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- ...apped before we know the volume and shape of a reservoir. We use petroleum exploration which means process of exploring for oil and gas resources in the earth. Ho [[File:UGM_Petroleum_Exploration_Diagram_1.png|thumb|300px|Petroleum Exploration Flowchart]]15 KB (2,331 words) - 19:12, 17 April 2019
- ...roleum system]] concept can help in the exploration process by determining exploration intensity and assessing risk. ...h independent variable can be evaluated on a scale of zero to one (0–1.0). Exploration risk is determined by multiplying the three variables: charge, trap, and ti8 KB (1,240 words) - 20:43, 25 January 2022
- ...to the drill site. The discussion is from the perspective of a full-cycle exploration play, where we have a play concept and are looking for a drill location to ...lay concept from inception to drill location through a “normal” structural exploration process, as shown in [[:file:exploring-for-structural-traps_fig20-3.png|Fig4 KB (480 words) - 16:22, 3 February 2022
- ...suring relative geologic time. They are particularly useful in hydrocarbon exploration because they can be recovered from both [[Mudlogging: drill cuttings analys ==Utility of microfossils in exploration==4 KB (483 words) - 15:15, 31 January 2022
- | chapter = Applying gravity in petroleum exploration [[Gravity]] offers significant applications to petroleum exploration. Gravity measurements are affected by changes in rock [[density]]. Surface1 KB (187 words) - 17:53, 25 January 2022
- Because the most important goal of exploration is economic success, locations are often chosen to provide maximum informat * [[Structural exploration workflow]]4 KB (545 words) - 18:52, 3 February 2022
- | series = Methods in Exploration The production and exploration geologist's best database for saving time. This is a quick reference to con124 members (0 subcategories, 0 files) - 16:26, 18 January 2022
- ...ches in [[:file:exploring-for-structural-traps_fig20-4.png|Figure 1]]. The exploration process begins with an examination of the regional tectonic setting of the exploring-for-structural-traps_fig20-4.png|{{figure number|1}}Structural exploration in the Laramide western Wyoming thrust belt in the late 1970s and early 19814 KB (1,897 words) - 20:01, 3 February 2022
- | chapter = Surface geochemical exploration for petroleum ...uncertain of how such information can best be integrated into conventional exploration and development programs.5 KB (687 words) - 19:23, 24 January 2022
- #REDIRECT [[Structural exploration: location selection]]56 bytes (5 words) - 15:21, 12 September 2014
- | chapter = Surface geochemical exploration for petroleum ...eochemical exploration, in Davidson, M. J., ed., Unconventional Methods in Exploration for Petroleum and Natural Gas IV: Dallas, Texas, Southern Methodist Univ. P4 KB (605 words) - 19:24, 24 January 2022
- 20 members (0 subcategories, 0 files) - 17:32, 6 February 2014
- 33 bytes (3 words) - 16:37, 13 January 2015
- ...ry make indirect exploration, which, if it is successful, goes to a direct exploration, and if that is also successful, ends finally in an exploitation. ==Exploration==5 KB (708 words) - 22:00, 10 April 2019
- | chapter = Using magnetics in petroleum exploration [[Magnetics]] can be an extremely effective and economical exploration tool when properly employed. Its proper use, however, depends on the follow9 KB (1,274 words) - 17:59, 24 January 2022
File:UGM Petroleum Exploration Fig 10.png (1,522 × 1,106 (1.2 MB)) - 21:01, 6 July 2015- | chapter = Surface geochemical exploration for petroleum ...uncertain of how such information can best be integrated into conventional exploration and development programs. This chapter examines surface geochemical prospec2 KB (230 words) - 19:23, 24 January 2022
