ÇAĞRILI KONUŞMALAR / KEYNOTES Invited Speeches ... - TPJD

14.06.2013 Views
Yeraltı Suyu Hidrokarbon Kirlenmesi’nin (Kerbala GB) Elektrik Rezistivite Metodu ile İzlenmesi Jassim M. Thabit 1 , M. Salih Bayraktutan 2 , Firas H. Khalid 1 1 Bağdat Üniversitesi, Jeoloji Mühendisliği Bölümü, Bağdat, Irak 2 AKM GRP, Ankara Araştırma sahası Kerbala Bölgesinde, Irak, Kerbala nın GB, GD ve KD yonunde yer almaktadır. Sahada 6 kuyu açıldı. Bir diger kuyuda su Hidrokarbon konteminas yonu ile kirlenmiş oldugu tesbit edildi. Elekrtik rezistivite metodu farklı arazi sistemiyle uygulandı. Elektrod düzeni olarak Wenner, Schlumberger ve polar dipole - dipole sisteminde, simetrik omlayan azimutal rezistivite survey uygulandı. Üç dagılım sisteminde de HC ca kirlenmiş YAS yükselimi tesbit edilebilmiştir. Ancak polar dipole-dipole duzeninde yapılan uygulamada kirlilik sınırları, yükseliminin ekseni kesinlikle ve en yüksek dogrulukta tesbit edilmiştir. Sekiz nolu kuyu yakınlarında sismetrik azimutal rezistivite survey dört noktada Wenner elektrod düzeninde uygulanarak, HC ca kirlenmiş suyun kuyudan dışa dogru hareket yönünü tesbit edilmiştir. Bu metod kirlenmiş su sızıntılarının göç yönünü tesbitte cok basarılı sonuclar vermiştir. Sonuçlar, 2D görüntüleme tekniğinin kirlenmiş zonu temiz zondan ayıran sınırların basarılı ve güçlü bir yontem oldugu görülmüştür. Yeraltı suyunda Hidrokarbon kirlenmesinin derinliği ve hareket yönünün tesbit edilebileceği görülmüştür. Keywords : DES, Yeraltı suyu, Hidrokarbon kirlenmesi, Kerbala, Irak 146

Evaluation of Resistivity Method in Delineation Ground Water Hydrocarbon Contamination Southwest of Karbala City Jassim M. Thabit 1 , M. Salih Bayraktutan 2 , Firas H. Khalid 1 1 Baghdad University, Department of Geology Ceolege Science, Baghdad, Iraq 2 AKM GRP, Ankara The studied area lies in Karbala Region. The field work performed near six wells drilled since seventh well contaminated with hydrocarbon materials, distributed over the studied area; at the southwest, southeast and northwest of Karbala. Electrical resistivity method in different field techniques was carried out. Non symmetrical azimuthal resistivity survey was applied with three different types of electrode arrays: Wenner, Schlumberger and polar dipole - dipole in two sites. It is found that all the used arrays show the ability to delineate the contaminated water plume, but polar dipole-dipole array was the best to delineate the exact axis of that plume. Symmetrical azimuthal resistivity survey with Wenner electrode array was applied in four stations near contaminated well 8 in order to detect moving direction of contaminated water spill from the well. This technique gave good results in detecting spill direction Azimuthal resistivity techniques can be successful in detecting contaminated water spill under proper conditions. Shallow vertical electrical sounding (VES) technique with Schlumberger electrodes array (maximum distance between current electrodes was 50m) was conducted in two sites; (25) VES points near contaminated well 3 and (45) VES points near contaminated well1 in order to separate the contaminated zone from the clear one. This technique can give good results in delineating contaminated and clear zones when there is high resistivity contrast between them. Deep VES survey in four VES points was applied in order to study the deep hydrocarbon contaminantbearing layer (layers) with respect to its depth and thickness in its actual deep position. It is found that deep VES technique is not effective to detect this hydrocarbon contaminant-bearing layer (layers) in its actual position at the surveyed area. 2D imaging technique in two sites was applied. Near contaminated well 3, in two transects with (30m) long by using Wenner electrode array coincided in position with two VES sections. It is found that 2D imaging technique was better than VES technique in delineating subsurface distribution of contamination at the surveyed area. Also 2D imaging was applied in (8) transects near a pit of contaminated water near contaminated well 6. The outcomes suggested that the 2D imaging technique is a successful and powerful in separating contaminated zone from clear one and in detecting underground seepage depth and moving direction. Keywords : VES, ground water, HC contamination, Karbala, Iraq 147

