Analisis overpressure dapat memberikan rekomendasi berat lumpur pengeboran dan penentuan kedalaman casing shoe yang aman agar terhindar dari masalah masalah pengeboran seperti kick, blowout, stuckpipe, lost circulation, serta collapse. Penelitian ini bertujuan untuk menganalisis overpressure di Blok Pandawalima, Cekungan Kutai Bawah yang meliputi penentuan kedalaman top overpressure, mekanisme pembentukan overpressure, dan perbandingan karakteristik overpressure di daerah laut dangkal dan laut dalam. Pada daerah penelitian dilakukan analisis 5 sumur eksplorasi, yaitu 1 sumur (Yudistira) berada di daerah laut dalam dan 4 sumur (Bima, Arjuna, Sadewa, dan Nakula) di laut dangkal. Overpressure dianalisis berdasarkan data log sumur dan data tes tekanan menggunakan Metode Eaton (1975) didukung oleh data lain seperti LOT, drilling report, mudlog, dan geokimia. Kedalaman top overpressure pada masing masing sumur memiliki kedalaman yang berbeda beda, pada daerah laut dalam yaitu 3555 kaki TVDBML untuk Sumur Yudistira, pada daerah laut dangkal yaitu 5475 kaki TVDBML untuk Sumur Bima, 7640 kaki TVDBML untuk Sumur Sadewa, 8913 kaki TVDBML untuk Sumur Nakula, dan 7650 kaki TVDBML untuk Sumur Arjuna. Mekanisme overpressure pada daerah penelitian diakibatkan oleh mekanisme loading (terutama disequilibrium compaction) pada zona overpressure rendah sebagai mekanisme utama disertai dengan kontribusi sekunder mekanisme nonloading yang disebabkan oleh diagenesis mineral lempung dan generasi hidrokarbon pada zona overpressure tinggi. Karakteristik overpressure di daerah laut dalam memiliki kedalaman top overpressure yang lebih dangkal karena litologi shale dominan, dengan kenaikan overpressure secara gradual. Pada daerah laut dangkal memiliki kedalaman top overpressure yang lebih dalam saat litologi shale dominan, dengan kenaikan overpressure yang signifikan dan pada kedalaman tertentu dapat menghasilkan besar tekanan yang hampir setara dengan daerah laut dalam. Pada 10500 kaki TVDBML, overpressure laut dangkal berkisar 5700-9600 psi dan laut dalam 9800 psi. Mekanisme pembentukan overpressure di daerah laut dalam dan laut dangkal adalah mekanisme loading dengan kontribusi sekunder mekanisme nonloading.

Overpressure analysis can provide recommendations for drilling mud weight and secure casing shoe depth to avoid drilling problems such as kick, blowout, stuck pipe, lost circulation and collapse. This aims study to analyze the overpressure in the Pandawalima Block, Lower Kutai Basin which inclludes the determination of the top overpressure depth, the mechanism of overpressure , and the comparison of the overpressure characteristics in the shallow water and deep water. In the study area an analysis of 5 exploration wells,namely 1 well (Yudistira) was located in deep water and 4 wells (Bima, Arjuna, Sadewa, and Nakula) in shallow water. Overpressure was analyzed based on well log data andpressure test data using Eaton Method (1975)supprted by others data such as LOT, drilling report, mudlog, and geochmistry. The top overpressure depth in the study area began at depth when shale litology was dominant. The top overpressure in each well has different depths, in the deep water, 3555 feet TVDBML for Yudistira Well, in shallow water 5475 feet TVDBML for Bima Well, 7640 feet TVDBML for Sadewa Well, 8913 feet TVDBML for Nakula Well, and 7650 feet TVDBML for Arjuna Well. The mechanism of overpressure in the study area is caused (especially disequilibrium compaction) by a loading mechanism in low overpressure as the main mechanism accompanied by a secondary contribution of nonloading mechanisms caused by clay mineral diagenesis and generation of hydrocarbons in high overpressure zone. The overpresssure characteristics in the deepwater has a shallower top overpressure depth because shale lithology was dominant, with gradual overpressure increases. In shallow water, it has a deeper depth of top overpressure when shale lithology was dominant, with a significant increase in overpressure and at certain depths it can produce a pressure that is almost equivalent to the deepwater. At 10500 feet TVDBML, shallow water overpressure ranges from 5700 to 9600 psi and the deepwater is 9800 psi. The overpressure mechanism in the deep water and shallow water is a loading mechanism with a secondary contribution to the nonloading mechanisms.

Kata Kunci : TVDBML, overpressure, top overpressure, loading, nonloading, laut dalam, laut dangkal, Smektit, Illit