Wednesday, 14 December 2011

Petroleum Geoscience Conference & Exhibition 2012

Hello!

There will be a conference and exhibition on Petroleum Geoscience industry in Malaysia in April next year. 

The  Petroleum Geoscience Conference and Exhibition 2012 (PGCE 2012) details are as follow:

Date: 23rd-24th April 2012 (Teaching Weeks, no holidays)
Student fee: RM100.00
Venue: Kuala Lumpur Convention Centre (KLCC)



The Petroleum Geoscience Conference & Exhibition 

2012 (PGCE 2012) is one of the largest geoscience 
events in South East Asia. 

It was started more 
than 30 years ago by the Geological Society of 
Malaysia (GSM). In 2005 PETRONAS joined the 
organization of the event, taking it to the next 
level. 


The two-day programme for 2012 includes a large 
conference, short courses, technical exhibition, 
student programme and field trips presenting the 
latest developments in geophysics, geology and 
reservoir engineering.
In 2011 almost 1,800 visitors from countries all over the world attended the event




There will be field trips that we can look forward to:

Wednesday, 25 April 2012 - Thursday, 26 April 2012
Geological Field Trip of the Palaeozoic Limestone of Kinta Valley 

Field Trip Leader: Professor Dr. Bernard J. Pierson
Shell Chair in Petroleum Geosciences, Head of SEACARL (South-East Asia Carbonate Research Laboratory), Universiti Teknologi PETRONAS (UTP)


Wednesday, 25 April 2012 - Friday, 27 April 2012
Sedimentary Geology of Nyalau Formation (Early-Middle Miocene), Sawarak Basin

Lithofacies, Stratigraphic Surfaces and Depositional Sequences: Implications on Hydrocarbon Exploration and Production.
Field Trip Leader: Dr. Abdul Hadi Abd. Rahman (Universiti Teknologi PETRONAS) & Dr. Mazlan Hj Madon (PETRONAS)


Wednesday, 25 April 2012 - Friday, 27 April 2012
Study of Fractured Metasedimentary and Granite Outcrops, Terengganu, Peninsular Malaysia: An Analogue for Fracture Basement Exploration in Malay Basin

Field Trip Leader: Dr. Narender Pendkar (PETRONAS Carigali) & Mr. Mohd. B. Kadir (PETRONAS Carigali)


The field trips are very interesting and surely bring tonnes of benefits to us. They will be held straight after the conference.

Students can look forward to a special tailored first day programme with talks and the PGCE 2012 Geo-Quiz!

More information will be available soon.


It is an event organised by Geological Society of Malaysia (GSM) with Petronas. 

Curtin students probably cannot go as we will be having classes.
However,
Important: If many of you are interested (or at least 'feel like going'), do tell CGC by commenting your name below so that we have the numbers of people and at least  do something about it. 

Monday, 12 December 2011

Register now for Fractured Carbonate Reservoirs


Register now for Fractured Carbonate Reservoirs —
a joint AAPG-EAGE workshop in Bali
Before 14 January:
  • AAPG/EAGE members:  US $1,300.
  • Nonmembers:$US $1,400.
After 14 January:
  • AAPG/EAGE members: US $1,400.
  • Nonmembers:US$1,500
Register now to be a part of Fractured Carbonate Reservoirs, a join AAPG-EAGE workshop to be held 15-17 February 2012 in Bali.
Geotechnical professionals from industry and academia, both those actively working these topics and those wishing to learn more, will benefit from the collaborative exchange of ideas at this event, as well its accompanying core workshop.
A range of session topics will integrate detailed observations and perspectives from inter-related fields of research such as structural geology, geomechanics, geophysics and reservoir engineering to better understand and predict the presence, distribution, controls and impact of fractures in carbonates.
Technical Program Convenors:
  • Julie Kupecz, Pearl Energy Indonesia (a Mubadala Company)
  • Robert Park, Sherwood Holdings, Jakarta
  • Sigit Sukmono, Institut Teknologi, Bandung
Visit the website for more information or to register for the joint AAPG-EAGE workshop.