Page 1 and 2: ÇAĞRILI KONUŞMALAR / KEYNOTES In

Page 3 and 4: present situation looks like this:

Page 5 and 6: Search of a Sustainable Solution to

Page 7 and 8: Seismic Geomorphology and Seismic S

Page 9 and 10: The Impact of Global Energy Policie

Page 11 and 12: From Petroleum Era to Where? Cahit

Page 13 and 14: New Data and Interpretation on the

Page 15 and 16: Çevre, İşsağlığı ve Güvenli

Page 17 and 18: Jeotermal Kaynak Aramalarında Yap

Page 19 and 20: Seferihisar-Kavakdere (İzmir) Alan

Page 21 and 22: Garzan, Dodan, Silivanka, Çamurlu

Page 23 and 24: Batı Karadeniz Bölgesi’nde Yer

Page 25 and 26: Blind Shear Ram Blowout Preventer

Page 27 and 28: Çaldağ Formasyonu’nun Hazne Kay

Page 29 and 30: Üst Triyas Yaşlı Denizli-Kızıl

Page 31 and 32: HİDROKARBON (PETROL / BİTÜM) SIZ

Page 33 and 34: Petrographic Examination of the Sou

Page 35 and 36: Chemistry of Oilfield Water and Hyd

Page 37 and 38: Gas Seepage and Oil Resources and T

Page 39 and 40: Co-Combustion Performance of Oil Sh

Page 41 and 42: The Element Enrichments of the Rock

Page 43 and 44: Kümeli Kalman Filtresi Yöntemi il

Page 45 and 46: Batı Kozluca Ağır Petrol Sahası

Page 47 and 48: Bozova Petrol Sahası 3B Rezervuar

Page 49 and 50: Bozova Petrol Sahası için Yapıla

Page 51 and 52: Rezervuar Modellemesindeki Belirsiz

Page 53 and 54: JEOKİMYA VE HAVZA MODELLEMESİ 1 G

Page 55 and 56: Surface Geochemical Evaluation of M

Page 57 and 58: Hydrocarbon Exploration with GORE S

Page 59 and 60: Detection and Utilization of Volati

Page 61 and 62: Modeling Petroleum System: Case Stu

Page 63 and 64: The Use of Gas Chimneys for Risk Mi

Page 65 and 66: Orta Anadolu’da Orta Eosen İklim

Page 67 and 68: Güncel Işıklı Gölü’nün (De

Page 69 and 70: Türkiye Göllerindeki Depolanma H

Page 71 and 72: Çubuk Gölü’nün (Göynük, Bol

Page 73 and 74: SONDAJ MÜHENDİSLİĞİ 1 Drilling

Page 75 and 76: Macondo: Anatomy of an Oil Disaster

Page 77 and 78: Black Sea Ultra Deepwater Drilling

Page 79 and 80: Applications of Fuzzy Set Theory fo

Page 81 and 82: Pore Pressure Trends in Deepwater O

Page 83 and 84: Managerial Performance in Ultra Dee

Page 85 and 86: Şeyl Gaz Arama ve Üretimi Sun Jay

Page 87 and 88: Organik Şeyl: Yeni Bir Enerji Kayn

Page 89 and 90: Unconventional Enerji Kaynağı Pot

Page 91 and 92: “Unconventional Reservoir” Olar

Page 93 and 94: Şeyl Gaz ve Dünya Piyasalarina Ol

Page 95 and 96: YERALTI GAZ DEPOLAMA Underground Ga

Page 97 and 98: Reitbrook, a Successful Conversıon

Page 99 and 100: 3D Geostatistical Model of the Soğ

Page 101 and 102: Reservoir Engineering and Simulatio

Page 103 and 104: Integrated Geostatistical Reservoir

Page 105 and 106: Reservoir Simulation Study for Unde

Page 107 and 108: Soma Kömür Havzasında Kömürle

Page 109 and 110: Kömürleşme Süreci ve Paleoortam

Page 111 and 112: Beydili Kayası (Nallıhan/Ankara)

