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Innovative Energy & Research | ISSN: 2576-1463 | Volume 7

Renewable Energy and Resources

Energy Materials and Fuel Cell Research

2

nd

International Conference on

&

August 27-28, 2018 | Boston, USA

Hydrocarbon source potential of tertiary carbonaceous shale, shale and siltstone of eastern Chenor,

Penyu basins, Pahang, Malaysia

Yousif M Makeen

and

Wan Hasiah Abdullah

University of Malaya, Malaysia

M

alaysia and Asian region have a number of petroleum-bearing sedimentary basins commonly associated with coal and

carbonaceous shale strata. Shales are the common source rocks of conventional petroleum resources whilst coal although

a source for conventional liquid hydrocarbons is more widespread as unconventional resources, such as cannel coal and coal

bed methane (CBM). Coals within the oil & gas producing provinces of Malaysia and SE Asian region, in general, are known

to be oil-prone. However, with the inevitable decline in conventional petroleum, remaining hydrocarbons will be more difficult

to find and more expensive to develop. Set against the backdrop of world energy consumption projected to increase by 49% by

2035, alternative sources of energy are being sought. Petroleum geoscientists are exploring unconventional source/reservoir

systems such as the carbonaceous shale, oil shale, tight sand, coal bed methane and fractured basement. In this study, shale,

and siltstone which are an importance sedimentary faces for hydrocarbon exploration in the eastern Chenor, Pahang has been

investigated using organic geochemical and petrological methods as well as Micro-CT, SEM (Scanning Electron Microscope).

The Tertiary sediments of eastern Chenor show a general trend of low thermal maturity based on vitrinite reflectance

measurements (<0.5 %Ro) and Tmax (<435

o

C). Organic petrological studies revealed that analyzed carbonaceous shale and

shales are rich in liptinite macerals (>20 vol. %) such as aliginite (

Botryococcus

algae), sporinite, cutinite and amorphous

organic matter indicating oil-prone Type I and Type II kerogens. Pyrolysis data also show a trend from predominant oil-prone

Type I and II kerogens to a mixed oil and gas-prone Type II-III kerogens within the studied samples except for the siltstones

samples which have low HI value indicating no potential for hydrocarbon generation. The EOM result shows that all the

carbonaceous shale samples possess excellent values for the bitumen/EOM and hydrocarbon (HC) content. The studied shale

samples have very good petroleum potential. However, analyzed siltstones show poor to fair petroleum potential based on for

the bitumen/EOM and hydrocarbon (HC) content. This is supported by plots of TOC content versus extractable organic matter

(EOM) and hydrocarbon yields versus TOC content commonly used in estimating the hydrocarbon generative potential of the

source rocks.

Biography

Dr. Yousif Makeen began his geology studies in 2008 at the University of Malaya, Malaysia. In 2011 he received the BSc degree in Applied Geology from University

of Malaya. His MSc was converted to PhD by the University Senate based on his excellent performance. His professional career began in 2015 when he received

his PhD from University of Malaya. His research interests are in oil, Source rock Characterization and Petroleum Systems Modeling. Throughout the years he has

presented his research work in Europe, the Middle East, and Southeast Asia. He has published 24 papers in ISI journals and conducted many consulting projects

for major oil companies. He is currently a Postdoctoral Research Fellow at the University of Malaya.

makeen.geo@hotmail.com

Yousif M Makeen et al., Innov Ener Res 2018, Volume 7

DOI: 10.4172/2576-1463-C2-006