Publication Rights Reserved This paper is to be presented at the Seventh Annual Meeting of Rocky Mountain Petroleum Sections of AIME May 25–26, 1961, in Farmington, N.M., and is considered the property of the Society of Petroleum Engineers. Permission to publish is hereby restricted to an abstract of not more than 300 words, with no illustrations, unless the paper is specifically released to the press by the Editor of JOURNAL OF PETROLEUM TECHNOLOGY or the Executive Secretary. Such abstract should contain conspicuous acknowledgment of where and by whom the paper is presented. Publication elsewhere after publication in JOURNAL OF PETROLEUM TECHNOLOGY or SOCIETY OF PETROLEUM ENGINEERS JOURNAL is granted on request, providing proper credit is given that publication and the original presentation of the paper. Discussion of this paper is invited. Three copies of any discussion should be sent to the Society of Petroleum Engineers office. Such discussion may be presented at the above meeting and considered for publication in one of the two SPE magazines with the paper. Abstract Increased total oil production, increased injectivity and significant economic benefits have been achieved from secondary recovery by carbonated water flooding in Oklahoma and Texas projects. Development of the Orco process method of carbonated water flooding resulted from research with carbon dioxide (CO2) conducted while searching for a raw material which would be suitable as a reservoir surfactant, yet cheap enough to use in quantity. The process is applied in four steps:small LPG slug,carbonated water containing a small amount of surfactant,carbonated water, andplain water, thereafter. Skin effect and slime-forming bacteria problems have been corrected with carbonated-water treatments to increase injectivity. Carbonated-water injection has been completed at some of the Oklahoma projects. Total oil recovery already has exceeded estimates made for conventional water flooding. And these projects will continue to produce for several years. Injectivity increases are pronounced. Conventional flooding and gas repressuring had failed in secondary- recovery attempts at a Pecos County, Tex., project because of restricting formation clays and sand characteristics. When carbonated water flooding was started, injectivity increased substantially within a short time. Production is increasing and no unusual problems have been encountered. Introduction The carbonated-water flooding process is an improved method of secondary recovery. By treating a crude-oil reservoir with controlled amounts and concentrations or solutions of CO2, two advantages appear:increased total oil recovery, andincreased water injectivity. These two benefits combine to improve economic efficiency. Oil Recovery Corp. developed the Orco process method of carbonated-water flooding, known as "Orcoflooding", and provides technical assistance when desired for field application. Six carbonated waterfloods are in operation - four in Oklahoma, one in Kansas, and one in Texas. Two more projects in Oklahoma and three in Kansas are now being developed, with injection to start this spring and summer. Several additional projects are scheduled to start later in 1961. A resume of the history and development of the process is presented plus descriptions of some of the methods and techniques used in application. Results from projects located in Oklahoma and Texas also are included.
A carbonated waterflood process which comprises the treatment of a hydrocarbon reservoir with controlled amounts and concentrations of carbon dioxide is one of the newer methods of increasing oil recovery being used in a commercial field application. The process consists of the treatment of a crude-oil reservoir with controlled amounts and concentrations of carbon dioxide (CO2) or solutions of carbon dioxide. To achieve this end, the techniques of water flooding are combined with the injection of carbonated water into a reservoir during the early stage of the flood. The K and S project is the first commercial application of this process. Water injection was initiated on the and project in Feb., 1958, and CO2 injection started in April of the same year. The carbonation period should be completed by April 1, 1960. At this time it is too early to predict the ultimate oil recovery from the project. However, several notable accomplishments have been recorded to date. When the project was initially developed, several areas were noted to be highly water productive due to a previous dump flood. These areas subsequently have produced considerable oil, indicating that additional recovery has been gained. Second, injectivity has been increased to two to four times the rate of neighboring input wells which have not been subjected to the carbonated water process. And third, in 1959 more oil was produced than has been previously produced for the total primary life of the property. Introduction This paper is a progress report outlining the accomplishments and difficulties experienced to Jan. 1, 1960, at the K and S project. The K and S project is located 10 miles north of Bartlesville, Okla., and consists of three contiguous leases totaling 240 acres. There are 35 input wells and 24 producing wells spaced on a regular 10-acre five-spot pattern, as shown in Fig. 1. Water injection was initiated in Feb., 1958, and CO2 injection started in April of the same year. CO2 injection will be completed by April 1, 1960. Water injection will continue throughout the life of the project. The property was acquired in June, 1957. With 80 per cent of the working interest, Oil Recovery Corp. acts as engineering consultant and supervises the application of the process. Wellsville Oil Co., with the remaining 20 per cent of the working interest, is flood operator of the joint venture.
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