Search results

Jump to navigation Jump to search

Page title matches

Page text matches

  • Introduction to production engineering methods
    List of articles related to production engineering. * [[Production testing]]
    342 bytes (31 words) - 17:08, 15 January 2014
  • Seed bag
    [[Category:Production engineering methods]]
    544 bytes (96 words) - 20:23, 14 April 2014
  • Free water level
    ...r produces water alone, hydrocarbon and water, or hydrocarbon alone on a [[production test]]. Below this level lies the aquifer of a [[Drive mechanisms and recov [[Category:Reservoir engineering]]
    525 bytes (76 words) - 14:40, 8 September 2014
  • Subsurface team
    ...the venture to be successful. Some oil companies have separate geology and engineering department, but regardless of the makeup of the team, short lines of commun ...in a subsurface team.<ref name=Shepherd_2009>Shepherd, M., 2009, Oil Field Production Geology: [http://store.aapg.org/detail.aspx?id=788 AAPG Memoir 91], 350 p.
    3 KB (424 words) - 14:54, 10 November 2014
  • Artificial lift
    | part = Production engineering methods ...s]] to the surface. Artificial lift equipment also can be used to increase production from flowing wells by reducing the producing bottomhole pressure.
    7 KB (1,094 words) - 20:47, 19 January 2022
  • Predicting reservoir drive mechanism
    ...drive type by analyzing (1) the reservoir system of a prospect and (2) the production history characteristics of similar nearby reservoirs. ...nsate, and water production and pressure decline and (2) making cumulative production maps. When all available information has been assembled, find the drive typ
    6 KB (759 words) - 13:51, 4 April 2022
  • Surface production equipment
    | part = Production engineering methods | chapter = Surface production equipment
    9 KB (1,343 words) - 18:42, 20 January 2022
  • Production histories
    | part = Production engineering methods | chapter = Production histories
    11 KB (1,656 words) - 18:41, 20 January 2022
  • Molyneux:sandbox
    * [[Petroleum engineering]] * [[Production test]]
    5 KB (543 words) - 23:45, 8 January 2015
  • Borehole gravity: uses, advantages, and disadvantages
    ...hole [[gravity]] is especially effective for the following exploration and production purposes: '''Production purposes'''
    3 KB (351 words) - 15:11, 31 January 2022
  • Drive mechanisms and recovery
    | part = Reservoir engineering methods ...of historical production data, primarily reservoir pressure data and fluid production ratios.
    16 KB (2,374 words) - 20:46, 19 January 2022
  • Production logging
    | part = Production engineering methods | chapter = Production logging
    12 KB (1,726 words) - 16:48, 20 January 2022
  • Waterflooding
    | part = Reservoir engineering methods ...ing and producing incremental oil after (or sometimes before) the economic production limit has been reached. This is done through the displacement of oil and fr
    10 KB (1,468 words) - 18:23, 21 January 2022
  • Types of completions
    | part = Production Engineering Methods .... An [[Waterflooding|injection well]] may require stronger casing than a [[production well]].
    13 KB (1,944 words) - 19:56, 18 January 2022
  • Reserves estimation
    | part = Reservoir engineering methods ...'' refer to the total volume of hydrocarbon stored in a reservoir prior to production. ''Reserves'' or ''recoverable reserves'' are the volume of hydrocarbons th
    16 KB (2,550 words) - 17:47, 21 January 2022
  • EMD Tight Oil & Gas Committee 2018-19 Annual Report
    ...barrels per day due to improvements in drilling techniques, however daily production is forecasted to increase only in the Permian Basin in 2019 ([http://www.ei ...ightOilCommittee_2018-19_Figure2.jpg|thumb|Figure 2: Monthly dry shale gas production ([https://www.eia.gov/energyexplained/natural-gas/where-our-natural-gas-com
    6 KB (820 words) - 20:57, 6 April 2021
  • Tuscaloosa Marine Shale, Gulf Coast Basin, Louisiana and Mississippi
    ...the Florida panhandle (Fig. 1a; Hackley et al., 2018). However, realized production from the TMS has been confined to a limited area along the east-west LA-MS ...020 with gas production showing a greater increase in August 2020 than oil production (Fig. 2b).