File:UGM Petroleum Exploration Fig 9.png (692 × 1,004 (279 KB)) - 21:16, 6 July 2015File:UGM Petroleum Exploration Fig 8.png (1,268 × 566 (1.07 MB)) - 21:20, 6 July 2015- ...asinal configuration. Biostratigraphy plays an important role in petroleum exploration and production as it allows a number of cost-effective, quick and logistica ...th.<ref name=Jones_1996>Jones, R.W., 1996. Micropalaeontology in petroleum exploration (p. 173). Oxford: Clarendon Press.</ref>]]14 KB (1,899 words) - 21:03, 21 April 2022
- #REDIRECT [[Surface geochemical exploration: assumptions]]58 bytes (5 words) - 21:47, 8 January 2015
- | chapter = Developing a philosophy of exploration ...ion. The table below shows how to apply the scientific method to petroleum exploration.6 KB (808 words) - 15:30, 18 February 2022
File:UGM Petroleum Exploration Fig 7.png (886 × 384 (158 KB)) - 21:22, 6 July 2015- #REDIRECT [[Gravity in petroleum exploration]]46 bytes (5 words) - 14:41, 19 December 2014
File:UGM Petroleum Exploration Fig 6.png (756 × 1,178 (158 KB)) - 21:42, 6 July 2015File:UGM Petroleum Exploration Fig 5.png (908 × 484 (524 KB)) - 21:42, 6 July 2015- 17 members (0 subcategories, 0 files) - 20:35, 15 April 2014
- Articles about the psychology of oil and gas exploration.6 members (0 subcategories, 0 files) - 16:50, 30 January 2014
File:UGM Petroleum Exploration Fig 4.png (1,442 × 810 (356 KB)) - 21:42, 6 July 2015- #REDIRECT [[East Breaks deep-water exploration strategy]]57 bytes (6 words) - 22:42, 15 January 2015
File:UGM Petroleum Exploration Diagram 1.png (483 × 823 (97 KB)) - 21:43, 6 July 2015- #REDIRECT [[East Breaks deep-water exploration strategy]]57 bytes (6 words) - 20:47, 16 April 2014
- #REDIRECT [[East Breaks deep-water exploration strategy]]57 bytes (6 words) - 16:48, 23 July 2014
File:UGM Petroleum Exploration Fig 3.png (570 × 432 (192 KB)) - 21:43, 6 July 2015- #REDIRECT [[Magnetics: petroleum exploration applications]]59 bytes (5 words) - 21:15, 14 May 2014
File:UGM Petroleum Exploration Fig 12.png (1,350 × 748 (1.42 MB)) - 20:37, 6 July 2015File:UGM Petroleum Exploration Fig 2.png (582 × 460 (109 KB)) - 21:44, 6 July 2015File:UGM Petroleum Exploration Fig 11.png (1,058 × 1,164 (235 KB)) - 20:38, 6 July 2015File:UGM Petroleum Exploration Fig 1.png (770 × 614 (40 KB)) - 21:44, 6 July 2015- #REDIRECT [[Surficial geochemical exploration principles]]58 bytes (5 words) - 15:30, 18 July 2014
File:Classification-of-exploration-traps fig2-3.png (1,615 × 1,267 (95 KB)) - 14:53, 6 February 2014File:Using-magnetics-in-petroleum-exploration fig14-3.png (1,225 × 1,513 (228 KB)) - 21:41, 17 January 2014File:Classification-of-exploration-traps fig2-4.png (1,376 × 893 (31 KB)) - 14:54, 6 February 2014File:Using-magnetics-in-petroleum-exploration fig14-4.png (1,301 × 1,576 (395 KB)) - 21:40, 17 January 2014File:Classification-of-exploration-traps fig2-5.png (1,542 × 770 (131 KB)) - 14:55, 6 February 2014File:Using-magnetics-in-petroleum-exploration fig14-5.png (1,187 × 1,334 (247 KB)) - 21:24, 17 January 2014File:Classification-of-exploration-traps fig2-6.png (1,416 × 1,019 (40 KB)) - 14:57, 6 February 2014File:Using-magnetics-in-petroleum-exploration fig14-6.png (956 × 671 (47 KB)) - 22:33, 17 January 2014File:Using-magnetics-in-petroleum-exploration fig14-8.png (1,629 × 576 (67 KB)) - 21:26, 17 January 2014File:Using-magnetics-in-petroleum-exploration fig14-10.png (1,990 × 650 (531 KB)) - 22:21, 17 January 2014File:Using-magnetics-in-petroleum-exploration fig14-9.png (1,107 × 786 (319 KB)) - 22:24, 17 January 2014File:Using-magnetics-in-petroleum-exploration fig14-11.png (1,143 × 1,699 (1.17 MB)) - 21:29, 17 January 2014- Based on the regional basin analysis as previously discussed, an exploration strategy for the East Breaks area and GOM basin deepwater areas can be defi # Locate exploration wells using detailed fault pattern maps overlain by seismic facies maps of6 KB (902 words) - 16:00, 24 March 2022
