Journal of Canadian Petroleum Technology
Volume 48,
Number 6,
June 2009,
30-32
Abstract
Slim hole drilling has gained wide acceptance, however, it presents a new set
of challenges and problems. One such challenge is reducing annular pressure
losses (APLs). Due to the reduced annular clearance in slim hole wells, the APL
is usually high, translating to a high equivalent circulating density which can
lead to fracturing the formation and lost circulation. Fifty-three fluids were
evaluated for their APLs using three different wellbore configurations under
atmospheric conditions and at 150?F. Each fluid was characterized using the
Bingham Plastic and Power Law rheological models. It was observed that the
partially hydrolyzed polyacrylamide (PHPA) viscosified brines gave the lowest
frictional pressure losses of all fluids tested. However, the xanthan
viscosified brines exhibited better carrying capacity due to their high
viscosities. As expected, APL gradients were reduced at high temperatures due
to reduced viscosities which led to reduced carrying capacities of the
fluids.
Introduction
Drilling cost optimization has always been, and will continue to be, the most
important issue in the petroleum drilling industry. Using slim hole technology
is one of the sure ways to achieve substantial cost savings. The basic
difference between conventional wells and slim hole wells is the wellbore
geometry. While the hole diameter of the production interval in a conventional
well ranges from 6? in to 95/8 in, that of a slim hole well ranges from 3? in
to less than 6 in. Recent advances(1-3) in slim hole technology
include the development of drilling fluids to reduce the APLs because 60% of
the pressure loss occurs in the annulus of slim hole wells(1).
Some developments in slim hole drilling fluids design have included the works
of Downs et al.(2) They formulated formate brine-based fluid with
xanthan gum as a viscosifier. Randolph et al.(3) developed a unique
weighting agent for slim hole drilling. In general, low solids-fluids are used
to prevent the plating out of solids inside the drill string, and the fluids
should have low viscosity to avoid an excessively large equivalent circulating
density (ECD). These systems are very costly, thereby reducing the cost savings
significantly. The purpose of this study was to develop a low-cost, low
viscosity fluid that will reduce the annular pressure loss significantly while
maintaining a gauged hole.
Study Methodology
his study involved the development of several fluids and their rheological
characterizations with Bingham Plastic and Power Law models. The data were used
for calculating APL gradients for three slim hole geometries and carrying
capacities of the fluids. The fluids developed were water-based because they
are cheap, environmentally accepted and they require little effort when
detecting gas kicks. Two main groups of fluids were tested: bentonite
(clay)-based fluids and viscosified brines. Salts were added to the fluids for
wellbore stability. The two types of salts used in this study are potassium
chloride (KCl) and potassium formate (KF). Xanthan and PHPA (partially
hydrolyzed polyacrylamide) polymer were used as viscosifiers in the brines in
order to investigate their effects on annular pressure losses.
© 2009. Petroleum Society of Canada (now Society of Petroleum Engineers)
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History
- Original manuscript received:
7 April 2006
- Meeting paper published:
13 June 2006
- Revised manuscript received:
4 March 2009
- Manuscript approved:
6 May 2009
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