    7 KB (1,007 words) - 21:15, 3 March 2022
  • Vibro-sesismic to increasing the production rate of coal bed methane
    ....When the porosity increase, the pearmeability will also increase, and the production result will increase. ...the water.<ref>Seidle, J., 2011, Fundamentals of Coalbed Methane Reservoir Engineering. Oklahoma: Pennwell Corporation.</ref>]]
    11 KB (1,551 words) - 16:49, 11 January 2016
  • Production testing
    | part = Production engineering methods | chapter = Production testing
    14 KB (2,165 words) - 18:42, 20 January 2022
  • Workovers
    | part = Production engineering methods ...de the production casing, even smaller equipment is run for completion and production or injection purposes. [[:file:workovers_fig2.png|Figure 2]] illustrates th
    12 KB (1,834 words) - 15:25, 24 January 2022
  • EMD Tight Oil & Gas Committee
    ...in and the Bakken and Eagle Ford Shales have led to a reversal in U.S. oil production after 20 years of decline.
    4 KB (570 words) - 20:56, 6 April 2021
  • Pressure transient testing
    | part = Production engineering methods ...is type of test is a single-point deliverability test in a gas well (see [[Production testing]]).
    15 KB (2,314 words) - 17:45, 21 January 2022
  • Drilling problems
    ...depth. If casing is successfully run through the dogleg, excessive wear on production equipment can occur. The use of properly placed stabilizers, large diameter [[Category:Engineering]]
    5 KB (732 words) - 21:18, 19 January 2022
  • Production problems
    | part = Production engineering methods | chapter = Production problems
    16 KB (2,540 words) - 18:41, 20 January 2022
  • Well completion
    | part = Production engineering methods ...tion and [[workover]] operations applied to a well. In most companies, the production engineer designs and supervises all completion and workover operations.
    19 KB (2,910 words) - 21:06, 18 January 2022
  • Economics: fundamental equations for oil and gas property evaluation
    ...ally received over a long period of time, a net cash flow stream combining production decline, price fluctuations, expenses (including taxes), and inflation. Thi ...ty of the geotechnical professional to estimate the magnitude of reserves, production rates, and costs; to reduce the level of uncertainty as much as possible th
    6 KB (842 words) - 19:26, 19 January 2022
  • Fluid flow fundamentals
    | part = Reservoir engineering methods * ''q''<sub>o</sub> = oil production rate (STB/day)
    20 KB (3,155 words) - 21:20, 19 January 2022
  • Reservoir modeling for simulation purposes
    | part = Reservoir engineering methods ...ir connectivity is often derived from production and pressure tests (see [[Production testing]] and [[Pressure transient testing]]). In particular, it is very di
    17 KB (2,234 words) - 21:21, 19 January 2022
  • Eagle Ford Group in southwest Texas (USGS)
    ...ugh May 2020<ref name=IHS>IHS Markit, 2020. Enerdeq™ U.S. well history and production database: Englewood, Colo., IHS Markit, accessed May 28, 2020, http://www.i ...in). Production trends in the Eagle Ford correspond to geologic structure. Production distributions from wells are related to depth, which range from ~4000 to mo
    11 KB (1,594 words) - 19:15, 8 February 2024
  • Wiki write off
    * [[Reservoir engineering]] * [[Vibro-sesismic to increasing the production rate of coal bed methane]]
    3 KB (399 words) - 12:51, 28 September 2015
  • Oil and condensate analysis
    ...as provided by [[gas chromatography]], must be integrated with geological, engineering, and wellsite information to make these interpretations ([[:file:oil-and-co |+ {{table number|1}}Development geology and engineering questions answered by oil and condensate analyses
    14 KB (2,013 words) - 16:48, 20 January 2022
  • Stratigraphically complex fields
    ...because these fields offer the opportunity for significant improvements in production with relatively low risk. * Difficulty in history matching reservoir simulation models with actual production
    8 KB (983 words) - 20:49, 19 January 2022
  • Pay determination
    ...cribed only by a thorough integration and interpretation of geological and engineering data. ...ies, fluid saturations, and capillary behavior) to the economic aspects of production (completion method, recovery techniques, and volumetric estimates of reserv