File:Using-magnetics-in-petroleum-exploration fig14-7.png [[Category:Using magnetics in petroleum exploration]](936 × 646 (37 KB)) - 22:23, 17 January 2014File:Using-magnetics-in-petroleum-exploration fig14-13.png (1,391 × 1,004 (248 KB)) - 22:44, 17 January 2014File:Using-magnetics-in-petroleum-exploration fig14-12.png (1,227 × 994 (1.23 MB)) - 22:44, 17 January 2014File:Classification-of-exploration-traps fig2-1.png (1,639 × 1,237 (94 KB)) - 14:50, 6 February 2014File:Using-magnetics-in-petroleum-exploration fig14-1.png {{copyright|Society of Exploration Geophysicists}} After Nettleton, 1962. Copyright: Society of Exploration Geophysicists.(1,141 × 812 (50 KB)) - 21:18, 17 January 2014- #REDIRECT [[Scientific method: application to exploration]]59 bytes (6 words) - 21:27, 22 May 2014
File:Using-magnetics-in-petroleum-exploration fig14-14.png (1,251 × 948 (261 KB)) - 21:32, 17 January 2014File:Classification-of-exploration-traps fig2-2.png (731 × 876 (26 KB)) - 14:51, 6 February 2014File:Using-magnetics-in-petroleum-exploration fig14-2.png {{copyright|Society of Exploration Geophysicists}} After Nettleton, 1962. Copyright: Society of Exploration Geophysicists.(1,554 × 648 (45 KB)) - 21:20, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-11.png (1,380 × 572 (239 KB)) - 22:15, 17 January 2014- #REDIRECT [[Scientific method: application to exploration]]59 bytes (6 words) - 18:14, 4 September 2014
File:Applying-gravity-in-petroleum-exploration fig15-1.png (1,525 × 394 (30 KB)) - 22:01, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-12.png (1,198 × 1,621 (92 KB)) - 22:18, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-2.png (969 × 588 (32 KB)) - 22:02, 17 January 2014File:Developing-a-philosophy-of-exploration fig1-1.png (1,979 × 704 (257 KB)) - 16:38, 30 January 2014File:Applying-gravity-in-petroleum-exploration fig15-13.png {{copyright|ARCO Exploration and Production Technology, 1997}} . Copyright: ARCO Exploration and Production Technology, 1997.(1,483 × 1,758 (345 KB)) - 22:19, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-3.png (2,047 × 704 (935 KB)) - 22:03, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-14.png {{copyright|ARCO Exploration and Production Technology, 1997}} . Copyright: ARCO Exploration and Production Technology, 1997.(1,978 × 1,174 (239 KB)) - 22:20, 17 January 2014File:Surface-geochemical-exploration-for-petroleum fig18-1.png (1,407 × 1,047 (172 KB)) - 18:23, 18 January 2014File:Applying-gravity-in-petroleum-exploration fig15-4.png (1,412 × 1,194 (70 KB)) - 22:05, 17 January 2014File:Developing-a-philosophy-of-exploration fig1-2.png (1,731 × 1,366 (443 KB)) - 16:41, 30 January 2014File:Applying-gravity-in-petroleum-exploration fig15-15.png (2,042 × 1,421 (507 KB)) - 22:21, 17 January 2014File:Surface-geochemical-exploration-for-petroleum fig18-2.png (1,395 × 821 (411 KB)) - 18:25, 18 January 2014File:Applying-gravity-in-petroleum-exploration fig15-5.png (1,153 × 820 (143 KB)) - 22:06, 17 January 2014File:Developing-a-philosophy-of-exploration fig1-3.png (1,681 × 847 (80 KB)) - 16:42, 30 January 2014File:Surface-geochemical-exploration-for-petroleum fig18-3.png (1,374 × 920 (122 KB)) - 18:26, 18 January 2014File:Applying-gravity-in-petroleum-exploration fig15-6.png (986 × 786 (72 KB)) - 22:07, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-17.png (1,181 × 1,780 (134 KB)) - 22:22, 17 January 2014File:Surface-geochemical-exploration-for-petroleum fig18-4.png (1,456 × 998 (398 KB)) - 18:28, 18 January 2014File:Applying-gravity-in-petroleum-exploration fig15-7.png {{copyright|ARCO Exploration and Production Technology}} . Copyright: ARCO Exploration and Production Technology.