DAFTAR PUSTAKA Ageyets V. 1991. Migration of caesium and strontium radionuclides in the various types of soil in Belarus. Proceedings of the 4th Conference on Geochemical Pathways of Migration of Artificial Radionuclides in Biosphere. Pushino: 26-36. ABARE Research Report. 2003. Australian Energy Consumption and Production. Historical trends and Projections. Australia Agus G, Syahrir 1998. Jalur Pontensial Perpindahan Radionuklida Di Calon Lokasi PLTN Semenanjung Muria. Jakarta: BATAN Akhadi M. 2001. Mengenal Proses kerja dan Jenis-jenis PLTN. Elektro Indonesia 7(36). Jakarta Alatas Z. 2003. Efek Kesehatan Pejanan Radiasi. Jakarta: BATAN. Alexakhin RM 2000. Major Radiation Accidents.. Di dalam: LA Ilyin and VA Gubanov (eds) Medical and Agroecological Consequences. Moscow. Alias AR, Morakot P. 2000. Spatial Data Modelling for 3D GIS. New York.: Springer. ESRI. All-Russian Medical and Dosimetric State Registry. 1993. Contamination of Russian territory with radionuclides 137Cs, 90Sr, 239Pu, 240Pu. and 131-I. Bulletin of the All-Russian Medical and Dosimetric State Registry. Issue 3. Appendix 1. Moscow Amano HT, Matsanuga, Nagao S. et al. 1999. The transfer capability of long-lived Chernobyl radionuclides from surface soil to river water in dissolved forms. Org. Geochem. 30: 437-442 Aminuddin HA. 1997. Presepsi dan Penerimaan Masyarakat terhadap PLTN. Elektro Indonesia. VII. Jakarta Anspaugh LR. 2005. International Conference Chernobyl: Looking Back to Go Forwards. Vienna. Austria : IAEA. [ARPNSA] Australia Radiation Protection & Nuclear Safety Agency. 2000. Ionising radiation and how it is measured. Appendix 1. Yallambie: 67–70. Astakhova LN. 1996. Endemic goiter in Belarus following the accident at the Chernobyl nuclear power plant. Di dalam: Nagasaki Symposium Radiation and HumanHealth. Elsevier Science B.V., Amsterdam : 67-94. and geostatistical solution: review. Professional Geographer. 52: 607-623. Atkinson PM. 2001. Geographical Information Science. geocomputation and nonstationary. Progress in Phisical Geography. 25: 111-122. BAPETEN. 2003. Penyuluhan Peraturan Peraturan Perundangan Keselamatan Nuklir. Jakarta BBC. 2011. Fukushima faced 14-metre tsunami. World Nuclear News. 23 March 2011. http://www.world-nuclear-news.org/RS_Fukushima_faced_14metre_tsunami_2303113.html. Retrieved 24 March 2011.[25 Maret 2011] Bair WJ. 1974. Toxicology of plutonium. Adv. Radiat. Biol; 4: 255-315 Balashazy I, I Feher, G Szabadyne-Szende et al. 1996. Examination of hot particles collected in Budapest following the Chernobyl accident. Radiat. Prot. Dosim;. 22: 263-267 Balonov MI. 1991. Theory and practice of a large-scale programme for the decontamination of the settlements affected by the Chernobyl accident. Di dalam: Proceedings of the International Seminar on Intervention Levels and Countermeasures for Nuclear Accidents. EUR-14469 p. 397-415 Balonov. M.. P. Jacob. I. Likhtarev et al. 1996a. Pathways. levels and trends of population exposure after the Chernobyl accident. Di dalam: A Karaoglou, G Desmet, GN Kell (eds). The Radiological Consequences of the Chernobyl Accident. Proceedings of the First International Conference. Minsk. Belarus. March 1996. EUR16544. p. 235-249 Balonov MI. 1996b. Chernobyl dose for population of areas radiocontaminated after theChernobyl accident. Di dalam: Environmental Dose Reconstruction and Risk Implications. NCRP Proceedings, 17: 207-243 Balonov MI et al. 1999. Mean effective cumulated doses. Bulletin of the National Radiation and Epidemiological Registry. Special issue. Moscow: Obninsk Barabanova A and D Osanov. 1990. The dependence of skin lesions on depth-dose distribution frombeta-irradiation of people in the Chernobyl nuclear power plant accident. Int. J. Radiat. Biol. 57(4): 775-782. BATAN. 2009. Pedoman Keselamatan dan Proteksi Radiasi Kawasan Nuklir. Tangerang Selatan: Batan.
