Transition Time of Cement Slurries, Definitions and Misconceptions, Related to Annular Fluid Migration

Rogers, Murray J.; Dillenbeck, Robert; Eid, Ramy

doi:10.2118/90829-ms

Cited by 51 publications

(24 citation statements)

References 8 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The results also demonstrate that accomplishment of the above three main slurry characteristics to resist fluid flow invasion will ensure a right-angle set behavior by default. As previously reported, 12 designing cement slurries primarily for their right-angle set behavior may not guarantee resistance to fluid migration through cement slurries.…”

Section: A Cement Slurry May Have a Right-angled Setmentioning

confidence: 91%

“…Creating a cement sheath that provides proper zonal isolation under any circumstance should be a primary objective [1][2][3][4][5][6][7][8][9][10][11][12] in every well construction project to (1) protect fresh water from contamination, (2) provide effective interzonal isolation, and (3) provide mechanical support to the casing string. All these objectives will facilitate the production of oil and gas safely and economically over the well's lifetime.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Designing Cement Slurries for Preventing Formation Fluid Influx After Placement

Santra

Reddy

Antia

2007

International Symposium on Oilfield Chemistry

View full text Add to dashboard Cite

fax 01-972-952-9435. AbstractFormation fluid influx into cement slurries immediately after placement presents not only a short-term problem, for example losing the slurry due to shallow water flows, but also presents a long-term problem, for example gas flow and pressure buildup behind the casing. It is critical that cement slurries be designed carefully when such problems are anticipated. Cement slurries that often offer the best solution to resist the formation influx are those that do not gel while being pumped then gel/set and gain strength rapidly once placed. These are sometimes referred to as "right-angle set" cements and should possess the following attributes in laboratory design testing:• Maintains a low rheological profile while pumping for lower ECDs. • Predictable thickening and set times.• Retains the ability to transmit hydrostatic pressure under static conditions until the cement is ready to gel/set. • Short gel to set time under static conditions, often termed "transition time." • Short waiting on cement (WOC) time.This paper shows that although a cement slurry having a "right-angle set" may ensure the first two benefits, it does not always guarantee the latter two when present behind a casing. For example, some slurries might reach thickening time and become unpumpable rapidly, but strength development may not occur until long afterward, due to a time lag between thickening and hydration time (set time) of cement. In such cases, slurry should be designed such that the thickening time and hydration time are essentially identical. Novel slurries that maintain low rheological profiles while the slurry is being placed, then set and gain strength quickly due to cement hydration afterward, have been developed for a variety of densities and downhole temperatures. Results from laboratory and related field case histories will be presented.

show abstract

Section: A Cement Slurry May Have a Right-angled Setmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Designing Cement Slurries for Preventing Formation Fluid Influx After Placement

Santra

Reddy

Antia

2007

International Symposium on Oilfield Chemistry

View full text Add to dashboard Cite

show abstract

“…The ability of a cement slurry to provide gas control was tested in a gas flow model at BHCT, and results were evaluated with a pass/fail analysis as described by Rogers et al (2004). The cement slurries were conditioned to BHCT of 146°F within 41 minutes and then maintained at that temperature for 20 additional minutes.…”

Section: Experimental Methodsmentioning

confidence: 99%

New Slurry Design Concepts Using Multifunctional Additives to Improve Quality and Sustainability of Cementing Systems for Zonal Isolation

Brandl

Narvaez

Bray

2012

SPE Eastern Regional Meeting

View full text Add to dashboard Cite

The benefits of a new class of a multifunctional cement additive and the performance of the resulting cementing systems are evaluated in comparison to conventional slurry designs used for cementing wells in the Northeastern U.S. Cement testing procedures, lab test results, logistical and operational aspects, economical and ecological balances, chemical footprints of slurry designs are presented and discussed. The tested multifunctional additive can fully replace at least 4 different additives (extender, suspending agent, free fluid, fluid loss, and gas control additive) to achieve the desired performances and so simplify cement slurry designs. The multifunctional additive in this study also exhibits delayed hydration, which facilitates surface mixing and generates desired high viscosity over time, minimizing settling issues in horizontal wells during placement. The innovative cement design concept using a multifunctional additive reduce the number and loadings of chemical additives required to adjust the performance of cement slurries, thereby improving economics, reducing the chemical footprint, and simplifying logistics and operations.