Page 113 and 114: Organik Maddece Zengin Kayaçlarda

Page 115 and 116: Dağşeyhler Köyü (Göynük/Bolu)

Page 117 and 118: KARIŞIK KARBONAT VE SİLİSİKLAST

Page 119 and 120: Clastic-Carbonate Facies of Çayba

Page 121 and 122: An Example of Siliciclastic, Carbon

Page 123 and 124: High Frequency Paleoclımate Change

Page 125 and 126: Gaz Sıvı Karışımlı Sondaj Ak

Page 127 and 128: Kaçaklı Formasyonlarda Sert “Ko

Page 129 and 130: Polimer Esaslı Reservuar Sondaj S

Page 131 and 132: Katkı Maddelerinin Çimento Dayan

Page 133 and 134: Karbondioksitçe Doygun Tuzlu Suyun

Page 135 and 136: HİDROKARBON ARAMACILIĞINDA POTANS

Page 137 and 138: Evaluation of the Black Sea Magneti

Page 139 and 140: Identification of the Petroleum Tra

Page 141: Magnetic Signatures of the Kula Vol

Page 145 and 146: 3D Electrical Resistivity Imaging o

Page 147 and 148: Yeraltı Doğal Gaz Depolarının R

Page 149 and 150: Ağır Petrol Üretim Teknolojileri

Page 151 and 152: Raman Petrol Sahasında Polimer Jel

Page 153 and 154: Petrollü Şeyllerinden Hidrokarbon

Page 155 and 156: Yüksek Sıcaklığa Dayanıklı El

Page 157 and 158: JEOKİMYA VE HAVZA MODELLEMESİ 3 G

Page 159 and 160: Investigation of Redox, Provenance

Page 161 and 162: Redox Conditions of Depositional En

Page 163 and 164: Carbon Isotope (δC13) Characterist

Page 165 and 166: Origin of Carbondioxide and Hydroge

Page 167 and 168: Investigation of Sulphate Reducing

Page 169 and 170: Ege Bölgesi, Geleceğin Petrol Ara

Page 171 and 172: Tuzluca (Iğdır) Civarı Geç Olig

Page 173 and 174: Erzurum Civarında Yer Alan Bir Kuy

Page 175 and 176: İzmir Körfezi’ndeki Sığ Gaz B

Page 177 and 178: Üst Kretase Haymana Formasyonu'nda


Page 181 and 182: Slim Hole Technology Erem Arıkan M

Page 183 and 184: Optimization of Drilling Hydraulics

Page 185 and 186: Gelation and Time-Dependent Effect

Page 187 and 188: Drilling Operations of Turkish Petr

Page 189 and 190: Batı Karadeniz’de Gaz Hidrat Ano

Page 191 and 192: Marmara Denizi’ndeki Sığ Gaz Bi

Page 193 and 194: Tabaka Gözeneklerinin Sismik Yans

Page 195 and 196: Harmonik Bozulma ve Eliminasyonu Or

Page 197 and 198: OBN (Deniz Tabanı Düğümleri) Si

Page 199 and 200: Çift Yönlü Alıcı Deniz Sismiğ

Page 201 and 202: Sismik Karot Alımı Amir Abo El Ro

Page 203 and 204: KUYU TESTLERİ Well Test 213

Page 205 and 206: Deconvolution and Its Applications

Page 207 and 208: Investigation of Different Deconvol

Page 209 and 210: Well Test Analysis in the Presence

Page 211 and 212: Assessment of Uncertainties of the

Page 213 and 214: Sondaj Atık Sularının Yönetimi

Page 215 and 216: TPAO Offshore Projelerinde İş Gü

Page 217 and 218: Türkiye Petrolleri Anonim Ortaklı

Page 219 and 220: Petrol Kirliliğine Müdahale Çal

Page 221 and 222: ANADOLU’NUN TEKTONİK GELİŞİM

Page 223 and 224: Introduction: Tectonic Assembly of

Page 225 and 226: Tectono-Sedimentary Evolution of th

Page 227 and 228: Pre-Salt Structures in the Tuz Göl

Page 229 and 230: The Neogene Dynamics of the Balkan

Page 231 and 232: Barge Yardımı ile Sondaj (TAD) Al

Page 233 and 234: Derin Deniz Kuyularında MWD LWD ve

Page 235 and 236: Ultra-Derin Deniz Kuyularında Casi

Page 237 and 238: Karadeniz Ultra Derin Deniz Sondajl