Bayer A et al 1978. Radiologische Belastung der Bevölkerung der Rhein-Maas-Region. Di dalam: Wang Y.(ed.). Handbook of Radioactive Nuclides. Department of Radiology Homestead Hospital Homestead Pennsylvania. The Chemical Rubber Co. Ohio Begichev SN. 1990. Fuel of unit 4 reactor at the Chernobyl NPP. USSR Institute of Atomic Energy. Preprint 5268/3 Beiser A. 1986. Konsep Dasar Fisika Modern. Ed ke-2. Liong TH, penerjemah; Jakarta: Erlangga. Terjemahan dari: Concept of Modern Physics. Beig W. 1998. Physics and Astronomy. Optimal selection of number and location of rainfall estimation using geostatistics and simulated. Springer-Verlag. Physics Editorial Department II. Tiergartenstrasse 17. D-69121 Heidelberg. Germany Bennt G. 1995. Exposures from Worldwide Release. Environmental Impact of Radioactive Releases. Proceedings of a Symposium 8 - 12 May. Vienna. Austria: IAEA. [BNP] Belarussian National Report. 1996. The consequences of the Chernobyl catastrophe in the Republic of Belarus. Ministry of the Emergency Situations and Academy of Science. Minsk. Bishop C.1995. Neural Networks for Pattern Recognition. Clarendon Press. Oxford. [BMG] Badan Geometeorologi Geofisika. 2010. Ikhtisar Prakiraan Musim Hujan 2008/2009 di Indonesia . http://ww.bmg.go.id. [2 Pebruari 2011] Borovoy A. 1992. Characteristics of the nuclear fuel of power unit No. 4 of Chernobyl NPP. Di dalam: I Kryshev (ed.), Radioecological Consequences of the Chernobyl Accident . Moscow: Nuclear Society International. p. 9-20. Borzilov VA, Klepikova NV. 1993. Effect of Meteorological Conditions and Release Composition on radiology deposition after Chernobyl accident. Di dalam: Merwin SE. Bolonov MI (ed.). The Chernobyl Paper. Research Enterprice. [BPS] Biro Pusat Statistik. 2006. Jepara dalam angka. Luas lahan Kabupaten Jepara . Statistik Indonesia. Jakarta. [BPS] Biro Pusat Statistik. 1999. Penduduk Muskin (Poor Population). Berita Resmi Statistik Penduduk Miskin II: 04. Jakarta : CBS. [BPS] Biro Pusat Statistik. 2003. Tabel Input-Output Indonesia Updating 2003. Statistik Indonesia. Jakarta. [BPS] Biro Pusat Statistik. 2007. Tabel Input-Output Indonesia Updating 2007. Statistik Indonesia. Jakarta [BPS] Biro Pusat Statistik. 2000. Jumlah Penduduk dan Rasio Jenis Kelamin menurut Provinsi dan Kabupaten/Kota. Statistik Indonesia. Jakarta. [BPS] Biro Pusat Statistik. 2005. Laju Pertumbuhan Penduduk per Tahun menurut Provinsi. Luas Wilayah dan Persentase Penduduk menurut Provinsi. Statistik Indonesia . Jakarta. Brenk HD, Vogt KJ. 1981. The calculation of wet deposition from radioactive plumes. Environmental Effects. IAEA. Nuclear Safety 22 (3): 362-371. Buhmann, Martin D. 2003. Radial Basis Functions: Theory and Implementations. Cambridge University. ISBN 978-0-521-63338-3 Cambridge University Press . Buzulukov YP and Dobrynin YL. 1996. Release of radionuclides during the Chernobyl accident. p. 3-21 in: The Chernobyl Papers. Doses to the Soviet Population and Early Health Effects Studies. Volume I (S.E. Merwin and M.I. Balonov. eds.) Richland: Research Enterprises Inc.. Buzulukov. Yu.P, Yu.L. Dobrynin. 1993 Release of radionuclides during the Chernobyl accident. Di dalam: SE Merwin and MI Balonov (eds.). The Chernobyl Papers. Doses to the Soviet Population and Early Health Effects Studies. Washington: Research Enterprises Inc.. Richland. Volume I. p. 3-21. Cortes C, V Vapnik. 1995. Support vector networks. Machine Learning. 20: 273–297. Chandler W. et al. 2005. Chernobyl: Looking Back to Go Forward. Proceedings of International Conference on Chernobyl. Vienna. Austria : IAEA.. Che De-fu, Wu Li-xina, Yin Zuo-rub. 2008. Multi-Scale Spacial Modeling for Geological Body Based on GTP Model. The International Archives of the Photogrammetry. Remote Sensing and Spatial Information Sciences. Beijing: School of Resources and Civil Engineering. Northeastern University. Cherkasov Yu M, O Yu Novoselsky, NI Zhukov et al 1996. Post accident state of Chernobyl-4. Di dalam: InternationalSeminar Chernobyl Lessons – Technical Aspects. Desnogorsk. p. 11 Chiles JP. 1999. Geostatistics. Modeling Spatial uncertainty. Wiley Series in Probability and statistics. New York.
Christopher D Lloyd. 2008. Local Models for Spatial Analysis Local Models for Spatial Analysis. International Standard Book Number-10: 0-415-31681-2. New York United States of America. Queen's University: CRC Press Ciarlet APG. 1998. Radial Basis Functions: Theory and Implementations. Cambridge University Press. Clarke RH 1979 A Model for Short and Medium Range Dispersion of Radionuclides Released to the Atmosphere. The First Report of a Working Group on Atmospheric Dispersion. Rep. NRPB-R91. National Radiological Protection Board. Chilton. Cressie NAC. 1993. Statistics for Spatial Data. An Introduction to Applied Geostatistics. Wiley New York : Oxford University. De Bollivier M, Dubois G, Maignan M and Kanevski M. 1997 Modified multilayer perceptron with lokal constraint: Artificial neural networks as an emerging method in spatial data analysis. Nuclear Instruments and Methods in Physics Research. A389:226-229. Deutsch CV, AG Journel. 1997. Geostatistical Software Library and User’s Guide. New York: Oxford University Press De Cort, MG Dubois, Sh.D Fridman. 1998. Atlas of caesium deposition on Europe after the Chernobyl accident. EUR 16733. De IaCo S . 