show abstract

“…czas przejścia, czyli czas od rozpoczę-cia budowy statycznej wytrzymałości strukturalnej (SGS -50 Pa) do uzyskania wartości granicznej SGS -250 Pa, któ-rej osiągnięcie oznacza, że gaz nie powinien migrować przez wiążący zaczyn. Im krótszy czas przejścia, tym mniejsze prawdopodobieństwo zjawiska migracji gazu [16].…”

Section: Metodyka Badańunclassified

Wpływ nanotlenków glinu i cynku na parametry świeżego i stwardniałego zaczynu cementowego

Dębińska

2016

View full text Add to dashboard Cite

Wpływ nanotlenków glinu i cynku na parametry świeżego i stwardniałego zaczynu cementowego Nanomateriały i ich unikatowe właściwości znalazły już zastosowanie w wielu gałęziach przemysłu, umożliwia-jąc tworzenie materiałów o bardzo korzystnych właściwościach, pozwalając poprawić cechy produktów już istniejących oraz tworzyć nowe. Poprawa parametrów mechanicznych materiałów zawierających dodatek nanocząstek to tylko jedna z wielu możliwości ich zastosowania. W artykule przedstawiono wstępne wyniki badań wpływu nanotlenków: glinu (nano-Al 2 O 3 ) i cynku (nano-ZnO) na właściwości zaczynów i kamieni cementowych. W trakcie badań do cementu portlandzkiego CEM I 32,5R dodawano 1%, 3%, 5% roztworu nano-Al 2 O 3 oraz 0,01% i 0,1% nano-ZnO. Przeprowadzone badania potwierdziły, że dodatek nawet niewielkich ilości nano-Al 2 O 3 oraz nano-ZnO poprawia parametry wytrzymałościowe kamienia cementowego w porównaniu z próbką bazową bez takiego dodatku, jak również powoduje zagęszczenie jego mikrostruktury, a tym samym obniżenie porowatości i przepuszczalności dla gazu. Tak zmodyfikowane kamienie charakteryzują się wysoką wytrzymałością na ściskanie oraz wysoką przyczepnością do rur stalowych. Kamienie cementowe charakteryzują się zwartą mikrostrukturą o niskiej zawartości makroporów. Na podstawie wykonanych badań można również stwierdzić, że zbyt duża ilość nanotlenków powoduje obniżenie wytrzymałości kamienia cementowego, co może być spowodowane trudnościami w rów-nomiernym rozmieszczeniu dużych ilości nanocząsteczek w zaczynie i tworzeniem dużych aglomeratów nanoczą-steczek, które osłabiają strukturę kamienia cementowego.Słowa kluczowe: zaczyn cementowy, nano-Al 2 O 3 , nano-ZnO, stwardniały zaczyn cementowy, wytrzymałość na ściskanie.The effects of Al 2 O 3 and ZnO nanoparticles on properties of fresh and set cement slurry Nanomaterials and their unique properties have already been used in many branches of the industry, enabling the creation of materials having very favorable properties, allowing to improve the properties of existing products and creating new ones. Improving the mechanical properties of materials containing nanoparticles as an additive is just one of the many possibilities of their use. The article presents the preliminary results of the influence of nano alumia oxide (nano-Al 2 O 3 ) and nano zinc oxide (nano-ZnO) on the properties of fresh and set cement slurries. In the research, to Portland cement CEM I 32.5R were added 1, 3, 5% nano-Al 2 O 3 solution and 0.01 and 0.1% nano-ZnO powder. The study confirmed that the addition of even small amounts of nano-Al 2 O 3 and nano-ZnO improves the strength of set cement as compared to the sample base without such additive, and also causes compaction of the microstructure and thereby reducing the porosity and gas permeability. Such modified set cement slurries exhibit high compressive strength and high adhesion to steel pipes. Set cement slurries have a compact microstructure with a low content of macropores. On the basis of tests it may also be noted, that too much n...

show abstract

Transition Time of Cement Slurries, Definitions and Misconceptions, Related to Annular Fluid Migration

Cited by 51 publications

References 8 publications

Designing Cement Slurries for Preventing Formation Fluid Influx After Placement

Designing Cement Slurries for Preventing Formation Fluid Influx After Placement

New Slurry Design Concepts Using Multifunctional Additives to Improve Quality and Sustainability of Cementing Systems for Zonal Isolation

Wpływ nanotlenków glinu i cynku na parametry świeżego i stwardniałego zaczynu cementowego

Contact Info

Product

Resources

About