(1,463 × 1,952 (1.37 MB)) - 22:10, 17 January 2014File:Surface-geochemical-exploration-for-petroleum fig18-5.png (1,678 × 951 (482 KB)) - 18:30, 18 January 2014File:Applying-gravity-in-petroleum-exploration fig15-8.png (1,616 × 1,772 (292 KB)) - 22:11, 17 January 2014File:Surface-geochemical-exploration-for-petroleum fig18-6.png (1,612 × 961 (1.19 MB)) - 18:31, 18 January 2014File:Applying-gravity-in-petroleum-exploration fig15-9.png (1,650 × 1,572 (339 KB)) - 22:12, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-16.jpg [[Category:Applying gravity in petroleum exploration]](1,265 × 1,761 (721 KB)) - 22:54, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-10.png (1,637 × 1,005 (370 KB)) - 22:14, 17 January 2014- ==Exploration strategy== ...on, migration, and trap formation are very important considerations in the exploration for indirect BCGAs.34 KB (5,070 words) - 15:11, 23 August 2016
- ...fourth industrial revolution in the Oil and Gas sector specifically in the exploration and appraisal stage. ...gas industry deals with a wide array of uncertainty in many aspects. From exploration, field development, and future outlook, we exhibit huge ambiguity and risks21 KB (3,096 words) - 20:59, 21 April 2022
Page text matches
File:Fishing fig5.png {{copyright|Exploration Logging, 1979}} Poor boy junk basket. Copyright: Exploration Logging, 1979.(719 × 765 (38 KB)) - 01:50, 14 January 2014File:Fishing fig1.png {{copyright|Exploration Logging, 1979}} Differential sticking. Copyright: Exploration Logging, 1979.(822 × 853 (85 KB)) - 01:50, 14 January 2014File:Using-magnetics-in-petroleum-exploration fig14-1.png {{copyright|Society of Exploration Geophysicists}} After Nettleton, 1962. Copyright: Society of Exploration Geophysicists.(1,141 × 812 (50 KB)) - 21:18, 17 January 2014File:Using-magnetics-in-petroleum-exploration fig14-2.png {{copyright|Society of Exploration Geophysicists}} After Nettleton, 1962. Copyright: Society of Exploration Geophysicists.(1,554 × 648 (45 KB)) - 21:20, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-7.png {{copyright|ARCO Exploration and Production Technology}} . Copyright: ARCO Exploration and Production Technology.(1,463 × 1,952 (1.37 MB)) - 22:10, 17 January 2014File:Evaluating-top-and-fault-seal fig10-44.png {{copyright|Esso Exploration and Production, U.K}} . Copyright: Esso Exploration and Production, U.K.(829 × 1,439 (638 KB)) - 15:27, 31 January 2014File:Applying-gravity-in-petroleum-exploration fig15-13.png {{copyright|ARCO Exploration and Production Technology, 1997}} . Copyright: ARCO Exploration and Production Technology, 1997.(1,483 × 1,758 (345 KB)) - 22:19, 17 January 2014File:Applying-gravity-in-petroleum-exploration fig15-14.png {{copyright|ARCO Exploration and Production Technology, 1997}} . Copyright: ARCO Exploration and Production Technology, 1997.(1,978 × 1,174 (239 KB)) - 22:20, 17 January 2014- #REDIRECT [[Structural exploration workflow]]45 bytes (4 words) - 19:02, 20 May 2014
- #REDIRECT [[Surface geochemical exploration: assumptions]]58 bytes (5 words) - 21:47, 8 January 2015
- #REDIRECT [[Magnetics: petroleum exploration applications]]59 bytes (5 words) - 21:15, 14 May 2014
- #REDIRECT [[Structural exploration: thrust belt example]]57 bytes (6 words) - 15:38, 16 September 2014
- #REDIRECT [[Gravity in petroleum exploration]]46 bytes (5 words) - 14:41, 19 December 2014
- #REDIRECT [[Surficial geochemical exploration principles]]58 bytes (5 words) - 14:40, 12 January 2015
- #REDIRECT [[Structural exploration: location selection]]56 bytes (5 words) - 15:21, 12 September 2014
- #REDIRECT [[Surface geochemical exploration: assumptions]]58 bytes (5 words) - 21:47, 8 January 2015
- Pages about exploration for strat traps.34 members (0 subcategories, 1 file) - 15:50, 23 January 2014
- #REDIRECT [[Surficial geochemical exploration principles]]58 bytes (5 words) - 15:30, 18 July 2014
