Five Decades Of Petroleum Exploration And Discovery In The Malay Basin (1968-2018) And Remaining Potential

Since the first oil discovery in the Malay Basin in 1969, more than 700 exploratory wells have been drilled. To date, there are more than 181 oil and gas discoveries, about half of which are currently in production and about a dozen are already in their secondary or tertiary recovery stages. In 2014 it was estimated that a total of over 14.8 billion barrels of oil equivalent (bboe) of recoverable hydrocarbon resource have been discovered in the basin, contributing to approximately 40% of the total hydrocarbon resources of Malaysia. By the end of the first decade of exploration in 1979, all the major basin-centre anticlinal structures had been tested. This play type contributed 60% of the total discovered resource in the basin. By 1981 this most prolific play type had been practically exhausted, as all the giant fields (those with recoverable resource > 0.5 bboe) had been found. As “creaming” of the basin-centre anticlinal play continued into the early 1980s, exploration efforts gradually shifted to the newly discovered western margin play types, particularly in the Western Hinge Fault Zone, Tenggol Arch and the adjacent Penyu Basin. There was a “lull” period from 1985 to about 1990, due to the global oil crisis, after which exploration was rejuvenated through significant discoveries in several play types on the northeastern ramp margin. This followed a successful drilling campaign that lasted until around 1997 and contributed an additional ~1 bboe of recoverable resources over a seven-year period. Since then, most of the incremental resource addition came from the highly gas-charged play in northern region that comes under the Malaysia-Thai Joint Development Area (JDA) and on the northeastern ramp margin, which includes the Commercial Arrangement Area (CAA) between Malaysia and Vietnam. Individually, however, the hydrocarbon volumes in these later discoveries were relatively small compared to the earlier discovered play types. Subsequently, new play types were pursued, including stratigraphic channels, deeper reservoirs beneath existing fields, high pressure/high temperature (HPHT) reservoirs, overpressured and tight reservoirs, and fractured basement reservoirs. All had some measure of success but none were able to volumetrically match the discoveries made decades earlier. As of end of 2018, over 2100 exploration and development wells had been drilled in the entire basin. Based on the creaming curve, since around 1990 and into the fifth decade of exploration, the incremental resource addition has been increasing steadily at an average rate of ca. 120 MMboe per year. The data indicate that the expected average discovery size would be less than 25 MMboe, and that at least 5 wells need to be drilled per year to sustain the same rate of resource addition. If no new plays are explored and no significant discoveries made, resource addition is expected to plateau beyond 2020. The basin needs a new stimulus, and more importantly, new exploration play concepts to sustain exploration business.

STRUCTURE OF EXPLORED HYDROCARBON POTENTIAL OF THE REPUBLIC OF KAZAKHSTAN

The development of the economy of the Republic of Kazakhstan is largely based on a powerful base of mineral raw materials. The leading role is played by huge reserves of oil and gas. They are located in 6 oil and gas sedimentary basins of Western and Eastern Kazakhstan. More than 350 oil and gas fields have been explored in them, containing over 6.4 billion tons of recoverable oil reserves and about 4.5 trillion m3 of gas. The main volumes of oil reserves (85.2%) are concentrated in 25 large and giant fields. Numerous small objects contain only 5.3% of the reserves. In the changed situation on the world oil market, the development of such small fields with recoverable reserves of less than 1.0 million tons becomes unprofitable. In further work in new promising basins, one should focus on prospecting, first of all, large and medium-sized deposits

New Concept Design of Large FPSO for Santos Basin - Brazil

The offshore oil fields exploitation, especially giant fields in the Santos basin, brings with it demands for systems capable of operating at ultra-deep waters, with high capacity production wells and high gas/oil ratio (GOR) with large amount of contaminants. In this scenario, steel catenary risers (SCRs) offer the simplest, most robust and lowest cost solution. However, due to its rigidity compared to flexible risers, this solution is affected by the high dynamic forces imposed on the top of the riser, in consequence of the FPSOs large vertical movement in waves, making difficulties on their application in conventional FPSO hull units. This dynamic problem is caused by environmental conditions of the region, which are harsher than those observed in the Campos Basin. The reservoir characteristics described above demands high-capacity oil & gas process plants, larger than those used today in the Brazilian offshore. Initial estimates show that these plants require a much larger deck area than conventional platforms and, more than that, a greatest breadth of the vessel. This paper presents the ULFPSO (Ultra Large Floating Production, Storage and Offloading) concept, developed to satisfy such conflicting requirements. The design process, including the preliminary sizing, physical scale model test and the hull form optimization are discussed and presented in this paper based on a high-capacity process plant case study.

The rebirth of Papua New Guinea

Gas was first discovered by drilling activity in Papua New Guinea in 1956. Nevertheless it was almost 60 years later when the Exxon-operated PNG LNG Project became the first large-scale commercialisation of the country’s prolific gas resources, with export of the first LNG shipment in May 2014. The proven fluvial-deltaic Late Jurassic, early Cretaceous and Tertiary carbonate reservoirs are prolific petroleum producers. When combined with the high-quality liquid-rich nature of the gas and the onshore location, this has resulted in PNG’s LNG projects being some of the lowest cost and most profitable LNG projects globally. The success of the PNG LNG Project along with the substantial identified existing and yet-to-find gas resources has resulted in a recent resurgence of exploration interest in PNG as companies look to expand and capitalise on the country’s developing position as a globally significant LNG supplier. In 2015 Oil Search undertook a whole of country review using its extensive database and in-country knowledge. This study incorporated all well, seismic, surface, remote sensing, production and development data, and has resulted in a detailed understanding of the play distribution and risk ranking, and importantly delineated a number of potentially material new play types in the country. Approximately 4.8 billion barrels of oil equivalent recoverable resources (2P and 2C) have been discovered in PNG to date, of which approximately 85% is gas. The countrywide regional study and common risk segment analysis by Oil Search (2015) established that PNG potentially contains an additional seven billion barrels of oil equivalent resource still to be discovered. The majority of this volume is expected to be gas, estimated to be in the order of 40 trillion cubic feet and 550 million barrels of undiscovered prospective resources. Oil Search has been active in all of PNG’s known petroleum basins since 1929 and built a substantial database. Pool-size distributions and a countrywide prospects and leads inventory suggest discovery of new giant fields is likely and of sufficient scale to support future LNG projects. Six sub-basins contain proven petroleum plays that are predicted to extend into under-explored areas. These areas represent the future petroleum exploration frontier in PNG.