2002. A Space_Time Multivariate Analysis for Environmental Data. Facolta di Economia. G. d’Annunzio. Chieti- Italy Devell L. 1991. Composition and properties of plume and fallout materials from the Chernobyl accident. Di dalam: L Moberg (ed.). The Chernobyl Fallout in Sweden - Results from a Research Programme on Environmental Radiology. Swedish Radiation Protection Institute p. 29-46 Devell L. 1974. Nuclide composition of Chernobyl hot particles in: Hot Particles from the Chernobyl Fallout. p. 23-34 Deutsch CV, AG Journel.1997. GSLIB. Geostatistical Software Library and User’s Guide. Oxford University Press, New York. Dibb JE, PA Mayewski, CS.Buck. 1996. Beta radiation from snow. Nature; 345: 25 Djati JP, Agus Taftazani, Sudarmadji. 2000. Sebaran Logam Berat Dalam Cuplikan Air Laut. Algae dan Ikan Di daerah Semenanjung Muria. Yogyakarta: BATAN. Dorchester, Dorset. 2006. Fundamental Safety Principles. Safety Fundamentals Jointly European Atomic Energy Community. Food and Agriculture Organization of the United Nations. Pan Amereican Health Organization. OECD Nuclear Energy Agency. United Nations Environment Programme. WHO International Atomic Energy Agency. Vienna. Austria: IAEA. Dreicer MA, Aarkrog R, Alexakhin et al. 1996. Consequences of the Chernobyl accident for the natural and human environments. in: One Decade After Chernobyl. p. IAEA: 319-366 Drozdovitch VV and VF Minenko. 1997. Assessing internal exposure in Belarus from the ingestion of radiocaesium following the Chernobyl accident. IAEA. Edinger JE. 1977. Offshore Nuclear Dispersion and Uptake Modeling. Appendix I: Coastal Advection and Dispersion for a Time Varying Continuous Source with Lateral Dispersion as a Function of Distance and with Radionuclide Decay. JE Edinger Associates. Ermansyah L. 1998. Faktor Pengenceran (C/Co) Zat Radioaktif Di Perairan Ujung Lemah Abang Berdasarkan Model Open-Coast . Jakarta: BATAN Faisal W, Roshidin, Sulistyati, Erry A. 1999. Analisis C-14 Dalam Cuplikan Tanah Dari Daerah Semenanjung Muria Untuk Studi Radioekologi. Jakarta: BATAN. Fotheringharn AS. 1997. Trends in quantitative methods I: Stressing the lokal. Progress in Human Geography. 21:88-96. Fotheringham AS, C Brunsdon. 1999. Local Forms of spatial analysis. Geographical Analysis, 31:340-358,. Garger EK, V Kashpur, HG Paretzke et al. 1998. Measurement of resuspended aerosol in the Chernobyl area. Part II. Size distribution of radioactive particles. Radiat. Environ. Biophys; 36: 275-283. Gavrilin Yu V, Khrouch S, Shinkarev et al. 1999. Chernobyl accident: reconstruction of thyroid dose for inhabitants of the Republic of Belarus. Health Phys. 76: 105-119 Gerasko, VN, A.A. Kluchnikov, A.A. Korneev. 1997. Sarcophagus Object. History, State and Prospects. Kiev. Vienna. Austria: IAEA.
Gifford FA 1968. Diffusion in the lower layers of the atmosphere. Meteorology and Atomic Energy Rep. TID-24 190. United States Atomic Energy Commission. Washington. DC. Gilardi N, M. Kanevski, M. Maignan, E. Mayoraz. 2000. Environmental and Pollution Spatial Data Classification with Support Vector Machines and Geostatistics. Hungary. Gilardi N. 2002. Lokal Machine Learning Models for Spatial Data Analysis Journal of Geographic Information and Decision Analysis; 4( 1): 11-28. Switzerland: Mineralogy Institute. University of Lausanne. Goovaerts P. 1997 Geostatistics for Natural Resources Evaluation. Oxford University Press. New York. Hadi S, Hanita. 1996. Karakteristik Jenis Lapisan Tanah Dengan Pengukuran Kecepatan Gelombang Geser dan Gelombang Tekan Dgn Metoda Cros-Hole Test Pada Calon Tapak PLTN Lemah Abang. Jepara . Jakarta: BATAN Hadi S, Kurnia 1999. Potensi Air Tanah Di Calon Tapak Fasilitas Nuklir Daerah Ujung LemahAbang Kabupaten Jepara Jateng. Jakarta: BATAN Hartini S.. 2000. Evaluasi Deskriptif Kependudukan di Sekitar Calon Tapak Fasilitas Nuklir ULA. P2EN. Heinemann K, Vogt KJ. 1980a. Measurements of the deposition of Iodine onto Vegetation and of The Biological Half Life of Iodine on Vegetation. Health Phys; 39: 463–474. Heinemann K. 1980b. Statistical studies on the limitation of short-time releases from nuclear facilities. Congress of the International Radiation Protection Association. IRPA. Washington DC. Hendro, Zulfiyandi. 2000. Analisis kandungan Organik Matter. Nitrat. Sulfat. Fosfat dan Amonia dalam Sedimen dan Air Di Semenanjung Muria. Jakarta: BATAN Herry P, Ngasifudin, Djoko Sarjdono. 2001. Karakteristik (K. α. Kd. Ktot) Tanah Calon Penyimpanan Limbah Radioaktif Di Semenanjung Muria . Yogyakarta: BATAN. Herry P, Djoko IS, Supardi. 1998. Dispersi SR-90 Pada Tanah Di Daerah Genggereman Muria Sebagai Kawasan Calon Tapak PLTN. Yogyakarta: BATAN Hilton J, RS Cambray dan N Green. 1992. Chemical fractionation of radioactive caesium in airborne particles containing bomb fallout, Chernobyl fallout and atmospheric material from the Sellafield site. J. Environ. Radioact. 2: 103-111. Hornik K, Stinchcombe M and White H. 1989. Multilayer feedforward networks are universal approximators. Neural Networks. 2:359-366. Hoshi MM. 1994. Fallout radioactivity in soil and food samples in the Ukraine: measurements of iodine. plutonium. cesium. and strontium isotopes. Health Phys. 67(2): 187-191 [IAEA] International Atomic Energy Agency. 1980. Atmospheric Dispersion in Nuclear Power Plant Siting: A Safety Guide. Safety Series No. 50-SG-S3. Vienna [IAEA] International Atomic Energy Agency. 