HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI

Hakan Oktay Aydınlı; Mahdi Hassan Pashaeı; Hatice Selin Aydemir; Ümit Güler; Müge Demir Çakır; Serhat Aydemir; Mehtap Özenen-kavlak

Review

Year 2021, Volume: 4 Issue: 2, 28 - 37, 04.07.2021

Hakan Oktay Aydınlı Mahdi Hassan Pashaeı Hatice Selin Aydemir Ümit Güler Müge Demir Çakır Serhat Aydemir Mehtap Özenen-kavlak

Abstract

References

Arp, G. (1992). An integrated interpretation for the origin of the Patrick Draw oil field sage anomaly. AAPG bulletin, 76(3), 301-306.
Bammel, B., & Birnle, R. (1994). Spectral Reflectance Response of BiS Sagebrush to Hydrocarbon-lnduced Stress. Photogrammetric Engineering & Remote Sensing , 60(1), 87-96.
De Oliveira, W., & Crosta , A. (1196). Detection of hydrocarbon seepage in the Sao Francisco basin, Brazil, through Landsat TM, soil geochemistry and airborne/field spectrometry data integration. Environmental Research İnstitute of Michigan, 1-155.
Ellis, J., Davis, H., & Zamudio, J. (2001). Exploring for onshore oil seeps with hyperspectral imaging. Oil and Gas Journal, 99(37), 49-58.
Goetz, A. (2009). Three decades of hyperspectral remote sensing of the Earth: A personal view. Remote Sensing of Environment, 113,5-16.
Hosseinpour, M. (2020). Relationship between hydrocarbon micro-seepages and structures by detection of altered minerals using ASTER remote sensing data in the West of Coastal Fars, Zagros, Iran. Arabian Journal of Geosciences, 13(13),1-10.
Höring , B., Kühn, F., Oschütz, F., & Lehmann, F. (2001). HyMap hyperspectral remote sensing to detect hydrocarbons. İnternational Journal of Remote Sensing , 22(8), 1413-1422.
Jianming, G., Hailong, F., Xiangzeng, W., Lixia, Z., Laiyi, R., Yonghong, H., & Jintao, Y. (2019). Integrating Geochemical Anomaly and Remote Sensing Methods to Predict Oil-and Gas-Bearing Areas in the Yanchang Oil Field, Ordos Basin, China. Earth Sciences Research Journal, 23(1), 79-86.
Khan, S., & Jacobson, S. (2008). Remote sensing and geochemistry for detecting hydrocarbon microseepages. Geological Society of America Bulletin, 120(1-2),96-105.
Lammogliaa, T., Filhoa, C., & Filhob, R. (2008). Characterization Of Hydrocarbon Microseepages In The Tucano Basin,(Brazil) Through Hyperspectral Classification And Neural Network Analysis Of Advanced Spaceborne Thermal Emission And Reflection Radiometer (Aster) Data. Remote Sensing and Spatial İnformation Sciences, 38.
Lang , H., & Nadeau, P. (1984). Petroleum commodity report. Joint NASA/Geosat test case project final report: Tulsa, Oklahoma. AAPG, (pt 2), 10-1.
Lang, H., Aldeman, W., & Sabins Jr, F. (1985). Patrick Draw, Wyoming–petroleum test case report. The Joint NASA/Geosat Test Case Project: Final report. AAPG Special Publication, 2,11-1.
Li, Y., & Zhen, L. (2016). Joint control over reservoirs by faults and uplifts: formation of large-scale gas. China Petroleum Exploration, 21(1), 44.
Maulana, F., Yogiswara, G., Fairuz, S., Maudysha, A., & Nugroho, U. (2020). Remote Sensing Aplication and Geochemical Studies for Hydrocarbon-Induced Alterations Discoveries in Western Kendeng Zone. Proceedings, Indonesian Petroleum Association, Digital Technical Conference.
Noomen, M., Skidmore, A., & Van der Meer, F. (2003). Detecting the influence of gas seepage on vegetation, using hyperspectral remote sensing. ITC,Enschede.
Petrovic, A., Khan, S., & Chafetz, H. (2008). Remote detection and geochemical studies for finding hydrocarbon-induced alterations in Lisbon Valley, Utah. Marine and Petroleum Geology, 25(8),696-705.
Rencz, A., & Ryerson, R. (1999). Manual of remote sensing, remote sensing for the earth sciences (Vol. 3). John Wiley & Sons.
Richers, D., Jones, V., Matthews, M., Maciolek, J., Pirkle, R., & Sidle, W. (1986). The 1983 Landsat soil-gas geochemical survey of Patrick Draw area, Sweetwater county. Wyoming AAPG bulletin, 70(7), 869-887.
Saunders , D., Ray Burson, K., & Keith Thompson, C. (1991). Observed relation of soil magnetic susceptibility and soil gas hydrocarbon analyses to subsurface hydrocarbon accumulations. AAPG bulletin, 75(3), 389-408.
Saunders, D., Burson, K., & Thompson , C. (1999). Model for hydrocarbon microseepage and related near-surface alterations. AAPG bulliten, 83(1), 170-185.
Shumacher, D., & Abrams, M. (1996). Hydrocarbon Migration and Its Near-surface Expression: Outgrowth of the AAPG Hedberg Research Conference, Vancouver, British Columbia. AAPG.
Staskowski, R. (2004). Utility of Aster For Detecting Hydrocarbon. AAPG Annual Convention, 1-2.
Tedesco, S. (2012). Surface geochemistry in petroleum exploration. Springer Science & Business Media .
Van der Meer, F., Van der Werff, H., Van Ruintenbeek, F., Hecker, C., Bakker, W., Noomen , M., & Woldai, T. (2012). Multi-and hyperspectral geologic remote sensing: A review. İnternational Journal of Applied Earth Observation and Geoinformaiton, 14(1), 112-128.
Veena Malhotra, R., Birnie, R., & Johnson, G. (1990). Detection of surficial changes associated with hydrocarbon seepage Sheep Mountain anticline, Bighorn basin, Wyoming. İn Thematic conference on remote sensing for exploraiton geology, 1097-1110.
Wang , J., Liu, S., Li, J., Zhang, Y., & Gao, L. (2011). Characteristics and causes of Mesozoic reservoirs with extra-low permeability and high water cut in northern Shaanxi. Petroleum Exploration and Development, 38(5), 583-588.
Yang , H., Meer, F., Zhang , J., & Kroonenberg, S. (2000). Direct detection of onshore hydrocarbon microseepages by remote sensing techniques. Remote Sensing Reviews, 18(1), 1-18.

HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI

Year 2021, Volume: 4 Issue: 2, 28 - 37, 04.07.2021

Hakan Oktay Aydınlı Mahdi Hassan Pashaeı Hatice Selin Aydemir Ümit Güler Müge Demir Çakır Serhat Aydemir Mehtap Özenen-kavlak

Abstract

Petrol ve doğal gaz dünyadaki başlıca enerji kaynaklarındandır. Dünya üzerindeki enerji ihtiyacının yüzde 63’ü petrol ve doğal gaz kaynakları tarafından karşılanmaktadır. Bu kaynakların tespit edilerek yüzeye taşınması ve üretilmesi esnasında farklı disiplinler bir araya gelerek çeşitli metodolojileri kullanmaktadır. Petrol ve doğal gaz arama faaliyetlerinde jeofizik, jeokimya ve jeoloji çalışmaları hidrokarbon bulunan rezervuarların tespiti için gerekli konvansiyonel çalışmalar olarak tanımlanmaktadır. Son dönemdeki teknolojik gelişimlere bağlı olarak konvansiyonel yöntemlere ek olarak uzaktan algılama faaliyetleri sayesinde uydu verileri kullanılmış ve bu verilerin yapılan diğer çalışmalardaki veriler ile uyum gösterdiği ve hidrokarbon arama uygulamalarında yeni bir teknik olarak kullanılabileceği anlaşılmıştır. Uzaktan algılama verileri ile hidrokarbonların mikro sızıntı olarak yükseldiği bölgelerde mineralojik değişimler tespit edilerek elde edilen sonuçlar rezervlerin varlığını doğrulama amacıyla kullanılması mümkün görülmektedir.

