016/j.landurbplan.2016.05.031
  • (2018), Archit. Civ. Eng. Environ., 11, pp. 21
  • Rimba, A.B., Setiawati, M.D., Sambah, A.B., and Miura, F. (2017). Physical Flood Vulnerability Mapping Applying Geospatial Techniques in Okazaki City, Aichi Prefecture, Japan. Urban Sci., 1.
  • Van der Ryn, S., and Cowan, S. (2007). Ecological Design, Island Press. [10th anniversary ed.].
  • von Uexküll, J.J. (2016). Andanzas por los Mundos Circundantes de los Animales y los Hombres, Cactus.
  • Marnat, L., Périnaud, C., Samuel, J., and Gesquière, G. (2023, January 13). Storytelling about Industrial Territories in a Place Using a 3D Urban Environment. Proceedings of the 7th ACM SIGSPATIAL International Workshop on Geospatial Humanities, New York, NY, USA. Available online: https://dl.acm.org/doi/abs/10.1145/3615887.3627755.
  • Kabisch, (2019), Geograph. Tech., 14, pp. 98, 10.21163/GT_2019.141.23
  • McPhearson, T., Kabisch, N., and Frantzeskaki, N. (2023). Nature Based-Solutions for Cities, Edward Elgar.
  • Aletta, F., Brambilla, G., Maffei, L., and Masullo, M. (2017). Urban Soundscapes: Characterization of a Pedestrian Tourist Route in Sorrento (Italy). Urban Sci., 1.
  • Fainstein, (2013), Urban, 6, pp. 7
  • Augé, M. (1995). Non-Places: Introduction to an Anthropology of Supermodernity, Verso Books.
  • Clément, G. (2005). Manifiesto del Tercer Paisaje, Ediciones Acantilado.
  • Bohigas, (1986), Monogr. Dir. Gen. Archit. Edif., 2, pp. 12
  • Kallipoliti, L. (2024). Histories of Ecological Design: An Unfinished Cyclopedia, ACTAR.
  • VV.AA (2023, December 09). Annual Report 2020 of UN Habitat. Available online: https://unhabitat.org/sites/default/files/2021/05/annual_progress_report_2020_final.pdf.
  • Mega, V.P. (2016). Sustainable Regeneration of Coastal Cities. Conscious Coastal Cities: Sustainability, Blue Green Growth, and the Politics of Imagination, Springer. Available online: https://link.springer.com/chapter/10.1007/978-3-319-20218-1_8.
  • Roberts, M. (2023). Thriving: Making Cities Green, Resilient, and Inclusive in a Changing Climate, World Bank. Available online: http://hdl.handle.net/10986/38295.
  • García, D.B. (2021). Urban Policies and Large Projects in Central City Areas: The Example of Madrid (Spain). Urban Sci., 5.
  • Ducruet, (2006), J. Int. Logist. Trade, 4, pp. 13, 10.24006/jilt.2006.4.2.13
  • Meliá, J.T. (1994). Santa Cruz de Tenerife through Cartography [1588–1899], Centro de Cultura Militar de Canarias, Ministerio de Defensa.
  • Smith, (2007), Urban Geogr., 28, pp. 276, 10.2747/0272-3638.28.3.276
  • (2020), Estud. Geogr., 81, pp. e034
  • Donelli, (2017), J. Urban Plan. Landsc. Environ. Des., 2, pp. 117
  • Matallana, (1986), Coloq. Hist. Canar. Am., 1, pp. 785
  • Corbella, (2002), Estud. Canar., 47, pp. 51
  • (2021), Arquitectónica, 26, pp. 270
  • Sambricio, (1984), Basa, 2, pp. 78
  • Chávez, C.M.G. (1992). Contemporary Urbanism in Santa Cruz de Tenerife. [Doctoral Thesis, Universidad de La Laguna].
  • (1992), Coloq. Hist. Canar. Am., 3, pp. 1047
  • (2017), Anu. Estud. Atlánticos, 63, pp. 1
  • Instituto Nacional de Estadística (2023, December 09). Annual Report of Official Population Figures of Spanish Municipalities under the Local Regime Law (Art. 17). Available online: https://ine.es/dynt3/inebase/es/index.htm?padre=525.
  • Molino Almazán, J.F., and Ruíz Rodríguez, F.A. (2024, April 16). Architecture and Territory. The Dismantling of the El Cabo Neighborhood (1957–2022). Available online: https://riull.ull.es/xmlui/handle/915/32615.
  • (2019), Bol. Asoc. Geógrafos Españoles, 83, pp. 15
  • Hübscher, M., and Ringel, J. (2021). Opaque Urban Planning. The Megaproject Santa Cruz Verde 2030 Seen from the Local Perspective (Tenerife, Spain). Urban Sci., 5.
  • Furst, P.T. (1972). Nahmad Salomon. Myths and Art of the Huicholes, SEP/Setentas.
  • Pardo, J.L. (1992). The Forms of Exteriority, Editorial Pre-Textos.
  • Pervolarakis, (2022), Heritage, 5, pp. 956, 10.3390/heritage5020052
  • Haerpfer, C., Inglehart, R., Moreno, A., Welzel, C., Kizilova, K., Diez-Medrano, J., Lagos, M., Norris, P., Ponarin, E., and Puranen, B. (2022). World Values Survey: Round Seven—Country-Pooled Datafile Version 5.0, JD Systems Institute & WVSA Secretariat.
  • Voelkel, J., and Shandas, V. (2017). Towards Systematic Prediction of Urban Heat Islands: Grounding Measurements, Assessing Modeling Techniques. Climate, 5.
  • Lehmann, (2016), Fut. Cities Environ., 2, pp. 8, 10.1186/s40984-016-0021-3
  • Paschalidou, (2022), Heritage, 5, pp. 1066, 10.3390/heritage5020058
  • Gottero, E., Larcher, F., and Cassatella, C. (2023). Defining and Regulating Peri-Urban Areas through a Landscape Planning Approach: The Case Study of Turin Metropolitan Area (Italy). Land, 12.
  • Guattari, F. (2000). The Three Ecologies, Continuum.
  • Haraway, D. (1991). Simians, Cyborgs, and Women, Routledge.
  • VRIIC, C. (2024, June 19). Tecnología Patentada Usach: Equipo de Investigación Crea Recubrimiento Para la Construcción que Reduce los Contaminantes Atmosféricos. VRIIC. Available online: https://vriic.usach.cl/index.php/tecnologia-patentada-usach-equipo-de-investigacion-crea-recubrimiento-para-la-construccion-que-reduce-los-contaminantes-atmosfericos/.