Abstract A coiled tubing stimulation treatment featuring a new high flash-point solvent was performed on an offshore injection well in the Ninian Field. This stimulation treatment was performed to–remove hydrocarbon residue and deep clay damage–stimulate low-permeability zones–increase water injection rates in an offshore well The target zone was treated with 587 bbl of sequential HF acid to prevent swelling of near- wellbore fines, solids, and clay. The application of sequential HF acid increased permeability 10-fold over standard HF acid treatments. An inflatable packer was placed between the upper zones and suspected weak tubing, confining the treatment to the target zones. The treatment successfully reduced the formation skin factor, which increased the injection rate by 100% (0.25 bbl/min to 0.5 bbl/ min) and reduced the surface pressure by 3%. Introduction The Ninian Field lies in blocks 3/3 and 3/8 approximately 100 miles east of the Shetland Islands. The field was discovered in January 1974, and the first oil from the field was produced in December 1978. It is a Brent sequence reservoir with recoverable reserves of around 1.2 billion barrels. Current average daily production from the field is approximately 60,000 BOPD. Water injection well C08 is located in the central area of the main field (Fig. 1). The well was recompleted in August 1992 for the purpose of injection into the low-permeability sands within the reservoir to support low water-cut production from two nearby producers. The low-permeability sands targeted for injection support were Zones Al/A2 (Broom) and El (Lower Ness). After the recompletion, the well was configured to inject into the bottom sands in the reservoir (Zone Al/A2), and a maximum injection rate of 0.25 bbl/min at 3,700 psi was obtained. This rate was not great enough to help support simultaneous production from the nearby producers. Core analysis of this zone indicated a high clay content. Clay swelling, fines migration, and well debris, including rust and scale, were contributing to the low injection rate. A subsequent attempt to manipulate the selective completion was unsuccessful. A hydrocarbon-based, xylene-soluble deposit was present from 14,900 ft, which prevented wireline tools from accessing the selective completion. The well also developed an intermittent tubing leak, which caused occasional pressure buildup on the annulus. Based on well conditions, a coiled tubing stimulation treatment was proposed to address the problems in the well. The proposed treatment had two objectives:–to circulate a suitable solvent to remove the hydrocarbon deposit and allow the wireline tools to manipulate the completion–to perform a sequential HF acid treatment to stimulate low-permeability Zone A1/A2 to increase water injection to support low water-cut production at nearby producers During this treatment, the tubing would be protected by an inflatable packer set above the treatment zone, which isolated the tubing above the packer and allowed selective injection into the target zone. Treatment Plan Solvent Selection. Various solvents were tested on samples of the hydrocarbon residue recovered from the well. Although the residue was soluble in xylene, a new xylene substitute was chosen. In addition to providing an alternative to hazardous benzene, ethylbenzene, toluene, and xylene solvents, this xylene substitute has a flash point of l.50 F, which makes it ideal for offshore use. P. 569