- #REDIRECT [[Structural exploration: location selection]]56 bytes (5 words) - 15:21, 12 September 2014
File:Using-magnetics-in-petroleum-exploration fig14-7.png [[Category:Using magnetics in petroleum exploration]](936 × 646 (37 KB)) - 22:23, 17 January 2014- | chapter = Surface geochemical exploration for petroleum ...uncertain of how such information can best be integrated into conventional exploration and development programs. This chapter examines surface geochemical prospec2 KB (230 words) - 19:23, 24 January 2022
File:Applying-gravity-in-petroleum-exploration fig15-16.jpg [[Category:Applying gravity in petroleum exploration]](1,265 × 1,761 (721 KB)) - 22:54, 17 January 2014- #REDIRECT [[Scientific method: application to exploration]]59 bytes (6 words) - 21:27, 22 May 2014
- #REDIRECT [[Scientific method: application to exploration]]59 bytes (6 words) - 18:14, 4 September 2014
- #REDIRECT [[East Breaks deep-water exploration strategy]]57 bytes (6 words) - 22:42, 15 January 2015
- #REDIRECT [[East Breaks deep-water exploration strategy]]57 bytes (6 words) - 20:47, 16 April 2014
- #REDIRECT [[East Breaks deep-water exploration strategy]]57 bytes (6 words) - 16:48, 23 July 2014
- | chapter = Surface geochemical exploration for petroleum ...histories listed below document the effectiveness of [[Surface geochemical exploration for petroleum|surficial geochemical surveys]].1 KB (154 words) - 22:26, 31 January 2022
- Articles about the psychology of oil and gas exploration.6 members (0 subcategories, 0 files) - 16:50, 30 January 2014
File:Figure1 FayettevilleShale2019-20CommRpt.jpg Primary area of the Fayetteville Shale exploration and development in Arkansas.(906 × 666 (131 KB)) - 22:21, 2 June 2021- | series = Methods in Exploration The production and exploration geologist's best database for saving time. This is a quick reference to con124 members (0 subcategories, 0 files) - 16:26, 18 January 2022
- | chapter = Surface geochemical exploration for petroleum ...h geochemical exploration methods. Some limitations of surface geochemical exploration are related to geology; others are related to the method itself.3 KB (418 words) - 21:19, 24 January 2022
- | chapter = Applying gravity in petroleum exploration [[Gravity]] offers significant applications to petroleum exploration. Gravity measurements are affected by changes in rock [[density]]. Surface1 KB (187 words) - 17:53, 25 January 2022
- | chapter = Developing a philosophy of exploration In looking at past actions and past outcomes, it is easy to analyze whether exploration predictions were correct. If they were correct, the technology used for the3 KB (380 words) - 14:31, 18 February 2022
File:Mth14ch00f01.jpg ...izontal well, illustrating basic terms. From Introduction, AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 277 (35 KB)) - 23:19, 23 November 2015- ...ver, often [[igneous]] or metamorphic. It is generally not of interest in exploration for oil and gas, but in some places fractured basement has proven to be a c264 bytes (40 words) - 15:52, 10 March 2016
- * [[Structural exploration: thrust belt example]]548 bytes (67 words) - 15:35, 6 January 2015
- ...types of BCGSs result in strikingly different characteristics that impact exploration strategies. The majority of known BCGAs are the direct type. ...of the world, concepts of basin-centered gas systems are poorly known, and exploration activity focused on basin-centered gas accumulations is minimal.3 KB (453 words) - 13:28, 10 March 2015
- | chapter = Surface geochemical exploration for petroleum ...[[trap]] at [[commom depth point (CDP)]] 1070 ([[:file:surface-geochemical-exploration-for-petroleum_fig18-6.png|Figure 1]]). [[Surficial geochemistry and hydroca3 KB (361 words) - 17:45, 12 April 2022
- | chapter = Classification of exploration traps file:classification-of-exploration-traps_fig2-3.png|{{figure number|1}}Upper Valley field, Utah. Courtesy Rock4 KB (538 words) - 18:47, 12 April 2022
