Evolution of Water Supply Through the Millennia
IWA Publishing, 14 באפר׳ 2012 - 584 עמודים
Evolution of Water Supply Through the Millennia presents the major achievements in the scientific fields of water supply technologies and management throughout the millennia. It provides valuable insights into ancient water supply technologies with their apparent characteristics of durability, adaptability to the environment, and sustainability.
A comparison of the water technological developments in several civilizations is undertaken. These technologies are the underpinning of modern achievements in water engineering and management practices. It is the best proof that “the past is the key for the future.” Rapid technological progress in the twentieth century created a disregard for past water technologies that were considered to be far behind the present ones. There are a great deal of unresolved problems related to the management principles, such as the decentralization of the processes, the durability of the water projects, the cost effectiveness, and sustainability issues such as protection from floods and droughts. In the developing world, such problems were intensified to an unprecedented degree. Moreover, new problems have arisen such as the contamination of surface and groundwater. Naturally, intensification of unresolved problems led societies to revisit the past and to reinvestigate the successful past achievements. To their surprise, those who attempted this retrospect, based on archaeological, historical, and technical evidence were impressed by two things: the similarity of principles with present ones and the advanced level of water engineering and management practices.
Evolution of Water Supply Through the Millennia is intended for engineers in water resources companies, hydraulic design companies, and water Institutes. It can be used for all courses related to water resources.
Authors: Andreas N. Angelakis, Institute of Iraklion, National Foundation for Agricultural Research (N.AG.RE.F.), Greece, Larry W. Mays, School of Sustainable Engineering and the Built Environment, Arizona State University, USA, Demetris Koutsoyiannis, School of Civil Engineering, National Technical University of Athens, Greece, Nikos Manassis, School of Civil Engineering, National Technical University of Athens, Greece.
Acropolis Agora agricultural ancient ancient Greece Angelakis A. N. aquifer archaeological Aspendos Athens Barcelona basin baths Beijing Birrichaga Bronze Age built canals centre century BC Chang’an channel China cisterns city’s civilizations climate construction Crete culture Cyprus disease drainage drinking water Dynasty East Egypt Egyptian engineering excavations flood fountains Greece Greek groundwater Hadrianic Hellenistic Hohokam hydraulic Incas infrastructure Iraklion Iran irrigation island Jerusalem Jiménez karez Knossos Koutsoyiannis Lake located Luoyang Mediterranean Mesoamerica Mexico City Minoan modern Montcada municipal Nile Northern Song Dynasty palace Peisistratean Persepolis Peru pipeline population projects qanats region reservoir River Roman aqueducts Roman period Rome shown in Figure sources springs stone storage structures supply water surface technologies Teotihuacan terracotta terracotta pipes thermae town tunnel Turpan Tylissos underground urban water Valley walls wastewater water flow water management water resources water supply system water systems waterworks weir