Keywords

Hidrokarbon, Uzaktan Algılama, Mikro-sızıntı, Petrol ve Doğal Gaz

References

Arp, G. (1992). An integrated interpretation for the origin of the Patrick Draw oil field sage anomaly. AAPG bulletin, 76(3), 301-306.
Bammel, B., & Birnle, R. (1994). Spectral Reflectance Response of BiS Sagebrush to Hydrocarbon-lnduced Stress. Photogrammetric Engineering & Remote Sensing , 60(1), 87-96.
De Oliveira, W., & Crosta , A. (1196). Detection of hydrocarbon seepage in the Sao Francisco basin, Brazil, through Landsat TM, soil geochemistry and airborne/field spectrometry data integration. Environmental Research İnstitute of Michigan, 1-155.
Ellis, J., Davis, H., & Zamudio, J. (2001). Exploring for onshore oil seeps with hyperspectral imaging. Oil and Gas Journal, 99(37), 49-58.
Goetz, A. (2009). Three decades of hyperspectral remote sensing of the Earth: A personal view. Remote Sensing of Environment, 113,5-16.
Hosseinpour, M. (2020). Relationship between hydrocarbon micro-seepages and structures by detection of altered minerals using ASTER remote sensing data in the West of Coastal Fars, Zagros, Iran. Arabian Journal of Geosciences, 13(13),1-10.
Höring , B., Kühn, F., Oschütz, F., & Lehmann, F. (2001). HyMap hyperspectral remote sensing to detect hydrocarbons. İnternational Journal of Remote Sensing , 22(8), 1413-1422.
Jianming, G., Hailong, F., Xiangzeng, W., Lixia, Z., Laiyi, R., Yonghong, H., & Jintao, Y. (2019). Integrating Geochemical Anomaly and Remote Sensing Methods to Predict Oil-and Gas-Bearing Areas in the Yanchang Oil Field, Ordos Basin, China. Earth Sciences Research Journal, 23(1), 79-86.
Khan, S., & Jacobson, S. (2008). Remote sensing and geochemistry for detecting hydrocarbon microseepages. Geological Society of America Bulletin, 120(1-2),96-105.
Lammogliaa, T., Filhoa, C., & Filhob, R. (2008). Characterization Of Hydrocarbon Microseepages In The Tucano Basin,(Brazil) Through Hyperspectral Classification And Neural Network Analysis Of Advanced Spaceborne Thermal Emission And Reflection Radiometer (Aster) Data. Remote Sensing and Spatial İnformation Sciences, 38.
Lang , H., & Nadeau, P. (1984). Petroleum commodity report. Joint NASA/Geosat test case project final report: Tulsa, Oklahoma. AAPG, (pt 2), 10-1.
Lang, H., Aldeman, W., & Sabins Jr, F. (1985). Patrick Draw, Wyoming–petroleum test case report. The Joint NASA/Geosat Test Case Project: Final report. AAPG Special Publication, 2,11-1.
Li, Y., & Zhen, L. (2016). Joint control over reservoirs by faults and uplifts: formation of large-scale gas. China Petroleum Exploration, 21(1), 44.
Maulana, F., Yogiswara, G., Fairuz, S., Maudysha, A., & Nugroho, U. (2020). Remote Sensing Aplication and Geochemical Studies for Hydrocarbon-Induced Alterations Discoveries in Western Kendeng Zone. Proceedings, Indonesian Petroleum Association, Digital Technical Conference.
Noomen, M., Skidmore, A., & Van der Meer, F. (2003). Detecting the influence of gas seepage on vegetation, using hyperspectral remote sensing. ITC,Enschede.
Petrovic, A., Khan, S., & Chafetz, H. (2008). Remote detection and geochemical studies for finding hydrocarbon-induced alterations in Lisbon Valley, Utah. Marine and Petroleum Geology, 25(8),696-705.
Rencz, A., & Ryerson, R. (1999). Manual of remote sensing, remote sensing for the earth sciences (Vol. 3). John Wiley & Sons.
Richers, D., Jones, V., Matthews, M., Maciolek, J., Pirkle, R., & Sidle, W. (1986). The 1983 Landsat soil-gas geochemical survey of Patrick Draw area, Sweetwater county. Wyoming AAPG bulletin, 70(7), 869-887.
Saunders , D., Ray Burson, K., & Keith Thompson, C. (1991). Observed relation of soil magnetic susceptibility and soil gas hydrocarbon analyses to subsurface hydrocarbon accumulations. AAPG bulletin, 75(3), 389-408.
Saunders, D., Burson, K., & Thompson , C. (1999). Model for hydrocarbon microseepage and related near-surface alterations. AAPG bulliten, 83(1), 170-185.
Shumacher, D., & Abrams, M. (1996). Hydrocarbon Migration and Its Near-surface Expression: Outgrowth of the AAPG Hedberg Research Conference, Vancouver, British Columbia. AAPG.
Staskowski, R. (2004). Utility of Aster For Detecting Hydrocarbon. AAPG Annual Convention, 1-2.
Tedesco, S. (2012). Surface geochemistry in petroleum exploration. Springer Science & Business Media .
Van der Meer, F., Van der Werff, H., Van Ruintenbeek, F., Hecker, C., Bakker, W., Noomen , M., & Woldai, T. (2012). Multi-and hyperspectral geologic remote sensing: A review. İnternational Journal of Applied Earth Observation and Geoinformaiton, 14(1), 112-128.
Veena Malhotra, R., Birnie, R., & Johnson, G. (1990). Detection of surficial changes associated with hydrocarbon seepage Sheep Mountain anticline, Bighorn basin, Wyoming. İn Thematic conference on remote sensing for exploraiton geology, 1097-1110.
Wang , J., Liu, S., Li, J., Zhang, Y., & Gao, L. (2011). Characteristics and causes of Mesozoic reservoirs with extra-low permeability and high water cut in northern Shaanxi. Petroleum Exploration and Development, 38(5), 583-588.
Yang , H., Meer, F., Zhang , J., & Kroonenberg, S. (2000). Direct detection of onshore hydrocarbon microseepages by remote sensing techniques. Remote Sensing Reviews, 18(1), 1-18.

