DAFTAR PUSTAKA Allen J. R. L., 1984, Sedimentary Structures: Their Character and Physical Basis, Elsevier, Amsterdam, Vol. I. Basco D. R., (1982), Surf Zone Currents, Coastal Engineering Research Center, Kingman Building, Fort Belvoir, Virginia 22060. Battjes J.A., (1974), Computation of Set-Up, Longshore Currents, Run-Up and Overtopping Due to Wind-Generated Waves, Ph.D. Thesis, Technical University Delft, Delft. Bhakty T. E., Yuwono N., Triatmadja R., Triatmodjo B., (2010) Studi Model Fisik Pola Aliran Pada Bangunan Underwater Sill, Proc. PIT HATHI XXVII, Surabaya. CERC, 1984, Shore Protection Manual, US. Army Corps of Engineering Research Center, Washington (SPM, 1984). CUR, 1987, Manual on Artificial Beach Nourishment, Centre for Civil Engineering Research, Codes and Specification Rijkswaterstaat, Delft Hydraulics. Darbyshire M., and L Draper (1963), Forecasting Wind-Generated Sea Waves, National Institute of Oceanography, Wormley, Surrey, England, published in Engineering, April 5, 1963, pp 482-484. Dean R.G., Dalrymple R.A., 1991, Water Waves Mechanics For Engineers and Scientists, World Scientific, Singapore. Dunne T., 2008, Sediment Transport in Channels, http://www.powershow.com/ view/264871-YjQyY/Sediment_Transport_in_Channels_powerpoint_ ppt_presentation (diakses pada 24 Januari 2009). Dyer K. R., 1986, Coastal and Estuarine Sediment dynamics, John Wiley & Sons. Chichester. 342 p. Einstein H. A. and Krone R. B., 1962, Experiments to determine modes of cohesive sediment transport in salt water, J. G. Res., 67, 4, April. Fredsoe J., Deigaard R., 1992, Mechanics of Coastal Sediment Transport, World Scientific, London.
169
GarcĂa M., H., 2008, Sedimentation Engineering: Processes, Measurements, Modeling and Practice, ASCE Manual of Practice 110, Omaha, Nebraska, United States. Hedges T.S., 1977, Wave breaking and reflection, University of Liverpool, http://www.liv.ac.uk/~ec22/topics/Wave%20Breaking%20and%20Reflec tion.pdf (diakses pada 24 Januari 2013). Hidayat R., Irie, I., Morimoto K., Ono N., 2002, The Recent Experience Of Siltation Protection In Asian Ports, Proceeding of Coastal Engineering 2002, International Conference; 28th, Cardiff. Hidayat R., 2004, Study of submerged dike roles for protecting siltation in harbours and acces channels, Department of marine system engineering, graduate school of engineering, Kyushu University, Fukuoka-Japan. Inamar
S.,
2015,
Open
Channel
Flow,
Delaware
University,
http://udel.edu/~inamdar/EGTE215/Open_channel.pdf (diakses pada 11 Juli 2015). Irie I., Hidayat R., Morimoto K., Ono N., 2002, Study of Siltation Protection in Asian Ports, Proceedings of The Twelfth International Offshore and Polar Engineering Conference Kitakyushu, Japan. Irie I., Ono N., Morimoto K., Takeuchi N., Hidayat R., 2002, Cross Section of Submerged Dike For Efficient Siltation Protection, Proceeding of the 28th International Conference Coastal Engineering 2002, Cardif Wales, pp 1733-1743. Julien P. Y., (2010), Erosion And Sedimentation, Cambridge University Press. Julien P. Y., (2010), River Mechanics, Cambridge University Press. Kaihatu J., (2008), Ocean Wave Mechanics Course, http://ceprofs.civil.tamu.edu/jkaihatu/teaching/ocen671/index.html (diakses pada 27 Maret 2014 ). Koutitas C.G., 1988, Mathematical Models in Coastal Engineering, Pentech Press, London.
170
Longuet-Higgins, M.S., 1970, Longshore Currents Generated by Obliquely Incident Sea Waves, 1, Journal of Geophysical Research, Vol. 75, No. 33, 20 November 1970. Longuet-Higgins, M.S., 1970, Longshore Currents Generated by Obliquely Incident Sea Waves, 2, Journal of Geophysical Research, Vol. 75, No. 33, 20 November 1970. Longuet-Higgins, M.S., and Steward, R.W., 1964, Radiation Stress in Water Waves: a Physical Discussion, with Applications, Deep Sea Research, Vol. 11, pp 529-562, Pergamon Press Ltd. Printed in Great Britain. Luknanto
D.,
(2008),
Bahan
Kuliah
Hidraulika
Saluran
terbuka,
http://luk.staff.ugm.ac.id/ochannel/Pendahuluan/index.html
(diakses
pada 5 Oktober 2012). Mehta A.J., (1992), Characterization Of Cohesive Sediment Properties, Lecture Notes on Coastal and Estuarine Studies, Vol. 14, SpringerVerlag. http://www.agu.org/books/ln/v014/LN014p0290/LN014p0290.pdf (diakses pada 15 Agustus 2014 ). Ponce
V.