- ...or your success as an oil finder. The book’s twenty-one chapters deal with exploration philosophy, the concept and critical elements of traps in a petroleum syste424 members (0 subcategories, 0 files) - 17:43, 24 January 2022
- | chapter = Surface geochemical exploration for petroleum ...mmarize one company's experience with a soil gas geochemical method. Their exploration program involved geochemical surveys of 139 prospects located in both matur4 KB (499 words) - 22:30, 31 January 2022
- | chapter = Classification of exploration traps [[Category:Classification of exploration traps]]1 KB (179 words) - 16:23, 13 April 2022
- | chapter = Classification of exploration traps [[Category:Classification of exploration traps]]1 KB (166 words) - 16:13, 13 April 2022
- | chapter = Surface geochemical exploration for petroleum ...eochemical exploration, in Davidson, M. J., ed., Unconventional Methods in Exploration for Petroleum and Natural Gas IV: Dallas, Texas, Southern Methodist Univ. P4 KB (605 words) - 19:24, 24 January 2022
- | chapter = Surface geochemical exploration for petroleum [[file:surface-geochemical-exploration-for-petroleum_fig18-3.png|300px|thumb|{{figure number|1}}Generalized model4 KB (493 words) - 22:00, 31 January 2022
- ...specific portions of those domains provide the greatest opportunities for exploration success. Those areas are called '''prospective structural fairways'''. In a * [[Structural exploration workflow]]3 KB (340 words) - 18:50, 3 February 2022
- ...rospective tectonic setting is identified, we can determine where to focus exploration within that setting. This can be done most effectively by defining the boun * Exploration [[seismic data]]3 KB (422 words) - 18:50, 3 February 2022
- | chapter = Classification of exploration traps [[Category:Classification of exploration traps]]1 KB (191 words) - 18:46, 12 April 2022
- ...ctive geologic interpretation and, therefore, effective stratigraphic trap exploration integrates all data types, including [[Seismic interpretation|seismic]], [[1 KB (176 words) - 12:51, 3 July 2014
- ''Methods in Exploration 10: Development Geology Reference Manual.'' Edited by Diana Morton-Thompson2 members (2 subcategories, 0 files) - 17:26, 9 October 2013
- | chapter = Applying gravity in petroleum exploration Borehole [[gravity]] is especially effective for the following exploration and production purposes:3 KB (351 words) - 15:11, 31 January 2022
- * [[Structural exploration workflow]] * [[Structural exploration:location selection]]2 KB (309 words) - 18:48, 3 February 2022
- | chapter = Surface geochemical exploration for petroleum [[file:surface-geochemical-exploration-for-petroleum_fig18-2.png|300px|thumb|{{figure number|1}}Zone of maximum di4 KB (482 words) - 21:00, 31 January 2022
- | chapter = Classification of exploration traps [[Category:Classification of exploration traps]]2 KB (212 words) - 14:19, 13 April 2022
- | chapter = Developing a philosophy of exploration ...location, and penetration direction. This is known as the analog method of exploration.3 KB (498 words) - 16:03, 18 February 2022
- * Exploration significance of each formation533 bytes (68 words) - 13:54, 18 March 2019
- | chapter = Surface geochemical exploration for petroleum ...uncertain of how such information can best be integrated into conventional exploration and development programs.5 KB (687 words) - 19:23, 24 January 2022
- | job = Senior exploration geologist539 bytes (73 words) - 13:14, 6 August 2013
- ...eference Manual: [http://store.aapg.org/detail.aspx?id=612 AAPG Methods in Exploration 10], p. 221-225.</ref>557 bytes (82 words) - 14:13, 24 July 2014