    13 KB (1,799 words) - 19:01, 20 January 2022
  • Buoyancy forces in reservoir fluids
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    8 KB (1,182 words) - 20:27, 3 March 2016
  • Reservoir simulation study
    | part = Reservoir engineering methods ...of the reservoir's rock and fluid properties, validation of completion and production history, and extensive history matching to validate and modify this input d
    19 KB (2,711 words) - 17:48, 21 January 2022
  • Fluid contacts
    ...the capillary pressure curve. The transition zone is the interval with co-production of water and hydrocarbons. The fraction of co-produced water is shown by th ...discussed by Bradley.<ref name=pt10r3>Bradley, H. B., ed., 1987, Petroleum Engineering Handbook: Richardson, TX, Society of Petroleum Engineers.</ref> These inclu
    19 KB (2,690 words) - 21:20, 19 January 2022
  • New Albany Shale, Illinois Basin, southwestern Indiana
    ...ls ranged from 567 to 11,327 m3/day (average 5295 m3/day), but the initial production to the pipeline is significantly lower [3, 8]. The New Albany Shale was his ...s, hydrocarbon depletion due to migration into other formations, etc.) and engineering factors (water encroachment, uncertainties in well performances, etc.)[3, 1
    7 KB (1,107 words) - 21:50, 4 March 2022
  • Subsurface maps
    ...ment|reservoir development]] to show closure and other limits to reservoir production. Maps of top of pay and bottom of pay can also be “subtracted” to deter ...oirs in the deep subsurface along the Texas Gulf coast—their potential for production of geopressured geothermal energy: The Univ. of Texas Bureau of Economic Ge
    22 KB (3,076 words) - 13:56, 24 January 2022
  • Enhanced oil recovery
    | part = Reservoir engineering methods ...anced oil recovery (EOR) techniques—generally grouped together as tertiary production schemes—have targeted this huge unexploited reserve.
    12 KB (1,794 words) - 21:19, 19 January 2022
  • Drilling a well
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    15 KB (2,385 words) - 15:05, 1 August 2016
  • Oil and gas contracts
    # Obligations for rental and/or royalty payments in the event of production ...to notices and information furnished to the parties, audits, marketing of production, access to the wells, and gas processing
    13 KB (1,979 words) - 19:26, 19 January 2022
  • Flow units for reservoir characterization
    ...1987/5/ Flow unit concept—integrated approach to reservoir description for engineering projects, abst.]: AAPG Bulletin, v. 71, n. 5, p. 551–552.</ref> and ''lit ...lithofacies zonation in that it integrates geological, petrophysical, and production data with the end purpose of describing fluid flow pathways in the reservoi
    16 KB (2,282 words) - 20:46, 19 January 2022
  • Reservoir fluids
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    22 KB (3,508 words) - 20:34, 3 March 2016
  • Utilization of the industrial revolution 4.0 in oil and gas exploration
    ...stage that is the installation of rigs and drilling the well; finally, the production stage which is the extraction of the oil and gas from the subsurface. In th ...in petroleum exploration and production. Journal of Petroleum Science and Engineering, 49(3–4), 93–96. https://doi.org/10.1016/j.petrol.2005.09.001</ref> <re
    21 KB (3,096 words) - 20:59, 21 April 2022
  • Stimulation
    | part = Production engineering methods ...gned to remove the fracturing fluid from the formation and to initiate the production of reservoir fluids. Reservoir “cleanup” occurs over a period of severa
    24 KB (3,633 words) - 13:55, 24 January 2022
  • Well types
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    24 KB (3,753 words) - 19:33, 3 March 2016
  • Fractured reservoir evaluation
    ...s of naturally fractured reservoirs—Contributions in Petroleum Geology and Engineering #1: Houston, TX, Gulf Publishing Company, 320 p.</ref> ...ve overburden) || Requires appropriate exploration strategies or reservoir engineering approach to gas recovery
    26 KB (3,674 words) - 21:21, 19 January 2022
  • Rock quality
    K<sub>a</sub> and Φ are standard components of many reservoir engineering wellbore flow performance equations. The K<sub>a</sub>/Φ ratio reflects ro ...ippage and pore aperture size in carbonate and sandstone reservoirs: Amoco Production Company Report F76-G-5, 25 p. (unpublished).</ref> developed the following
