SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4293066316> ?p ?o ?g. }

Showing items 1 to 100 of ±113 with 100 items per page.

W4293066316 abstract "Abstract Scale deposition in oil and gas wells is still a major issue in the oil and gas industry as it reduces hydrocarbon production, restricts well access to production logging tools and, in addition, causes safety issues due to blocking and ineffective operation of chokes and valves. Scale is predominantly controlled with chemical scale inhibitors and the most common methods to control scale deposition are through continuous injection and scale squeeze treatments although solid inhibitors can be deployed in ratholes, hydraulic fractures and gravel packs. Non-chemical methods can also be applied and are becoming more common over the last few years especially for calcium carbonate control. Scale management is clearly still a very important factor for the good health of existing oil and gas wells and the trend towards net zero will only increase this reliance as the need for maximum production from existing assets becomes more pertinent compared to the alternative of developing new fields which will be more carbon intensive. Existing scale management strategies will also have a CO2 footprint and scale control methods will be reviewed to become more aware of this and to highlight how certain areas of scale management can become more effective and adapt to the changing needs of the energy industry such as the increasing use of enhanced oil recovery (EOR) in both conventional and unconventional fields. The review will include several areas of scale management including scale prediction risk, chemical and non-chemical treatments, scale inhibitor chemistry from renewable sources, monitoring techniques coupled with improved data processing techniques and automation. The drive towards net zero has also instigated the development of alternative energy sources to fossil fuels which have resulted in a major focus on projects in geothermal energy and increased the potential for carbon capture, utilisation and storage (CCUS) projects where CO2 captured from heavy industry is transported to site and injected into geological reservoirs for storage and/or enhanced oil recovery. Scale control will be important to both geothermal and CCUS projects and this paper will highlight examples including scale control in geothermal wells with options for treatment and desirable chemical properties and carbonate scale control in CO2Water Alternating Gas (WAG) injection whilst also demonstrating CO2 storage and enhanced oil recovery (CCUS). In addition, the potential for halite deposition and carbonate mineral dissolution and its impact on rock mechanical integrity during CO2 injection into hyper saline aquifers and depleted oil and gas reservoirs will be discussed." @default.
W4293066316 created "2022-08-26" @default.
W4293066316 creator A5079834913 @default.
W4293066316 creator A5086899206 @default.
W4293066316 creator A5087179092 @default.
W4293066316 date "2022-05-25" @default.
W4293066316 modified "2023-09-30" @default.
W4293066316 title "The Future of Scale Control – The Impact of Net Zero" @default.
W4293066316 cites W1969231330 @default.
W4293066316 cites W1969800400 @default.
W4293066316 cites W1970249057 @default.
W4293066316 cites W1970999300 @default.
W4293066316 cites W1975562103 @default.
W4293066316 cites W1987604212 @default.
W4293066316 cites W1989045589 @default.
W4293066316 cites W2007533987 @default.
W4293066316 cites W2013756107 @default.
W4293066316 cites W2017833723 @default.
W4293066316 cites W2020708323 @default.
W4293066316 cites W2028360983 @default.
W4293066316 cites W2029246827 @default.
W4293066316 cites W2032376655 @default.
W4293066316 cites W2036668861 @default.
W4293066316 cites W2057885443 @default.
W4293066316 cites W2062643688 @default.
W4293066316 cites W2093792220 @default.
W4293066316 cites W2243706499 @default.
W4293066316 cites W2314058094 @default.
W4293066316 cites W2336187773 @default.
W4293066316 cites W2339787430 @default.
W4293066316 cites W2414075345 @default.
W4293066316 cites W2416331536 @default.
W4293066316 cites W2467926480 @default.
W4293066316 cites W2515405966 @default.
W4293066316 cites W2531720302 @default.
W4293066316 cites W2765362887 @default.
W4293066316 cites W2790489861 @default.
W4293066316 cites W2807383461 @default.
W4293066316 cites W2922890514 @default.
W4293066316 cites W2923583074 @default.
W4293066316 cites W2923697129 @default.
W4293066316 cites W2925316786 @default.
W4293066316 cites W2946973238 @default.
W4293066316 cites W2982169794 @default.
W4293066316 cites W3036338662 @default.
W4293066316 cites W3036974822 @default.
W4293066316 cites W3036976125 @default.
W4293066316 cites W3128580817 @default.
W4293066316 cites W4200478654 @default.
W4293066316 cites W4251931841 @default.
W4293066316 doi "https://doi.org/10.2118/209492-ms" @default.
W4293066316 hasPublicationYear "2022" @default.
W4293066316 type Work @default.
W4293066316 citedByCount "1" @default.
W4293066316 countsByYear W42930663162022 @default.
W4293066316 crossrefType "proceedings-article" @default.
W4293066316 hasAuthorship W4293066316A5079834913 @default.
W4293066316 hasAuthorship W4293066316A5086899206 @default.
W4293066316 hasAuthorship W4293066316A5087179092 @default.
W4293066316 hasConcept C112930515 @default.
W4293066316 hasConcept C119599485 @default.
W4293066316 hasConcept C121332964 @default.
W4293066316 hasConcept C127413603 @default.
W4293066316 hasConcept C139719470 @default.
W4293066316 hasConcept C144133560 @default.
W4293066316 hasConcept C162324750 @default.
W4293066316 hasConcept C188573790 @default.
W4293066316 hasConcept C21880701 @default.
W4293066316 hasConcept C2778348673 @default.
W4293066316 hasConcept C2778755073 @default.
W4293066316 hasConcept C39432304 @default.
W4293066316 hasConcept C41008148 @default.
W4293066316 hasConcept C526740375 @default.
W4293066316 hasConcept C548081761 @default.
W4293066316 hasConcept C62520636 @default.
W4293066316 hasConcept C68189081 @default.
W4293066316 hasConcept C78762247 @default.
W4293066316 hasConcept C87717796 @default.
W4293066316 hasConceptScore W4293066316C112930515 @default.
W4293066316 hasConceptScore W4293066316C119599485 @default.
W4293066316 hasConceptScore W4293066316C121332964 @default.
W4293066316 hasConceptScore W4293066316C127413603 @default.
W4293066316 hasConceptScore W4293066316C139719470 @default.
W4293066316 hasConceptScore W4293066316C144133560 @default.
W4293066316 hasConceptScore W4293066316C162324750 @default.
W4293066316 hasConceptScore W4293066316C188573790 @default.
W4293066316 hasConceptScore W4293066316C21880701 @default.
W4293066316 hasConceptScore W4293066316C2778348673 @default.
W4293066316 hasConceptScore W4293066316C2778755073 @default.
W4293066316 hasConceptScore W4293066316C39432304 @default.
W4293066316 hasConceptScore W4293066316C41008148 @default.
W4293066316 hasConceptScore W4293066316C526740375 @default.
W4293066316 hasConceptScore W4293066316C548081761 @default.
W4293066316 hasConceptScore W4293066316C62520636 @default.
W4293066316 hasConceptScore W4293066316C68189081 @default.
W4293066316 hasConceptScore W4293066316C78762247 @default.
W4293066316 hasConceptScore W4293066316C87717796 @default.
W4293066316 hasLocation W42930663161 @default.
W4293066316 hasOpenAccess W4293066316 @default.
W4293066316 hasPrimaryLocation W42930663161 @default.