1982. Generic Model and Parameters for Assessing the Environmental Transfer of Radionuclides from Routine Releases. Safety Series No. 57. Vienna. [IAEA] International Atomic Energy Agency. 1985a. Experience pada informasi TMI-2 Recent dari TMI-2. Bulletin Autumn. Vienna. Austria. [IAEA] International Atomic Energy Agency. 1985b. Operational Experience in Shallow Ground Disposal ofRadiactive Wastes. Technical Report Series 69. Vienna. [IAEA] International Atomic Energy Agency 1986. Summary report on the post-accident review meeting on the Chernobyl accident. Safety Series No. 75-INSAG-1. IAEA. Vienna. Austria. [IAEA] International Atomic Energy Agency. 1994. Net energy analysis of different electricity generation systems. IAEA TecDoc 753. Vienna. Austria [IAEA] International Atomic Energy Agency. 1996. Summing up the Consequences of the Accident. Proceedings of an International Conference. STI/PUB/1001. Vienna. Austria [IAEA] International Atomic Energy Agency. 1997. Generic Assessment Procedures for Determining Protective Actions During a Reactor Accident. Tecdoc-955. Vienna. Austria [IAEA] International Atomic Energy Agency. 2000. Present and future environmental impact of the Chernobyl accident. IAEA TECDOC to be published. B25. Belarussian National Report. Ministry of the Emergency Situations and Academy
of Science. The consequences of the Chernobyl catastrophe in the Republic of Belarus. Minsk. Vienna. [IAEA] International Atomic Energy Agency. 2001. Generic Models for Use in Assesing the Infact of Discharges of Radioactive Substances to Environment . Safety Reports Series No. 19 . Vienna [IAEA] International Atomic Energy Agency. 2002. Dispertion of Radioactive Material in Air and Water and Concideration of Population Distribution in Site Evaluation for Nuclear Power Plants Safety Gude. Safety Standards Series NS-G-3.2. Vienna. Austria [IAEA] International Atomic Energy Agency. 2003a. Economic Database.Indonesia 2003. Nuclear Electricity. 7th edition. Vienna. [IAEA] International Atomic Energy Agency. 2003b. Categorization of radioactive sources Revision. IAEA-TECDOC-1191. Vienna. [IAEA] International Atomic Energy Agency. 2005a. Environmental and Source Monitoring for Purposes of Radiation Protection. Safety Guide No. RS-G-1.8. Vienna. Austria [IAEA] International Atomic Energy Agency. 2005b. Chernobyl’s Legacy: Health. Environmental and Socio-economic Impacts . Vienna. Austria [IAEA] International Atomic Energy Agency. 2006a. Environmental Consequences of the Chernobyl Accident and their Remediation: Twenty Years of Experience. Vienna. Austria [IAEA] International Atomic Energy Agency. 2006b. Improvements of radioactive waste management at WWER nuclear power plants. IAEA-TECDOC-1492. Vienna. Austria [IAEA] International Atomic Energy Agency. 2006c. Recommendations to the Governments of Belarus.the Russian Federation and Ukraine The Chernobyl Forum: 2003–2005. Second revised version The originating Section of this publication in the IAEA was: Nuclear Power Engineering Section International Atomic Energy Agency Wagramer Strasse 5 Vienna. Austria [IAEA] International Atomic Energy Agency. 2006d. Exposures and effects of the Chernobyl accident. ANNEX J. Vienna. Austria [IAEA] International Atomic Energy Agency. 2006e. Geological Disposal of Radioactive Waste. IAEA Safety Standars for protecting people and the environment. WS-R-4. Vienna. [IAEA] International Atomic Energy Agency. 2006f. International Reactor Dosimetry File 2002 (IRDF-2002). STI/DOC/010/452© IAEA. Vienna. Austria [IAEA]. 2007. Nuclear Power Plant Design Characteristics: Structure of Nuclear Power Plant Design Characteristics in The IAEA Power reactor Information System (PRIS). IAEA-TECDOC-1544 ISBN 92–0–102507–6 ISSN 1011–4289. Vienna. Austria [IAEA] International Atomic Energy Agency. 2008a. Approaches and Tools for Severe Accident Analysis for Nuclear Power Plants. Vienna. [IAEA] International Atomic Energy Agency. 2008b. Operation Experience with Nuclear Power Stations in Member States in 2008. Oprating Experience with Nuclear Power stations in Member States in 2007. STI/PUB/1376. Vienna. Austria. [IAEA] International Atomic Energy Agency. 2008c. Fission Product Yield Data for The Transmutation of Minor Actinide Nuclear. Waste Series. Vienna. Austria. [IAEA] International Atomic Energy Agency. 2009a. Energy electricity and Nuclear Power Estimates for Period up to 2030. IAEA-RDS-1/29 ISBN 978–92–0– 109809–2 ISSN 1011–2642. IAEA. Vienna. [IAEA] International Atomic Energy Agency. 2009b. Severe Accident Management Programmes for Nuclear Power Plants Vienna. Austria. [IAEA] International Atomic Energy Agency. 2009c. Nuclear Power Reactor in The World. IAEA Reference data Series No.2. 2009ed. Vienna. Austria. [IAEA] International Atomic Energy Agency. 2011. Nuclear Data for Safeguards. Table C-3. Cumulative Fission Yields. Thermal neutron fission. http://wwwnds.iaea.org/sgnucdat/c3.htm. [5 Maret 2011] Ibrahim HD. 2006. Rencana Usaha Penyediaan Tenaga Listrik (RUPTL) 2006-2015. Direktorat Transmisi dan Distribusi. Jakarta [ICRP] International Commission on Radiation Protection. 1996. Recommendations for a System of Radiological Protection. Report to the General Standards Australia. AS/NZS 2772.1 Publication No. 103.