    10 KB (1,534 words) - 16:53, 4 April 2022
  • Condensate banking effect
    ==Laboratory tests to simulate condensate production== ...PVT properties of the fluid, which consequently supports optimum reservoir engineering decisions, and well performance for the field.<ref name=Whitsonetal_1999> W
    21 KB (3,040 words) - 15:22, 12 December 2022
  • Petroleum reservoir fluid properties
    | part = Reservoir engineering methods ...re Katz et al.<ref name=pt10r18>Katz, D. L., 1959, Handbook of Natural Gas Engineering: New York, McGraw-Hill.</ref> and Society of Petroleum Engineers.<ref name=
    19 KB (2,721 words) - 21:21, 19 January 2022
  • Well planning
    Planning a well is an iterative process between geoscience and engineering staffs that involves frequent accessing of several databases and clear comm ** production data
    6 KB (779 words) - 15:09, 24 January 2022
  • Vaca Muerta, La Luna Shale, South America
    ...ng|300px|center|framed|{{figure number|1}}Charts demonstrating oil and gas production from the Vaca Muerta Play. From Rystad Energy (2021)]] ...nBasin, Argentina: SPE Symposium on Latin American and Caribbean Petroleum Engineering Conference, SPE Paper 199035, July 27-31, 2020.</ref>.
    11 KB (1,644 words) - 16:14, 11 May 2023
  • Prudhoe Bay field
    ...l Wildlife Refuge (ANWR; [[:file:Mth14ch07f01.jpg|Figure 1]]). Present-day production from Permian-Triassic sandstones and conglomerates of the Ivishak Formation ..., 1979, [https://www.onepetro.org/journal-paper/SPE-7531-PA Joint geologic/engineering analysis of the Sadlerochit Reservoir, Prudhoe Bay Field]: Journal of Petro
    11 KB (1,634 words) - 16:34, 26 April 2016
  • Relative permeability
    ...chives.datapages.com/data/bulletns/1961-64/data/pg/0048/0002/0150/0157.htm Engineering concepts useful in oil finding]: AAPG Bulletin, v. 48, no. 2, p. 943-961.</ ...nt aspect, being measured while S<sub>w</sub> increases, as it does during production in a reservoir with a water drive.
    9 KB (1,351 words) - 13:31, 5 April 2022
  • Factors that oppose hydrocarbon migration
    ...derived from cores are characteristically lower than those measured during production tests.
    8 KB (1,133 words) - 15:16, 14 February 2022
  • In-situ stress characterization and applications
    ...ame=AmadeiStephansson /> as cited in Zhang<ref name=Zhang>Zhang, L., 2016, Engineering properties of rocks: Amsterdam, Netherlands, Elsevier, 394 p.</ref>) ...ed for in situ stress monitor: TELKOMNIKA Indonesian Journal of Electrical Engineering, vol. 11, no. 11, p. 6296-6303.</ref>).
    28 KB (4,031 words) - 15:49, 28 November 2022
  • Eolian reservoirs
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    19 KB (2,690 words) - 18:42, 1 August 2016
  • Types of wells
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    22 KB (3,567 words) - 17:20, 11 March 2019
  • Carbon dioxide (CO2) storage
    ...sposal of carbon dioxide an option for Australia: The Australian Petroleum Production and Exploration Association (APPEA) Journal, v. 40, no. 1, p. 654–666.</r ...s and implications for new gas field development: The Australian Petroleum Production and Exploration Association (APPEA) Journal, v. 42, no. 1, p. 25-46.</ref><
    37 KB (5,487 words) - 21:14, 11 March 2019
  • Permeability
    ...G., Marschall, D. M., 1988, Reservoir description—a practical synergistic engineering and geological approach based on analysis of core data: 63rd SPE Annual Tec ...941, The permeability of porous media to liquid and gases, in Drilling and Production Practices: Washington, D., C., American Petroleum Institute, p. 200–211.<
    19 KB (2,716 words) - 19:02, 20 January 2022
  • Basin-centered gas systems: evaluation and exploration strategies
    ...d drilling programs and some type of artificial stimulation for commercial production rates. Reservoir continuity is an important consideration in the design of ...basin]: AAPG Bulletin, v. 81, p. 1049-1062.</ref> In a similar manner, gas production from multiple sandstone reservoirs in the Upper Cretaceous Williams Fork Fo
    34 KB (5,070 words) - 15:11, 23 August 2016
  • White paper: Hydraulic fracturing
    ...o the public the science behind issues that affect the exploration for and production of petroleum and other energy mineral resources. * Illustrate and discuss the impact of hydraulic fracturing to oil and gas production.