Wednesday, 30 November 2011

Volcanoes of the Deep Sea




For the first time you can be 12,000 feet below the ocean's surface, inside an unparalleled undersea volcanic world filled with strange creatures and dramatic landscapes. You've never seen anything like this as brand-new lighting technology far superior to anything that's ever been used before illuminates this secret realm. Exhibited to great acclaim in IMAX and other giant-screen theatres around the world.

Improving Oil Extraction With New Mapping Technology


ScienceDaily (Jan. 28, 2009) — Picture this: an accurate map of a large underground oil reservoir that can guide engineers' efforts to coax the oil from the vast rocky subsurface into wells where it can be pumped out for storage or transport.
Researchers in MIT's Department of Civil and Environmental Engineering have developed technology that can generate such a map, which has the potential to significantly increase the amount of oil extracted from reservoirs.
The new technology uses the digital image compression technique of JPEG to create realistic-looking, comprehensive maps of underground oil reservoirs using measurements from scattered oil wells. These maps would be the first to provide enough detail about an oil reservoir to guide oil recovery in the field in real time.
"Our simulation studies indicate that this innovative approach has the potential to improve current reservoir characterization techniques and to provide better predictions of oil-reservoir production. The hope is that better predictions ultimately lead to more efficient operations and increased oil production," said Behnam Jafarpour, a recent MIT graduate who is now an assistant professor in petroleum engineering at Texas A&M University.
Jafarpour and Dennis McLaughlin, the H.M. King Bhumibol Professor of Water Resource Management at MIT, published a pair of papers describing the technique that will appear in an upcoming issue of the Society of Petroleum Engineering Journal, as well as a third paper that appeared in the June 2008 issue of Computational Geosciences.
The top image shows the oil saturation map in a benchmark reservoir model with known properties (referred to as the true model). The bottom image shows a nearly identical reconstruction of that same reservoir map using the McLaughlin/Jafarpour solution approach, which took isolated data from 23 wells and simulated a 36-month recovery effort. Black dots represent the wells, remaining oil is indicated in red, and blue shows the water that remains underground following water pumping. (Credit: Image / Behnam Jafarpour)
The spatial structure in geologic formations makes it possible to compress rock property maps. But JPEG compresses the many pixels in a detailed image down to a few essential pieces of information that require only a small amount of storage. In the oil reservoir characterization application developed by MIT researchers, a similar mechanism is used to provide concise descriptions of reservoir rock properties. The new technique uses oil flow rates and pressure data from oilfield wells to create a realistic image of the subsurface reservoir.
Petroleum extraction is expensive and relatively inefficient -- sometimes as little as one-third of the oil in a reservoir is actually recovered through pumping. So engineers rely on enhanced recovery techniques such as water flooding to mobilize the oil. To guide this work, they make real-time predictions of subsurface variables, including oil saturation and pressure, but they're essentially working blindly. The rock properties needed to make these predictions (for instance fluid conductivity of rock at a particular depth) can't be seen or measured.
Instead, engineers infer geologic properties indirectly from seismic data and measurements taken at scattered wells.
"In a typical reservoir, millions of pixels are needed to adequately describe the complex subsurface pathways that convey the oil to wells. Unfortunately, the number of seismic and well observations available for estimating these pixel values is typically very limited. The methods we've developed extract more information from those limited measurements to provide better descriptions of subsurface pathways and the oil moving through them," said McLaughlin, lead researcher on the project.
In a 36-month simulated oil-recovery process, McLaughlin and Jarfarpour's estimation approach accurately captured the main features and trends in fluid conductivity of a reservoir formation, demonstrating that the new technique is robust, accurate and efficient.
"Our next step -- already in progress -- is to test our idea in real oil reservoirs and evaluate its impact on oil recovery under realistic field settings," Jafarpour said.
This research was funded by the Shell International Petroleum Co.
Original article was published here.

CGC and American Association of Petroleum Geology

Students

Curtin Geology Club (CGC) will open a new student chapter of American Association of Petroleum Geology starts next semester. 

