Early warning system for detection of urban pluvial flooding hazard levels in an ungauged basin

[EN] Prolonged and high intensity rainfall often saturates urban drainage systems and generates urban pluvial flooding, resulting in hazardous flash floods. The city most affected by urban flooding in Colombia (South America) is Barranquilla since lacks a proper storm water drainage system. Heavy rainfall produces flash floods to quickly become torrential streams that flow down the streets endangering pedestrians. This research describes a low-cost early warning system (EWS) to detect in real time the hazard level of a stream in an ungauged basin. The EWS indicates whether it is safe or not for pedestrians to cross a flooded street, based on certain criteria used to assess the hazard level of the torrent. A hydrological and hydraulic model calculates the flow, velocity and water level in all cross sections along the stream. The model uses only real-time measurements of rain gauges and topographic survey data to determine the hazard level. Finally, a wireless sensor network sends the alert to a web platform and warns the community in real time.This project was developed in collaboration with the Institute for Molecular Imaging Instrumentation (I3M) of Polytechnic University of Valencia, Spain, in the area of Electronic Systems Design, and funded by the Administrative Department of Science, Technology and Innovation of the presidency of the Republic of Colombia (COLCIENCIAS).Acosta-Coll, M.; Ballester Merelo, FJ.; Martínez-Peiró, MA. (2018). Early warning system for detection of urban pluvial flooding hazard levels in an ungauged basin. Natural Hazards. 92(4):1237-1265. https://doi.org/10.1007/s11069-018-3249-4S12371265924Abt S, Wittier R, Taylor A, Love D (1989) Human stability in a high flood hazard zone. J Am Water Resour As 25(4):881–890Archer DR, Fowler HJ (2015) Characterizing flash flood response to intense rainfall and impacts using historical information and gauged data in Britain. J Flood Risk Manag. https://doi.org/10.1111/jfr3.12187Arrieta J, Fernandez Y (2015) Estimación de los caudales del arroyo la segunda brigada II para diferentes períodos de retorno aplicando las herramientas computacionales EPA-SWMM y HEC-RAS. Undergraduate, Universidad de la CostaBenzerra A, Cherrared M, Chocat B, Cherqui F, Zekiouk T (2012) Decision support for sustainable urban drainage system management: a case study of Jijel, Algeria. J Environ Manag 101:46–53Borga M, Boscolo P, Zanon F, Sangati M (2007) Hydrometeorological analysis of the 29 August 2003 flash flood in the Eastern Italian Alps. J Hydrometeor 8(5):1049–1067Cama-Pinto A, Piñeres-Espitia G, Zamora-Musa R, Acosta M, Caicedo-Ortiz J, Sepúlveda-Ojeda M (2016) Diseño de una red de sensores inalámbricos para la monitorización de inundaciones repentinas en la ciudad de Barranquilla—Colombia. INGENIARE, Revista chilena de Ingeniería. ISSN 0718-3291 24(4)CCRFCD (Clark County Regional Flood Control District) (1999) Hydrologic criteria and drainage design manual. Las Vegas, NVCherqui F, Belmeziti A, Granger D, Sourdril A, Le Gauffre P (2015) Assessing urban potential flooding risk and identifying effective risk-reduction measures. Sci Total Environ 514:418–425Chow V (1994) Open-channel hydraulics. McGraw-Hill, New YorkChow V, Maidment D, Mays L (1994) Applied hydrology. McGraw-Hill, New YorkDavey M, Brookshaw A, Ineson S (2014) The probability of the impact of ENSO on precipitation and near-surface temperature. Clim Risk Manag 1:5–24Douglas I, Garvin S, Lawson N, Richards J, Tippett J, White I (2010) Urban pluvial flooding: a qualitative case study of cause, effect and nonstructural mitigation. J Flood Risk Manag 3(2):112–125Fakhruddin SHM, Kawasaki A, Babel MS (2015) Community responses to flood early warning system: case study in Kaijuri Union, Bangladesh. Int J Disaster Risk Reduct 14:323–331Falconer R, Cobby D, Smyth P, Astle G, Dent J, Golding B (2009) Pluvial flooding: new approaches in flood warning, mapping and risk management. J Flood Risk Manag 2(3):198–208Gomez M (ed) (2007) Hidrología Urbana, 1st edn. Dinàmica fluvial i enginyeria hidrológica FLUMEN, Barcelona, pp 147–174Gomez M (2008) Curso de hidrología urbana, 7th edn. Universitat Politècnica de Catalunya, BarcelonaIDEAM (Instituto de Hidrología, Meteorología y Estudios Ambientales) (2016) Se intensifica fenómeno el niño y alcanza intensidad moderada. rendición de cuentas - noticias - ideam. http://www.ideam.gov.co/web/sala-de-prensa/noticias/-/asset_publisher/96oxgzahhrhj/content/fenomeno-el-nino-se-intensifica-y-alcanza-intensidad-moderada . Accessed 10 Aug 2016IFRC, International Federation of Red Cross and Crescent societies (2014) World disasters report focus on culture and risk. Retrieved November 20, 2017 from http://www.ifrc.org/Global/Documents/Secretariat/201410/WDR2014.pdfKin R, Pong L, Balsari S, Hsiao K, Newnham E, Patrick K et al (2017) Urban disaster preparedness of Hong Kong residents: a territory-wide survey. Int J Disaster Risk Reduct 23:62–69Martínez-Gomariz E, Gómez M, Russo B (2016) Experimental study of the stability of pedestrians exposed to urban pluvial flooding. Nat Hazards 82(2):1259–1278Martínez-Gomariz E, Gómez M, Russo B, Djordjević S (2017) A new experiments-based methodology to define the stability threshold for any vehicle exposed to flooding. Urban Water J 14(9):930–939. https://doi.org/10.1080/1573062X.2017.1301501Nanía LS (1999) Metodología numérica experimental para el análisis del riesgo asociado a la escorrentía pluvial en una red de calles. Doctoral thesis, Universitat Politècnica de Catalunya, Barcelona, EspañaNRCS, Natural Resources Conservation Service (2009) National engineering handbook. Part 630: Hydrology, chapter 7: Hydrologic soil groups. https://www.wcc.nrcs.usda.gov/ftpref/wntsc/H&H/NEHhydrology/ch7.pdf . Accessed 10 May 2017Östberg J, Martinsson M, Stål Ö, Fransson A (2012) Risk of root intrusion by tree and shrub species into sewer pipes in Swedish urban areas. Urban For Urban Green 11(1):65–71PNUD (Programa de la Naciones Unidas para el Desarrollo Colombia-PNUD, Unidad Nacional para la Gestión del Riesgo) (2012) Proyecto Gestión Integral del Riesgo y Adaptación al Cambio Climático Caribe PNUD-UNGRD, ¨Plan Departamental de Gestión del Riesgo Atlántico. Panamericana, BogotáInnocenti D (2014) When science meets policy: Enhancing governance and management of disaster risks. In: Quevauviller P (ed) Hydrometeorological hazards: Interfacing science and policy. Wiley, Chichester, UK. https://doi.org/10.1002/9781118629567.ch2aRooseboom A, Basson MS, Loots CH, Wiggett JH, Bosman J (1986) Manual on road drainage, 2nd edn. National Transport Commission, JohannesburgRusso B (2009) Design of surface drainage systems according to hazard criteria related to flooding of urban areas. Doctoral thesis, Universitat Politècnica de Catalunya, Barcelona, SpainSCS (Soil Conservation Service), US department of Agriculture (1985) National engineering handbook, section 4, hydrology. US Government Printing Office, Washington, p 544Shand T, Cox R, Blacka M, Smith G (2011) Revision project 10: appropriate safety criteria for vehicles. Report number P10/S2/020Špitalar M, Gourley J, Lutoff C, Kirstetter P, Brilly M, Carr N (2014) Analysis of flash flood parameters and human impacts in the US from 2006 to 2012. J Hydrol 519:863–870Sunkpho J, Ootamakorn Ch (2011) Real-time flood monitoring and warning system. Songklanakarin J Sci Technol 33(2):227–235Témez JR (1992) Control del desarrollo urbano en las zonas inundables. Colegio de Ingenieros de Caminos, Canales y Puertos, Madrid, 10, pp 105–115Tingsanchali T (2011) Urban flood disaster management. Procedia Eng 32(2012):25–27UCAR (University Corporation for Atmospheric Research) (2010) Flash flood early warning system reference guide 2010. ISBN 978-0-615-37421-5UDFCD (Urban Drainage and Flood Control District) (1969) Urban storm drainage criteria manual: volume 1 management, hydrology, and hydraulics. UDFCD updated 2016UNGRD (Unidad Nacional para la Gestión del Riesgo de Desastre) (2012) Guía metodológica para la elaboración de planes departamentales para la gestión del riesgo. Fortalecimiento de las Capacidades Institucionales para la Implementación de Prácticas Locales de Gestión del Riesgo como Medida de Adaptación al Cambio Climático en la Zona Insular y Costera del Caribe Colombiano. COL/72959 PNUD-UNGRD, PanamericanaWächter J, Babeyko A, Fleischer J, Häner R, Hammitzsch M, Kloth A, Lendholt M (2012) Development of tsunami early warning systems and future challenges. Nat Hazards Earth Syst Sci 12(6):1923–1935Yang T, Yang S, Ho J, Lin G, Hwang G, Lee C (2015) Flash flood warnings using the ensemble precipitation forecasting technique: a case study on forecasting floods in Taiwan caused by typhoons. J Hydrol 520:367–378Zolotokrylin A, Titkova T, Brito-Castillo L (2016) Wet and dry patterns associated with ENSO events in the Sonoran Desert from, 2000–2015. J Arid Environ 134:21–3