- | chapter = Surface geochemical exploration for petroleum ...xcellent but little-known case history documenting [[Surficial geochemical exploration principles|vertical migration and microseepage]] from undisturbed structura3 KB (445 words) - 22:29, 31 January 2022
- ...to the drill site. The discussion is from the perspective of a full-cycle exploration play, where we have a play concept and are looking for a drill location to ...lay concept from inception to drill location through a “normal” structural exploration process, as shown in [[:file:exploring-for-structural-traps_fig20-3.png|Fig4 KB (480 words) - 16:22, 3 February 2022
- ...suring relative geologic time. They are particularly useful in hydrocarbon exploration because they can be recovered from both [[Mudlogging: drill cuttings analys ==Utility of microfossils in exploration==4 KB (483 words) - 15:15, 31 January 2022
- ...entary gravity and magnetics for geologists and seismologists]: Society of Exploration Geophysicists Monograph Series 1, 121 p. ...in the Papuan thrust belt, in G. J. Carman, and Z. Carman, eds., Petroleum Exploration in Papua New Guinea: Proceedings of the First Papua New Guinea Petroleum Co3 KB (393 words) - 19:52, 2 February 2022
- ...ry make indirect exploration, which, if it is successful, goes to a direct exploration, and if that is also successful, ends finally in an exploitation. ==Exploration==5 KB (708 words) - 22:00, 10 April 2019
File:Mth14ch00f02.jpg ..., E. P. Mason, and C. T. Feazel, Pages ix - xvii, in 2003, AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 342 (32 KB)) - 21:24, 3 December 2015- | chapter = Using magnetics in petroleum exploration ...ation Geophysicists Monograph Series 1, 121 p.</ref> Copyright: Society of Exploration Geophysicists.]]4 KB (618 words) - 19:55, 27 January 2022
File:Magnetics fig1.png ...dian Arctic islands illustrates the main use of aeromagnetics in petroleum exploration. Each small circle on the basement cross section shows a depth determined f(2,677 × 1,649 (34 KB)) - 23:17, 14 January 2014- ..., and fifth-order sea level cycles model sequence deposition for petroleum exploration. A third-order sequence is a composite of fourth- and fifth-order sequences ...another to make a composite sea level cycle curve. For stratigraphic trap exploration, cycles that impact trap location are usually third-, fourth-, and fifth-or3 KB (380 words) - 22:25, 3 February 2022
File:GiacomoneEtAlFigure1.jpg ...and gas) are shown in light blue. DwGoM = deep-water Gulf of Mexico; E&P = exploration and production; WCSB = Western Canada Sedimentary Basin. [1](868 × 600 (145 KB)) - 20:51, 28 October 2021- | chapter = Classification of exploration traps [[Category:Classification of exploration traps]]2 KB (260 words) - 16:31, 13 April 2022
File:Mth14ch04f04.jpg ...mo, M. N. Hashem, and A. J. Hildebrandt, Pages 49 - 65, in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(400 × 202 (17 KB)) - 16:51, 7 December 2015File:Mth14ch07f02.jpg ...son, P. L. McGuire, and M. M. Maguire, Pages 113 - 125, in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 923 (106 KB)) - 17:50, 7 December 2015File:Mth14ch04f03.jpg ...mo, M. N. Hashem, and A. J. Hildebrandt, Pages 49 - 65, in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 495 (47 KB)) - 16:09, 7 December 2015- | chapter = Developing a philosophy of exploration ...ion. The table below shows how to apply the scientific method to petroleum exploration.6 KB (808 words) - 15:30, 18 February 2022
- ...roleum system]] concept can help in the exploration process by determining exploration intensity and assessing risk. ...h independent variable can be evaluated on a scale of zero to one (0–1.0). Exploration risk is determined by multiplying the three variables: charge, trap, and ti8 KB (1,240 words) - 20:43, 25 January 2022