To rejuvenate CGC and give new looks to its stagnant image, we will conduct various activities in line with AAPG's programs for its members in Curtin Sarawak. CGC President, Muhammad Syafiq Suhaimi do hope that its members take their extracurricular activities to higher level so that everyone can have fun learning geology outside the class. He said the club welcomes suggestions and do hope for more commitments from its members. 

What is AAPG?
The Student Chapter Program of AAPG is made up of collegiate groups of geoscience students and one of the world's foremost co-educational programs within the geoscience sector with over 245 chapters. It provides students the opportunity to develop leadership skills and serves as a focal point for developing a feeling of professionalism through meeting industry representatives.


Member benefits include:

According to Syafiq Suhaimi, the benefits are actually far greater than that. AAPG is one of the foremost brand in Geoscience word and hence the easy accessibility to the industry. In fact, many of our activities which are financially-constrained can be easily carried out once we as members take club's activities seriously. 

HAVE YOU APPLIED TO BECOME ONE OF THE MEMBERS?
APPLY HERE NOW!

Monday, 14 November 2011

i-Geology

Hello!

Curtin Geology Club (CGC) would like to introduce you the new i-Geology blog which will be our medium of promoting Geology to our members and the rest of the world. As ambitious as this might sound and as humble as this blog might be, we really need your cooperations to play your parts in this blog.

What is i-Geology?

i-Geology is the blog of Curtin Sarawak's Geology Club. Focusing on the geological activities of its members, this blog provides a medium for these future geologists in showcasing the beauty of geology to the rest of the world particularly to aspiring young students interested in the science of the Earth.

From the top of Kinabalu Mt. to the cliffs of Tusan Beach of Miri, i-Geology gives you in detailed informations from student's perspectives.

Programs 
We want to provide a medium for Curtin's future geologists to share their experiences  be it from their field trips or geology classes to the rest of the students and perhaps, to the rest of the world.

It will be the best way for seniors to share their experiences with the juniors. We are also planning to do some email interviews with the seniors who have graduated from Curtin University to share their experiences. 
Apart from that, we are planning to involve lecturers with the blog. We will offer them the opportunities to put their thoughts, articles and updates on researches that they are currently doing. 

We would like to offer these positions to the members of Curtin Geology Club:

  1. Chief Editor- This person in-charge will be put to deal directly with CGC President, Mr. Muhammad Syafiq bin Suhaimi
  2. Bloggers- We need as many as possible so that there will be lots of interesting experiences and ideas that can be compiled under one roof. Representatives from each batch is highly welcomed.
  3. Designer- As logic as this might sound, you must be able to make this blog look better than the current design, otherwise do not apply.
  4. Photographers- We need a photographer for each activity of CGC's.  There is no need to mention what do you need to become a photographer but this task is quite simple. 
ALL OF THE POSITIONS, ESPECIALLY BLOGGERS ARE HIGHLY WELCOMED TO BE FILLED. PLEASE DO NOT HESITATE TO CONTACT CGC PRESIDENT DIRECTLY THROUGH HIS FACEBOOK AT MAHARAJA SYAFIQ.

Saturday, 22 October 2011

Earth Science, anyone?


My own starting point, for what it is worth, was a school science book that I had when I was in Standard Five. The book was a standard issue school textbook – unloved, dull, plain- but near the front it had an illustration that just captivated me: a cutaway diagram showing the Earth’s interior as it would if you cut into the planet with a knife and withdrew a wedge representing a quarter of its bulk. Gradually my attention did turn into a more scholarly manner to the scientific import of the drawing and the realization that the Earth consisted of discrete layers, ending in the centre with a glowing iron and nickel, which was as hot as the surface of the Sun. Thinking with real wonder, I asked myself: How do they know that? I could not work out what spaces thousands of miles below us, that no eyes had ever seen and no X-ray could penetrate, could look like and be made of. That was how I engaged myself with Earth science.



Source: The Chukai Insider