Page 239 and 240: TÜRKİYE ve YAKIN ÇEVRESİ ENERJ

Page 241 and 242: General View of Oil Exploration-Pro

Page 243 and 244: Two Way Competition, Resource vs Ma

Page 245 and 246: Evaluation of Turkish Natural Gas L

Page 247 and 248: Design of an Ideal Petroleum Law: E

Page 249 and 250: The Petroleum Law/Regulation System

Page 251 and 252: Some Suggestions with Regard to a N

Page 253 and 254: The Interpretation and Recommendati

Page 255 and 256: Turkey and the European Union’s F

Page 257 and 258: Petrol, Doğal Gaz ve Jeotermal Mü

Page 259 and 260: Farklı Yöntemlerle Yapılan Gaz R

Page 261 and 262: Olasılıklı Petrol ve Doğal Gaz

Page 263 and 264: Tek ve Çift Gözenekli; İzotrop v

Page 265 and 266: GELİŞEN PETROL SEKTÖRÜNDE YÜKS

Page 267 and 268: Controlled Burn Operations, Gulf of

Page 269 and 270: Rehabilitation of Crude Oil Contami

Page 271 and 272: Health, Safety and Environment Stud

Page 273 and 274: Batı ve Orta Karadeniz Bölgesi’

Page 275 and 276: Eski Avrasya Kıtasal Litosfer İç

Page 277 and 278: İstanbul Zonu’nda Karbonifer Fli

Page 279 and 280: Darius Programı: Karadeniz ve Anad


Page 283 and 284: Hole Enlargenment Operations at Dee

Page 285 and 286: Top Drive Casing Running System Suc

Page 287 and 288: Solid Expandable Tubular Technology

Page 289 and 290: Geomechanical Wellbore Stability As

Page 291 and 292: Yerüstü Atbaşı Pompa Otomasyonu

Page 293 and 294: Akçakoca Doğal Gaz Sahası’nın

Page 295 and 296: Sıvı Kimyasal Enjeksiyonu Yöntem

Page 297 and 298: İnsansız Akçakoca Platformu Elek

Page 299 and 300: JEOTERMAL Geothermal 319

Page 301 and 302: The Geothermal Energy Exploration A

Page 303 and 304: Geothermal Energy Potential of Turk

Page 305 and 306: Determination of Protection Areas i

Page 307 and 308: Research of Geothermal Fields by Ut

Page 309 and 310: Mineralogical and Petrographic Feat

Page 311 and 312: 3D Subsurface Modeling of Gümüşk

Page 313 and 314: Supplemantary Cementitious Material

Page 315 and 316: Doğu Karadeniz Kıtasal Yamacını

Page 317 and 318: Batı Karadeniz Kıtasal Yamacında

Page 319 and 320: Zonguldak - Kozlu Açıklarında G

Page 321 and 322: Akçakoca (Deniz) Dolaylarının Te


Page 325 and 326: Subsea BOP, Secondary Intervention

Page 327 and 328: AC Drilling Rigs in Turkish Petrole

Page 329 and 330: Logistics Operations in Sürmene-1

Page 331 and 332: Rig NOV2000 TD 500 PAC Utilization

Page 333 and 334: Modeling of Cuttings Transport in H

Page 335 and 336: 2007-2009 Yılları Arasında Batı

Page 337 and 338: Libya Sirte Baseni’nde Yeni Büy

Page 339 and 340: Libya Murzuk Baseni, 147/3-4 Ruhsat

Page 341 and 342: NATURALHY (Hidrojen Dağıtımı İ

Page 343 and 344: Yerçekimsel Üretim Yöntemi Yalç

Page 345 and 346: DOĞALGAZ MÜHENDİSLİĞİ ve CO 2

Page 347 and 348: Prediction of Temperature Change of

Page 349 and 350: Matrix Fracture Interaction in Sand

Page 351 and 352: Cap Rock Integrity in Co 2 Storage

Page 353 and 354: Suudi Arabistan’ın Kambriyen-Ord

Page 355 and 356: Suudi Arabistan’ın Silurian-Perm

Page 357 and 358: Batman Kuzeyi Miyosen İstifi Strat

Page 359 and 360: Diyarbakır XI. Bölge Petrol Arama

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