    27 KB (4,076 words) - 16:33, 19 July 2016
  • Basin-centered gas systems: historical development and classification
    ...299 p.</ref> Finley<ref name=Finley_1984>Finley, R. J., 1984, Geology and engineering characteristics of selected low-permeability gas sandstones: a national sur ...cause all BCGAs do not occur at great depths. For example, much of the gas production in the [[San Juan basin]] is from BCGAs at depths as shallow as 3000 ft (91
    9 KB (1,373 words) - 13:40, 10 March 2015
  • Mudstones
    ...d access to the vast energy resources contained in these rocks—indeed, the production of “shale oil” and “shale gas” in the United States changed the ene ...ow, D. A., 1981, Fine-grained sediments: Terminology: Quarterly Journal of Engineering Geology and Hydrology, v. 14, p. 243–244.</ref>; Macquaker and Adams<ref>
    16 KB (2,352 words) - 18:46, 4 December 2023
  • Seismic interpretation
    ...light on the geological conditions of a specific reservoir is pressure and production history data. These data can provide information on the presence and proxim ...ished when the seismic data are merged with petrophysical, geological, and engineering databases. While the process of interpreting seismic data is basically the
    10 KB (1,520 words) - 18:48, 21 January 2022
  • Introduction to biosteering operation
    ...through a thin reservoir layer maximizing reservoir contact for increased production.<ref name=Fadiya_2014 />]] ...subsequent depletion of reservoir pressure, UBCTD has been used to improve production with the following benefits (see Ladmia et al.,<ref name=Ladmiaetal_2020>La
    20 KB (2,916 words) - 21:04, 21 April 2022
  • Wettability
    ...d between two surfaces.<ref name=pt05r39>Craig, F. F., 1971, The reservoir engineering aspects of waterflooding: Dallas, TX, Society of Petroleum Engineers Monogr ...helmy plate technique, in Borchardt, J. K., Yen, T. F., eds., Enhanced and Production [[Stimulation]]: Washington, D., C., American Chemical Society Symposium Se
    12 KB (1,706 words) - 15:11, 24 January 2022
  • Capillary pressure
    ...the reservoir prior to production and remaining hydrocarbons after primary production. ...to evaluate the initial static distributions of reservoir fluids prior to production because these distributions are typically controlled by the premigration we
    23 KB (3,315 words) - 16:59, 19 January 2022
  • Fluid inclusions: analysis and applications
    ...onditions and the analysis of core and fluids collected during testing and production. The first step in predicting the initial petroleum composition generated f ...ions, with some Australian case studies” (Journal of Petroleum Science and Engineering, 57, 1-2,119-138)</ref>
    20 KB (2,691 words) - 21:06, 21 April 2022
  • Meandering fluvial reservoirs
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    32 KB (4,727 words) - 21:03, 15 January 2024
  • Carbonate reservoir
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    38 KB (5,571 words) - 15:31, 16 January 2024
  • Faults: structural geology
    | image = Oil-field-production-geology.png | title = Oil Field Production Geology
    63 KB (9,496 words) - 16:51, 15 January 2024
  • Diagenetically complex reservoir evaluation
    ...al-paper/SPE-10993-PA Nugget Formation reservoir characteristics affecting production the Overthrust Belt of southwestern Wyoming]: Journal of Petroleum Technolo ...of the area, the local structural history, the history of exploration and production in the area, the burial history including major erosional and/or nondeposit
    31 KB (4,171 words) - 18:22, 21 January 2022
  • Basin-centered gas systems: elements and processes