[ICRP] International Commission on Radiation Protection. 1977. Recommendations of the International Commission on Radiological Protection. ICRP Publication 26. New York: Pergamon Press. [ICRP] International Commission on Radiation Protection. 1990. Recommendations of the International Commission on Radiological Protection. ICRP Publication 60. Annals of the ICRP. 21 (22) Igumnov SA. 1999. The prospective investigation of a psychological development of children exposed to ionizing radiation in utero as a result of the Chernobyl accident. IAEA. Ilyin LA 1994. Realities and Myths of Chernobyl. ALARA Limited. Moscow. Ilyin LA. 1992. Doses to population and medical consequences as a result of the Chernobyl accident. Information Bulletin N10. Center of Social Information on Atomic Energy. Moscow. p. 35-47 Isaaks, Srivastava. 1989. An Introduction to Applied Geostatistics. Oxford University Press. Di dalam: Izrael Y. (ed.) Atlas of Radioactive Contamination of European Rusia. Belarus and Ukraine. Federal Service for Geodesy and Cartography of Rusia. Moscow Izrael Y. 1998. Atlas of Radioactive Contamination of European Rusia, Belarus and Ukraine, Federal Service for Geodesy and Cartography of Rusia, Moscow. IAEA. Jaworowski Z and L Kownacka. 1988. Tropospheric and stratospheric distribution of radioactive iodine and cesium after the Chernobyl accident. J. Environ. Radioact;. 6: 145- 150 Jervis Bay. S. Baldwin and W. 1997. Maher Spatial and Temporal Variation of Selenium Concentration in Five Species of Intertidal Molluscs Applied Science. University of Canberra Australia Jill McCoy, Kevin Johnston. 2002. Using ArcGIS™ Spatial Analyst GIS. ESRI Joes JA 1981. The Estimation of Long Range Dispersion and Deposition of Continuous Releases of Radionuclides to the Atmosphere. Rep. NRPB-R123. National Radiological Protection Board. Chilton.
Joskow PL. 1998. Electricity Sectors in Transition. Energy Journal. 19 (2):25-52. Karliana I. 2000. Perbandingan risiko kecelakaan nuklir dan industri lain. Batan. Jakarta Kartodiwirio SK.1995. Pengendapan Basah Radionuklida I-131 dari Udara di Lokasi PLTN. PPTN. BATAN. Keputusan Kepala BAPETEN No.064-P/Ka-BAPETEN/VI-99. 2000. Pedoman Teknis Penyusunan Analisis Dampak Lingkungan Untuk Rencana Pembangunan dan Pengoperasian Instalasi Nuklir dan Instalasi Lainnya. Jakarta Kesminiene AZ, J Kurtinaitis and G Rimdeika. 1997. The study of Chernobyl clean-up workers from Lithuania. Acta Med. Lituanica ; 2: 55-61. Kholosha. V.I.. N.G. Koval’skij and A.A. Babich. Social. economic. institutional and political impacts. Report for Ukraine. p. 429-444 in: One Decade After Chernobyl. Summing up the consequences of the Accident. Proceedings of an International Conference. STI/PUB/1001. IAEA. Vienna. 1996. KhrouchVYu, Gavrilin S, Shinkarev et al. 2000. Case-control Study of Chernobyl-related Thyroid Cancer Among Children of Belarus:Estimation of Individual Doses. Part I. IAEA. Vienna. Kiselev AN, A.I. Surin and Checherov KP. 1994. The results of additional studies of lava localities in the fourth block of the Chernobyl NPP. IAE-5783/3. Moscow: RRCKurchatov‘s Institute. p. 59. Kiselev AN. 1994. Post-accident balance of nuclear fuel in the fourth block of the Chernobyl NPP. IAEA-5716/3. Moscow: RRC-Kurchatov_s Institute. p. 17 Konoplev AV. 1998. Study of the behavior of Cs-137 and Sr-90 in Svyatoe and Kozhanovskoe lakes in the Bryansk region. Meteorol. Gidrol Koukharkin NE. 1998. Antiterroristic fuel assembly for nuclear power plant 1Russian Research Center. Kurchatov Institute and Russian Research and Design Institute of Atomic Power Mashinary Moscow. IAEA. Vienna. Krajewski P 1991. Assessment of effective dose equivalent in thyroid for Polish population due to iodine-131 intakes after the Chernobyl accident. Estimation of thyroid blocking effect with stable iodine. Pol. J. Endocrinol; 42(2): 189-202. Kuriny VD, Kashparov et al. 1993. Particle-associated fall-out in the local and intermediate zones. Ann. Nucl. Energy 20(6): 415-420 Kutkov VA. 1995. Unique form of airborne radioactivity: nuclear fuel “hot particles”released during the Chernobyl accident. p. 625-630 in: Environmental