File:Mth14ch02f03.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(700 × 529 (75 KB)) - 15:26, 4 December 2015- | chapter = Surface geochemical exploration for petroleum .../pg/0036/0008/1500/1505.htm Significance of oil and gas seeps in world oil exploration]: AAPG Bulletin, vol. 36, p. 1505–1541.</ref><ref name=ch18r23>Macgregor,6 KB (754 words) - 22:07, 24 January 2022
File:Mth14ch07f04.jpg ...son, P. L. McGuire, and M. M. Maguire, Pages 113 - 125, in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 258 (39 KB)) - 17:58, 7 December 2015File:M115CH10FG02.jpg Top Brae reservoir depth structure map showing the location of the exploration, appraisal, and production wells. Also shown is the 13,100 ft (3993 m) TVDS(1,283 × 1,132 (1.55 MB)) - 18:38, 17 January 2019File:Mth14ch02f06.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(700 × 481 (51 KB)) - 17:48, 4 December 2015- ...ected value and chance of success|risk]]. Compared with more sophisticated exploration techniques, the cost of a field program is a bargain. Acquiring, processing ...sults can advance specific business recommendations on how to proceed with exploration or manage technical risk.5 KB (771 words) - 21:12, 1 February 2022
- ...a structural lead. Many companies use a mixture of these issues to assess exploration risk, employing various numerical approaches. * [[Structural exploration workflow]]4 KB (511 words) - 18:50, 3 February 2022
- | chapter = Surface geochemical exploration for petroleum * Exploration objectives6 KB (826 words) - 17:33, 25 January 2022
File:Mth14ch04f06.jpg ...mo, M. N. Hashem, and A. J. Hildebrandt, Pages 49 - 65, in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(800 × 563 (141 KB)) - 16:55, 7 December 2015- ...onmarine settings. The common evaporite minerals associated with petroleum exploration are [[halite]], [[gypsum]], and [[anhydrite]].1 KB (143 words) - 18:48, 3 March 2016
File:Mth14ch07f05.jpg ...son, P. L. McGuire, and M. M. Maguire, Pages 113 - 125, in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 264 (41 KB)) - 18:09, 7 December 2015- | chapter = Classification of exploration traps [[Category:Classification of exploration traps]]3 KB (331 words) - 16:30, 13 April 2022
File:Mth14ch04f05.jpg ...mo, M. N. Hashem, and A. J. Hildebrandt, Pages 49 - 65, in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(700 × 469 (63 KB)) - 16:53, 7 December 2015- [[Category:Developing a philosophy of exploration]]765 bytes (105 words) - 13:37, 7 July 2014
File:Mth14ch02f04.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 605 (114 KB)) - 15:58, 4 December 2015- ...roleum Geology Exploring for Oil and Gas Traps'' and the ''AAPG Methods in Exploration 10 Development Geology Reference Manual'' is copyright of AAPG and is forma848 bytes (125 words) - 16:58, 9 October 2013
- | chapter = Surface geochemical exploration for petroleum The principal objectives of a geochemical exploration survey are to8 KB (1,055 words) - 16:29, 25 January 2022
File:Mth14ch02f01.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(700 × 457 (103 KB)) - 23:18, 3 December 2015File:Mth14ch02f07.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(700 × 449 (53 KB)) - 19:56, 4 December 2015File:Mth14ch04f01.jpg ...M. N. Hashem, and A. J. Hildebrandt, Pages 49 - 65, ''in'' AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(700 × 525 (111 KB)) - 16:00, 7 December 2015File:Mth14ch02f05.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(500 × 682 (64 KB)) - 17:07, 4 December 2015File:Mthch02f02.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(300 × 453 (36 KB)) - 15:19, 4 December 2015File:Mth14ch02f09.jpg ...Project, Yowlumne Field, San Joaquin Basin, California in AAPG Methods in Exploration No. 14: Horizontal Wells: Focus on the Reservoir, Edited by T. R. Carr, E.(600 × 541 (60 KB)) - 20:21, 4 December 2015- *[http://wiki.seg.org/wiki/Main_Page Society of Exploration Geophysicists]735 bytes (98 words) - 16:07, 15 September 2014