M.,
(2014),
Sediment
Transport,
http://ponce.sdsu.edu/cive530_lecture_17b.html (diakses pada 24 Januari 2013). PSIT UGM, (2013), Studi Kelautan, Lingkungan dan Abrasi Pantai Balongan, Indramayu, PT. Pertamina, Balongan. PSIT UGM, (2014), Simulasi 2d Dan Benchmark untuk Perpanjangan Jetty Dengan Underwater Sill (UWS) Area Pertamina (Persero) RU VI Balongan, Indramayu, PT. Pertamina, Balongan. Reeve D., Chadwick A., Fleming C., 2004, Coastal Engineering: Processes, Theory and Design Practice, Spon Press, London. Saptono H., 2000, Pengaruh Underwater Sill terhadap Angkutan Sedimen Suspensi Pada Saluran Aliran Terbuka, Tugas Akhir, Jurusan Teknik Sipil, Fakultas Teknik, Universitas Gadjah Mada, Yogyakarta.
171
Short
Andrew
D.,
2012,
Coastal
Processes
and
Beaches,
http://www.nature.com/scitable/knowledge/library/coastal-processesand-beaches-26276621 (diakses pada 27 November 2014). Sulistyono E., 2000, Mathematical Modelling of Suspended Sediment Transport Using Multi Layered Approach Characteristic Scheme, Tesis, Jurusan Teknik Sipil, Fakultas Teknik, Universitas Gadjah Mada, Yogyakarta. Thaha, M.A., Yuwono N., Triatmadja R., Fluidizer System Design For Maintenance Dredging: A Case Study On The Rivers Mouth Surrounding Bantaeng Coastline, Indonesia, 8th International Symposium on Lowland Technology, September 11-13, 2012 in Bali, Indonesia. Townson, J.M., 1967, Two dimensional Long-Wave Propagation in Estuaries, Disertasi, University of Aberdeen. Triatmadja R., 2009, Model Matematik Teknik Pantai, Beta offset, Yogyakarta. Triatmadja R. 1990, Numerical and Physical Studies of Shallow Water Waves with Special Reference to Landslide Generated Waves and the Method of Characteristics, PhD Thesis, University of Strathclyde, UK. Triatmodjo B., 2008, Teknik Pantai, Beta offset, Yogyakarta. Tsuruya H., Murakami K., Irie I., 1990, Mathematical Modeling of Mud Transport in Ports with a Multi-Layered Model-Application to Kumamoto Port, Report of the Port and Airport Research Instirute, Japan Vol. 29, No. 1, 51 p. Umar H., 2012, Kajian Parameter Struktur Groin Permeable Tiang Untuk Pengendalian Arus Menyusur Pantai (Longshore Current), Ringkasan Disertasi, Jurusan Teknik Sipil, Fakultas Teknik, Universitas Gadjah Mada, Yogyakarta. USACE, 2006, Coastal Engineering Manual, Washington DC. Van Rijn, 1990, Principles Of Fluid Flow And Surface Waves In Rivers, Estuaries, Seas, And Oceans, Aqua Publications, Amsterdam. Ven Te Chow, 1959, Open Channel Hydraulics, McGraw-Hill, New York.
172
Widiyanto W., 2000, Studi Model Fisik Silt Screen Untuk Mengurangi Pengendapan Sedimen Suspensi di alur Pelabuhan, Tugas Akhir, Jurusan Teknik Sipil, Fakultas Teknik, Universitas Gadjah Mada, Yogyakarta. Yang C.T., 1996, Sediment Transport Theory and Practice, The McGraw-Hill Companies, Inc., New York. Yuwono N., 2001a, Underwater Sill Structure For Semen Gresik Harbour at Tuban, Proceeding International seminar, High Performance Concrete and Underwater Concreting, Jakarta. Yuwono N., 2001b, Evaluasi Kinerja Underwater Sill Pelabuhan PT semen Gresik (Persero) Tbk di Tuban, Makalah Seminar Nasional Teknik Pantai, Pusat Antar Studi Ilmu Teknik, Universitas Gadjah Mada, Yogyakarta. Yuwono N., 1999, Evaluasi Rencana Pengembangan Kolam Labuh Pelabuhan PT. Semen Gresik di Tuban, Makalah Ilmiah, PAU-IT UGM. Yuwono N., 1986, Teknik Pantai, Biro Penerbit KMTS, Fakultas Teknik Universitas Gadjah Mada, Yogyakarta.
173
