Correlations To Predict Frictional Pressure Loss of Hydraulic-Fracturing Slurry in Coiled Tubing

Shah, Subhash; Zhou, Yiwen; Bailey, Michael; Hernandez, John Oliver O.E.

doi:10.2118/104253-pa

Cited by 5 publications

(3 citation statements)

References 18 publications

(21 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Suppose the discriminant factors C 1 and C 2 are described in Eq. 5, by comparing Re with C 1 and C 2 , different flow regimes of power-law fluid can be estimated and their corresponding Fanning friction factors [10] can be expressed as follows:…”

Section: Flow Regimes Distinguish and Friction Factor Calculationmentioning

confidence: 99%

See 1 more Smart Citation

Analysis of Circulating System Frictional Pressure Loss in Microhole Drilling with Coiled Tubing

Hou¹,

Zheng

Jian³

et al. 2014

TOPEJ

View full text Add to dashboard Cite

In microhole drilling (MHD) with coiled tubing (CT), the calculation models of drilling fluid circulating frictional pressure loss (DFCFPL) are studied for different flow regimes of drilling fluid in CT on reel, downhole CT and annulus. Example analysis of DFCFPL for 89mm diameter microhole is conducted, and the relationships among the total DFCFPL, local DFCFPL in CT on reel, downhole CT and annulus are obtained. The smaller the CT diameter is, the higher the local DFCFPL in CT on reel and downhole CT are. The larger the annulus is, the lower the local DFCFPL in annulus is. So the local DFCFPL in CT is dominant in the circulating system. As for the different diameter CT, the total DFCFPL decreases linearly with the well depth increasing. In order to use the hydraulic energy rationally, 73.025mm diameter CT can be used to drill microhole with well depth less than 1000m, 60.325mm diameter CT should be used to drill microhole well depth of which is more than 1500m. This study can provide references for the CT selection and circulating hydraulic energy rational utilization design in MHD.

show abstract

Section: Flow Regimes Distinguish and Friction Factor Calculationmentioning

confidence: 99%

“…Willingham and S. N. Shah [8] researched the DFCFPL of Newtonian fluid and non-Newtonian fluid in CT in reel and vertical well section. From 2001, Subhash N. [9,10] studied the impact of drilling cuttings on DFCFPL and predicted the DFCFPL in CT fracturing process. B. N. Rao, Y. Zhou and S.N.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Circulating System Frictional Pressure Loss in Microhole Drilling with Coiled Tubing

Hou¹,

Zheng

Jian³

et al. 2014

TOPEJ

View full text Add to dashboard Cite

show abstract

“…Walton et al [5] designed the hydraulic pressure of CT drilling, and McCann [6] studied the CPL of turbulent fluid in CT. Azouz and Shah [7] conducted experiment researches CPL in CT. Medjani and Shah [8] predicted the CPL of non-Newtonian fluid in CT. Willingham and Shah [9] studied the CPL of Newtonian fluid and non-Newtonian fluid in CT in vertical well section and reel. Shah [10,11] studied the influence of cuttings on CPL and predicted the fracturing CPL in CT. Rao [12,13] studied the impact factors of frictional CPL for non-Newtonian fluid in CT. Ma Dongjun [14] studied a model of calculating the CPL in coiled tubing ultrashort radius radial drilling. Hou Xuejun [15] analyzed the flow resistance in coiled tubing wound around a reel in microhole drilling.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Drilling Fluid Circulating Pressure Loss in Hole Annulus for Microhole Drilling

Hou¹,

Zheng

Longzhu³

2014

TOPEJ

View full text Add to dashboard Cite

The microhole drilling (MHD) technology is one of cutting-edge drilling technologies with wellbore diameter less than 88.9 mm and taking coiled tubing (CT) as drilling string to deliver the bottomhole assembly to drill ahead. The normal circulation of drilling fluid is affected because of huge annulus drilling fluid circulating pressure loss (ADFCPL) caused by small diameter wellbore, narrow hole annulus and deep well. For three flow regimes of power-law fluid in MHD, the computing models of ADFCPL are built by analyzing the relationships among annulus drilling fluid parameters according to power law fluid flow state equation. The ADFCPL with different flow rate, CT diameter, well depth, eccentricity and so on is calculated for the hole annulus of MHD. The calculation results show that: in 89mm diameter MHD, the ADFCPL is huge. It increases with the increase of outer diameter of CT and average flow rate of drilling fluid, and increases linearly with the increase of well depth, and decreases with the increase of eccentricity. The bigger the hole annulus is, and the lower the flow rate is, the less the impact of eccentricity acts on the ADFCPL is. Thus, the ADFCPL can be reduced by decreasing the outer diameter of CT and the average flow rate of drilling fluid in hole annulus. Only low flow rate can be used to drill deep well. The research results may be useful for MHD parameter selections related to the ADFCPL.

show abstract

The Calculation of Circulating Pressure Loss in Coiled-tubing Drilling

米¹

2017

JOGT

View full text Add to dashboard Cite

A block of Liaohe Oilfield was taken as research object, based on geological condition of the block and performance parameter of coiled-tubing drilling rig, the pressure loss of different sections was calculated in coiled-tubing drilling(CT) including pressure loss of CT twisting in reel, downhole CT, annulus and total circulating. Especially, the effect of some important factors on total circulating pressure loss was discussed such as flow rate Q, consistency index K and rheological index n. Rheological properties parameter for coiled drilling fluid was determined by combining calculation results and practical experience. The calculation results show that it was desirable that Q is selected at 0.01 m 3 /s, n is at 0.4-0.5 and K is at 0.7-1.0 Pa•s n in the water-based solid-free drilling fluid. Certain theoretical basis is provided for the design of fluids used in coiled-tubing drilling.

show abstract

Correlations To Predict Frictional Pressure Loss of Hydraulic-Fracturing Slurry in Coiled Tubing

Cited by 5 publications

References 18 publications

Analysis of Circulating System Frictional Pressure Loss in Microhole Drilling with Coiled Tubing

Analysis of Circulating System Frictional Pressure Loss in Microhole Drilling with Coiled Tubing

Analysis of Drilling Fluid Circulating Pressure Loss in Hole Annulus for Microhole Drilling

The Calculation of Circulating Pressure Loss in Coiled-tubing Drilling

Contact Info

Product

Resources

About