There are 27 citations in total.

Details

Primary Language	Turkish
Journal Section	Articles
Authors	Hakan Oktay Aydınlı 0000-0001-9596-0079 Mahdi Hassan Pashaeı 0000-0003-4944-9979 Hatice Selin Aydemir 0000-0002-7903-9535 Ümit Güler 0000-0002-6376-9269 Müge Demir Çakır 0000-0002-6885-7188 Serhat Aydemir 0000-0001-5237-6083 Mehtap Özenen-kavlak 0000-0002-5369-4494
Publication Date	July 4, 2021
Published in Issue	Year 2021 Volume: 4 Issue: 2

Cite

APA	Aydınlı, H. O., Hassan Pashaeı, M., Aydemir, H. S., Güler, Ü., et al. (2021). HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI. GSI Journals Serie C: Advancements in Information Sciences and Technologies, 4(2), 28-37.
AMA	Aydınlı HO, Hassan Pashaeı M, Aydemir HS, Güler Ü, Demir Çakır M, Aydemir S, Özenen-kavlak M. HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI. AIST. July 2021;4(2):28-37.
Chicago	Aydınlı, Hakan Oktay, Mahdi Hassan Pashaeı, Hatice Selin Aydemir, Ümit Güler, Müge Demir Çakır, Serhat Aydemir, and Mehtap Özenen-kavlak. “HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI”. GSI Journals Serie C: Advancements in Information Sciences and Technologies 4, no. 2 (July 2021): 28-37.
EndNote	Aydınlı HO, Hassan Pashaeı M, Aydemir HS, Güler Ü, Demir Çakır M, Aydemir S, Özenen-kavlak M (July 1, 2021) HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI. GSI Journals Serie C: Advancements in Information Sciences and Technologies 4 2 28–37.
IEEE	H. O. Aydınlı, “HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI”, AIST, vol. 4, no. 2, pp. 28–37, 2021.
ISNAD	Aydınlı, Hakan Oktay et al. “HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI”. GSI Journals Serie C: Advancements in Information Sciences and Technologies 4/2 (July 2021), 28-37.
JAMA	Aydınlı HO, Hassan Pashaeı M, Aydemir HS, Güler Ü, Demir Çakır M, Aydemir S, Özenen-kavlak M. HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI. AIST. 2021;4:28–37.
MLA	Aydınlı, Hakan Oktay et al. “HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI”. GSI Journals Serie C: Advancements in Information Sciences and Technologies, vol. 4, no. 2, 2021, pp. 28-37.
Vancouver	Aydınlı HO, Hassan Pashaeı M, Aydemir HS, Güler Ü, Demir Çakır M, Aydemir S, Özenen-kavlak M. HİDROKARBON MİKRO SIZINTILARININ UA YÖNTEMLERİ İLE TESPİT EDİLMESİ VE UANIN HİDROKARBON KEŞİFLERİNDE YENİ BİR TEKNİK OLARAK KULLANILMASI. AIST. 2021;4(2):28-37.

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