Impact of Radioactive Releases. Proceedings of a Symposium. Vienna. 8-12 May 1995. STI/PUB/971. Vienna: IAEA. Lafuma J. 1975. An experimental study on the toxicity of several radionuclides inhaled at different doses. in:Criteria for Radiation Protection. Third European Congress of the International Radiation Protection Association. Amsterdam. May 1975 Lffiser KH and Steinkoff TH. 1989. Chemistry of Radioactive Cesium in The Hydrosphere and in The Geosphere . Radiochim. Acta 46:39 Likhtarev IA. 1994. Thyroid dose assessment for the Chernigov region (Ukraine): estimation based on 131I thyroid measurements and extrapolation of the results to districts without monitoring. Radiat. Environ. Biophys. 33: 149-166. Lindborg L. 1977. Needs and Accuracy Requirements for Fission Product Nuclear Data in The Assessments of Environmental Impacts. Representing UNSCEAR at the FPND-meeting in Petten 5 to 9 Sept 1977. National Institute of Radiation Protection. Stockholm. Sweden. Lloyd CD. 2007. Local Models for Spatial Analysis.. Government works Printed in the United States of America. University Belfast. Boca Raton: CRC Press Taylor & Francis Group. Lubis E. 1998. Faktor pengenceran C/Co Pada Tanah ULA. PTPLR. BATAN. Jakarta. Lukaszyk S. 2004. A new concept of probability metric and its applications in approximation of scattered data sets. Computational Mechanics. 33. 299-3004. Mario S . 2006. Thyroid Disorders (A Clevland Clinic Guide). Cleveland Clinic Press. pp. 82. Martin AHB, Ari PR, Indra R. 1996a. Profil Serapan Cesium Pada Tanah Calon Lokasi PLTN. PPTN. Bandung: BATAN. Martin AHB. 1996b. Retardasi Cesium Pada Lapisan Tanah Calon Lokasi PLTN. Prosid Hasil Penelitian Tahun 1995/1996. PTPLR-BATAN. Serpong. Mettler F. 2006. Non-Cancer Health Effects of the Chernobyl Accident and Special Health Care Programmes. BEIR. VII Report. phase II. Washington DC: National Academy of Science. Miller CW. 1997. A review of validation studies for the Gaussian plume atmospheric dispersion model. Nucl. Safety 28 (1987) 522–531. Ministry of the Emergency Situations and Academy of Science. 1996. The consequences of the Chernobyl catastrophe in the Republic of Belarus. Belarussian National Report. Minsk Moberg L. 1991. Chernobyl Fallout in Sweden -Results from a Research Programme on Environmental Radiology. Swedish Radiation Protection Institute.. NCRP. 1996. Screening Models for Releases of Radionuclides to Atmosphere. Surface Water. and Ground -Work Sheets. Rep. 123 II. NCRP. Bethesda. MD NCRP. 1978. Radiological Assessment: Predicting the Transport. Bioaccumulation. and Uptake by Man of Radionuclides Released to the Environment. Rep. 76. NCRP. Bethesda. MD. Rep. V/1647/77D. Commission of the European Communities. Luxembourg NCRP. 1984. Radiological Assessment: Predicting the Transport. Bioaccumulation. and Uptake by Man of Radionuclides Released to the Environment. Rep. 76. NCRP. Bethesda. MD NCRP. 1989. Screening Techniques for Determining Compliance with Environmental Standards. Releases of Radionuclides to the Atmosphere. NCRP Commentary No. 3. Revision plus Addendum. NCRP. Bethesda. MD NEWJEC. 1992. Feasibility study of the first Nuclear Power Plants at Muria Peninsula Region Central Java. Data Report. INPB-Rep-4.1991. NIST 2011. NIST Nuclide Half-Life Measurements.. Retrieved 13 March 2011. http://www.nist.gov/pml/data/halflife.cfm. Tolgyessy T dan Bujdoso E 1993. CRC Handbook of Radioanalytical Chemistry Volume I. CRC Press Boca Raton [2 Maret 2011] Nizar Narullah, Soertini Gandanegara. Heny Suharno. Marietje Wungkar dan Andi Gunawan. 2000 Pengukuran Serapan Polutan Gas NO2 Pada Tanaman Tipe Pohon. Semak dan Penutup Tanah dengan Menggunakan Gas NO2 Bertanda N15. Bogor: Fak Pertanian IPB [NRPB] National Radiological Protection Board. 1995. Risk Of Radiation-Induced ancer At Low Doses And Low Dose Rates For Radiation Protection Purposes. ISBN 085951-386-6. Vol.6. No.1 in the series Documents of the NRPB. October 1995. Washington. p. 77 [NRPB] National Radiological Protection Board, FZK. 1995. PC-Cosyma. User Guide. European Commision.