    ...blanket reservoirs.<ref name=Finley_1984>Finley, R. J., 1984, Geology and engineering characteristics of selected low-permeability gas sandstones: A national sur ...s.datapages.com/data/bulletns/2003/05may/0847/0847.HTM Nature, origin, and production characteristics of the Lower Silurian regional oil and gas accumulation, ce
    20 KB (2,949 words) - 18:24, 6 April 2016
  • Core alteration and preservation
    ...furnish information on geological and petrophysical rock properties and on engineering and completion data.<ref name=Keelan_1985>Keelan, D. K., 1985, Coring Part ..., 1985, Core analysis: Boston, MA, IHRDC Video Library for Exploration and Production Specialists, n. PE405, 186 p.</ref>
    20 KB (2,971 words) - 15:46, 19 January 2022
  • Wattenberg field
    ...generally poor, which mandates hydraulic fracture stimulation for economic production. ...nt horizontal drilling activity in the Codell and Niobrara with cumulative production to date at 1060 MMBO and 9.4 TCFG from more than 40,000 wells. Estimated ul
    72 KB (10,249 words) - 20:06, 15 January 2024
  • Subsurface diagenesis and its relation with diagenetic trap on carbonate rocks reservoir
    ...ace diagenesis is a reef or bioherm (Landes, 1946). The main reason of oil production from some reef which rest on high porosity and high permeability reservoir ...azullo, and Rieke, 1992, Carbonate Reservoir Characterization: A Geologic- Engineering Analysis, part I: Amsterdam, Elsevier Science B.V.
    16 KB (2,395 words) - 21:18, 9 January 2024
  • Three-dimensional modeling of clinoforms in shallow-marine reservoirs
    ...eservoir analog: Part 2. Geological controls on fluid flow and hydrocarbon production]: AAPG Bulletin, v. 93, no. 9, p. 1183–1208, doi: 10.1306/05110908145.</r ...al systems for improved reservoir models: Journal of Petroleum Science and Engineering, v. 68, no. 1–2, p. 118–134, doi: 10.1016/j.petrol.2009.06.019.</ref>)
    113 KB (16,689 words) - 22:11, 15 January 2024
  • Shale-gas resource systems
    ...rich source rock(s) that may be both a source and a reservoir rock for the production of petroleum (oil and gas) or may charge and seal petroleum in juxtaposed, ...as either shale gas or shale oil, depending on which product predominates production. Although industry parlance commonly describes these as shale plays, these
    73 KB (10,728 words) - 18:16, 11 January 2024
  • West Texas Super Basin
    ...activity including drilling, subsurface data collection, completions, and production first targeting water, then minerals, and finally hydrocarbons stored in co ...le and second half of the 2010–2019 decade and after early development and production acceleration in other oil-rich, unconventional resources, first in the Bakk
    157 KB (23,278 words) - 18:36, 16 January 2024
  • Dolomite and dolomitization: Implications for reservoir characterization
    ...niferous Um Bogma Formation, Sinai-Egypt. Journal of Petroleum Science and Engineering, 149, 531-539. ....V., Kalantari, A., 2008. Asmari Limestone of Iran: A giant of oil and gas production. Energy Sources, Part A, 30, 1523-1533.
    38 KB (4,996 words) - 21:07, 21 April 2022
  • Mudstone nomenclature
    ...ow, D. A., 1981, Fine-grained sediments: Terminology: Quarterly Journal of Engineering Geology and Hydrology, v. 14, p. 243–244.</ref><ref>Blatt, H., 1982, Sedi ...derived from terrigenous and biogenic input to the basin, primary biogenic production in the basin, and diagenesis. Fine-grained material is delivered to a basin
    58 KB (8,391 words) - 19:46, 20 February 2024
  • Phanerozoic Tethys region
    ...d area of the submerged shelves, and the biogenic contribution to sediment production. ...hilosophical transactions of the Royal Society, Mathematical, Physical and Engineering Sciences, v. 365, p. 1843–1866.</ref> The pattern of the latest Permian e
    79 KB (11,542 words) - 18:47, 19 July 2016
Retrieved from "https://wiki.aapg.org/Special:Search"