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dc.contributor.authorCholil, Munawar
dc.date.accessioned2012-05-11T04:18:38Z
dc.date.available2012-05-11T04:18:38Z
dc.date.issued1998-12
dc.identifier.citationAnonimus. 1975. Peraturan Menteri Kesehatan Republik Indonesia No.01/Birhukmas/I/1975. Tentang Syarat-syarat dan Pengawasan Kualitas Air Minum. Jakarta : Departemen Kesehatan RI. Anonimus. 1989. Pengembangan dan Rehabilitasi Sistem Penyediaan Air Minum. Surakarta : Perusahaan Daerah Air Minum Kotamadya Surakarta. Anonimus. 1993. Neraca Sumber Daya Air Kotamadya Surakarta. Surakarta : Bapedda Kotamadya Surakarta. Anonimus. 1993. Statistik Kotamadya Surakarta. Surakarta : Kantor Statistik Kotamadya Surakarta. Davis, S.N. and De Wiest. 1996. Hydrogeology. New York : John Willey & Sons, Inc. Koppen-Geiger. 1936. Handbuch der Klimatologie Verlagsbuch Handlung. Cefruder Brontalges, Berlin, as Quated in Bernhard Haurwitz, Ph.D. and James M. Austine, Sc. D. 1994. Climatology. McGraw Hill-Book Company. Krusseman, GP and De Ridder NA. 1970. Analysis and Evaluation of Pumping Test Data. Netherland : ILRI. Wegeningen. Munawar Cholil. 1983. Airtanah Bebas Sebagai Salah Satu Sumber Air Minum Kotamadya Surakarta. Skripsi. Yogyakarta : Sarjana Fakultas Geografi UGM. Schmidt, F.H. and Fergusson, JHA. 1951. Rainfall Types Based On Wet and Dry Period Ration for Indonesia with Western New Gunea. Jakarta : Kementerian Perhubungan Jawatan Meteorologi dan Geofisika. Surakarta Water Project. 1979. Groundwater Investigation and Well Development Report. Ministry of Public Work, Directorate General Cipta Karya and Directorate of Sanitary Engineering. Suyono Sosrodarsono dan Kensaku Takeda. 1980. Hidrologi Untuk Pengairan. Jakarta : PT. Pradnya Paramita. Todd, David, Keith. 1959. Groundwater Hydrology. New York : John Willey & Sons. Inc. Walton. 1970. Groundwater Resources Evaluation. New Delhi : McGraw Hill Kogukushaen_US
dc.identifier.issn0852-2682
dc.identifier.urihttp://hdl.handle.net/11617/1392
dc.description.abstractThis research was intended to know the cause of drawdown of artesian groundwater surface and analyze on exploiting its groundwater in Surakarta The total amount of groundwater exploitation in Surakarta will be 69,206.4 m¬3 a day if it is compared with the groundwater runoff capacity of unconfined aquifer as 8,860.9 m3 a day and confined aquifer as 42,447.3 m3 a day. Thus, total amount of groundwater runoff in Surakarta is 51,308.2 a day. Groundwater exploitation has exceeded the capacity of groundwater runoff as 17,898.2 m3 a day, so the reservoir of groundwater is reduce continually. Groundwater exploitation in the location of the research has caused a piezometric drawdown. In 1990, its piezometric was negative, it means that the position of the piezometric was under the surface of land, while in 1990 artesian well indicated that its piezometric was almost nearly positive. Thus, the piezometric drawdown averaged 9.4 meters. In the center of the city, it happened the cone of depression at piezometric contour in 1990, so a piezometric drawdown that resulted from groundwater exploitation exceeding the runoff of groundwater was proved. As a result of groundwater exploitation excessively, it resulted in the inequilibrium of groundwater. This depression has been extending continually as a result of adding well, so it results in a groundwater drawdown permanently, as happened in the location of the research.en_US
dc.publisherlppmumsen_US
dc.subjectgroundwateren_US
dc.subjectconfined aquiferen_US
dc.subjectpiezometricen_US
dc.titleANALISIS PENURUNAN MUKA AIRTANAH DI KOTAMADYA SURAKARTAen_US
dc.typeArticleen_US


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