Pane JS. 2006. Kajian Dampak Radiologi dan Pemanfaatan Ruang Sekitar PLTN Dalam Penyiapan Tanggap Darurat. [Disertasi]. Bogor: Program Pascasarjana Institut Pertanian Bogor. Pasquill F, Smith FB. 1983. Atmospheric Diffusion. 3rd edn. Ellis Horwood. Chichester Peraturan Pemerintah Republik Indonesia Nomor 43 tahun 2006 tentang Perizinan Reaktor Nuklir [Lembaran Negara Republik Indonesia Tahun 2006 Nomor 106. Tambahan Lembaran Negara Republik Indonesia Nomor 4668]; [PLN] Perusahaan Listrik Nasional. 2000. Empowering the Indonesian Villages. Jakarta [PLN] Perusahaan Listrik Nasional. 2008 . PLN's Annual Report 2007. Jakarta. http://www.pln.co.id [PLN] Perusahaan Listrik Nasional. 2005. Primary Energy Requirement and Composition for The Java. Proyeksi Sistem Madura-Bali 2003-2010 Pfeifer and Deutsh 1980. Independence and Aphericity Test for The residuals of SpaceTime ARMA Models. Communications in Statistics-Simulation and Computation 533-549 Pitkevic VA, VV Duba, VK Ivanov et al. 1994. Reconstruction of absorbed doses from external exposure of population, living in areas of Russia contaminated as a result of the accident at theChernobyl nuclear power plant. Epidemiological Registry Pilot Project.WHO/EOS/94.10. WHO. Geneva. Phytra. 2007. First International Conference on Physics and Technology of Reactors and Applications. GMTR 2004. Morocco. Marrakech Pramana JD, Agus Taftazani, Sudarmadji. 2000. Sebaran Logam Berat Dalam Cuplikan Air Laut, Algae dan Ikan Di daerah Semenanjung Muria. Yogyakarta: BATAN Purvis. E.E. 1995 The Chernobyl 4 accident sequence: update -April 1995. Report of the Ukrainian Academy of Sciences Intersectorial Scientific and Technical Center (ISTC) "UKRYTIE". Kiev Purwanto. 1994. Pembuatan Program untuk Menentukan Peta Penyebaran Radioaktif yang Lepas dari Cerobong Reaktor Kartini. Pusat Penelitian Nuklir Yogyakarta. BATAN. Rashad and Hammad. 2000. Nuclear power and the environment. Applied Energy. 65: 211-229. Redman HC. 1972. Toxicity of 137-CsCl in the Beagle. Early Biological Effects. Radiation Research 50 (3): 629–648. doi:10.2307/3573559. http://www.jstor.org/stable/3573559. Riza Faizal. 1993. Laporan penelitian 1992/1993: Perancangan Alat Pengendapan Uranium secara kontinyu. PPBGN-BATAN. Jakarta. Sali D, E. Cardis. L. Sztanyik et al. 1996. Cancer consequences of the Chernobyl accident in Europe outside the former USSR: a review. Int. J. Cancer 67: 343352 Samsung J, Asminah S, Jatiman S. 1986. Pengetahuan Nuklir. Universitas Terbuka. Jakarta. Santosa J Yudiartono. 2002. Lisrik Indonesia http://www.pelangi.or.id/publikasi [23 Maret 2009] Sari A, Seymour F, Lestari S. 2002. Power Politics: Equity and Environment in Electricity Reform. World Resources Institute. http://www.pelangi.or.id [12 Des 2009] Savkin YO, Skryabin AM, MN Konstantinov. 1995. Distribution of doses received in rural areas affected by the Chernobyl accident. NRPB-R277. Setiawan B. 1998a. Sorpsi-Desorpsi Radium Pada Tanah Lemah Abang. Jakarta: BATAN Setiawan B. 1998b. Serapan Cesium pada Tanah Ujung Lemah Abang. PPPLR. BATAN. Jakarta. Setyaningsih W. 1997. Penelitian Kecelakaan Kehilangan Pendingin di Kaki Dingin Reaktor pada Untai Uji Termohidrolika Reaktor. Tugas akhir S-2. Jurusan Ilmu dan rekayasa Energi Nuklir. ITB. Bandung. Shutov VN, GY Bruk, MI Balonov. 1993. Cesium and strontium radionuclide migration in the agricultural ecosystem and estimation of internal doses to the population. p. 167-218 dalam:The Chernobyl Papers. Doses to the Soviet Population and Early Health Effects Studies. Volume I (S.E. Merwin and M.I. Balonov, eds). Research Enterprises Inc. Richland. Washington.
Sich AR., AA Borovoi and NC.Rasmussen. 1994. The Chernobyl accident revisited: source termanalysis and reconstruction of events during the active phase. MITNE-306 Simon Steven, Bouville, André Land, Charles. 2006. Fallout from Nuclear Weapons Tests and Cancer Risks. American Scientist 94: 48. Simanjuntak A G. 1998. Jalur potensian Perpindahan Radionuklida di Calon Lokasi PLTN Semenanjung Muria. PTPLR. BATAN Skryabin AM. 1995. Distribution of doses received in rural areas affected by the Chernobyl accident. NRPB-R277. Soentono S. 2003. Energi Nuklir sebagai bagian dari Sistem Energi Nasional jangka panjang. Jakarta: BATAN. Stoffer D 1986 Estimation and Identification of Space-Time ARMAX Models in Precence of Missing Data. Journal of the American Statistical Assaciation 762772 Sucipta. 1997. Evaluasi Geologi Lingkungan Calon Tapak Penyimpanan Bahan Bakar Bekas dan Limbah Radioaktif Aktivitas Rendah-Menengah. Prosid. Pertemuan dan Presentasi Ilmiah PPNY-BATAN. Yogyakarta. Sucipta. 1995. Evaluasi Pendahuluan Geologi Lingkungan untuk Calon Lokasi Penyimpanan Limbah Radioaktif PLTN Daerah Muria Bagian Utara. Prosid. Seminar III Teknologi dan Keselamatan PLTN Serta Fasilitas Nuklir. PPTKR/PRSG-BATAN. Serpong. Suganda D, Sucipta, Pratomo BS, Eriendi. 1998. Pengembangan Model Komputer Untuk Pelepasan Radionuklida dari Fasilitas Penyimpanan Limbah Tanah Dangkal. PTPLR. BATAN. Sumining, Agus Taftazani. 2000. Evaluasi Adanya Radionuklida. Logam Beracun dan Fluktuasi Tingkat Radioaktivitas Perairan Muria Yogyakarta: BATAN Susilo YSB. 2007. Analisis Evakuasi Penduduk pada Kecelakaan PLTN Muria dengan Pendekatan Sistem Informasi Geografis (SIG). Prosiding Seminar Nasional ke-13 Teknologi dan Keselamatan PLTN serta Fasilitas Nuklir. ISSN:0854-2910. Jakarta: BATAN. Susilo YSB. 2006. Analisis Radiologi Tapak PLTN Muria Menggunakan Perangkat Lunak RadCon, Prosiding seminar Nasional ke 12 Teknologi dan Keselamatan PLTN Serta Fasilitas Nuklir. Jakarta: BATAN Suntoko H. 2000. Parameter Geologi Perencanaan PLTN di ULA. Jumal Pengembangan Energi Nuklir. Vol. 2 (3). BATAN Suntoko H, Hanifa. 1996. Karekteristik Lapisan Tanah Dengan Pengukuran Gelombang Geser dan Gelombang Tekan dengan Metoda Cross-Hole Test Pada Calon Tapak PLTN ULA. BATAN. Jakarta. Supian BS. 1997. Activity of one gram of potassium Phys. Med. Biol. 42 407 Supriyono, Sudarti 2000. Metoda Beda Hingga Pada Kajian Pemodelan Dispersi Radioaktivitas Ke Lingkungan Tanah. Yogyakarta: BATAN Suryanto dan Mulyanto. 1998. Model Migrasi Radionuklida dalam Media Geologi: Evaluasi Beberapa Pendekatan Numerik. PTPLR. BATAN. Susilo YSB. 1995. Sebaran Radionuklida di Udara. PPEN. BATAN. Jakata Syarbaini, Cerdas T, Susie D, Sutisna. 1998. Analisis Beberapa Unsur Kimia dalam Air Tanah Ujung Lemah Abang. PTPLR. BATAN. Jakarta: BATAN Tolgyessy T dan Bujdoso E. 1993. CRC Handbook of Radioanalytical Chemistry Volume I, CRC Press Boca Raton Till JE. 1983. Radiological Assessment. A Textbook on Environmental Dose Analysis. Rep. NUREG/CR-3332. ORNL-5968. United States Nuclear Regulatory Commission. Washington. DC Tjasyono B. 2004. Klimatologi. Edisi kedua. Bandung: Institut Teknologi Bandung. [USNRC] United State Nuclear Regulatory Commission. 2004. Fact Sheet on Biological Effects of Radiation. The http://www.nrc.gov/reading-rm/doc-collections /factsheets/bio-effects-radiation.html [2 Pebruari 2011] [USNRC] United State Nuclear Regulatory Commission. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation. BEIR. VII Report. phase II. Washington DC: National Academy of Science.
Umbara H et al. 2002. Pemantauan Radioekologi dan Lingkungan Kelautan. PTPLR. Jakarta: BATAN. Umbara H, Cahyana C. 2001. Evaluasi Keselamatan Radioekologi dan Lingkungan di daerah Semenanjung Lemah Abang: Pengkajian Keselamatan dari Pelepasan zat
Radioaktif Ke Lingkungan di Daerah Semenanjung Lemah Abang. P2PLR. Jakatra: BATAN Undang-Undang No. 23 Tahun 1997 Tentang Pengelolaan Lingkungan Hidup Undang-undang Nomor 10 Tahun 1997 tentang Ketenaganukliran [Lembaran Negara Republik Indonesia Tahun 1997 Nomor 23. Tambahan Lembaran Negara Nomor 3676] 2007 UNSC, United Nations, 1988. Random simulation with heterogeneous variances: Some experiments Department of Information Management/Center for Economic Research (CentER). Tilburg University (UvT). Department of Information Management. Tilburg. Netherlands Assembly. with annexes. Sales publication E.88.IX.7. United Nations. New York. US Atomic Energy Commission. 1974. Commercial Nuclear Power Plant USNRC Oct.1975 WASH-1224. Comparative Risk-Cost-Benefit Study of Alternative Sources of Electrical Energy. USNRC. Purwanto. 1994. Pembuatan Program untuk Penentuan Peta Penyebaran Radioaktif yang Lepas dari Cerobong Reaktor Kartini. PPN-BATAN. Yogyakarta. Vapnik V. 1995. The Nature of Statistical Learning Theory. New York: Springer-Verlag Velikhov EP. 1999. Current understanding of occurrence and development of the accident at the Chernobyl NPP. Di dalam: Thomas G A, Karaoglou and ED Williams (eds.). Selected Proceedings of the International Conference on Nuclear Accidents and the Future of Energy. The Lessons of Chernobyl. Paris. April 1991. Radiation and Thyroid Cancer. EUR 18552 p. 12-36. Vinther FH. Nielsen OJ. 1984. A Literature Review on Wet Deposition. Riso-M-2475. Riso. Roskilde. Weston J. 1998. Density Estimation using Support Vector Machines. Technical Report. Csd-TR-97-[23. February 1998] Wilson J, Britter R.E. 1982 Estimates of building surface concentrations from nearby point sources. Atmos. Environ; 16: 2631–2646. Wim CM van Beers, Jack PC Kleijnen. 2002. Kriging in Simulation Kriging for Interpolation in Random Simulation Marine. Environmental Research. Vol. 44.(3): 243-262. Wisjachudin Faisal, Roshidin, Sulistyati, Erry Anwar. 1999. Analisis C-14 Dalam Cuplikan Tanah Dari Daerah Semenanjung Muria Untuk Studi Radioekologi. Jakarta: BATAN World Health Organization. 1996. Health consequences of the Chernobyl accident. Results of the IPHECA pilot projects and related national programmes. Di dalam: GN Souchkevitch and AF Tsyb (eds.). Scientific Report. WHO/EHG 95-19 Yazid M, Gede SW, Agus S, Nasifudin. 1996. Evaluasi Dampak Radiologi Pengoprasian Reaktor Kartini dan Radioaktivitas Alami Kawasan Calon Tapak PLTN. Yogyakarta: BATAN, Zvonova IA and MI Balonov. 1993. Radioiodine dosimetry and prediction of consequences of thyroid exposure of the Russian population following the Chernobyl accident. Di dalam: SE Merwin and MI Balonov. (eds.). The Chernobyl Papers. Doses to the Soviet Population and Early Health Effects Studies.Washington: Research Enterprises Inc. Richland. Volume I . p. 71-125