In order to build 3D structural model for Mamlaht Al-Kom
structure in the North Palmyride Chain, the potential reflections
were defined like Korushina Anhydrite (K.A) the cover, and
Korushina Dolomite (K.D) the reservoir, therefore the time,
velo
city, and depth maps for Korushina dolomite reflection were
constructed. Finally the 3D Structural Model for formation (K.D)
was defined. So that the hydrocarbon potential is discussed.
The refered data from geophysical surveys (seismic-logging)
and samples analysis,that the paleozoic Tanf/Al Aba
formation that belong to Paleozoic Era ,represent the most
important rock generating hydrocarbon in Syria. And this
covers big parts o
f Syria and with different thickness, between
zero to 1100 m.
This Study focused on the lithostratigraphic properties of Mamlaht
Al-Kom structure, for evaluating the hydrocarbon potential of this
important structure. In order to achieve this goal, the time and depth
maps are constructed, through revaluating
and interpreting the
seismic sections, correlating the drilled wells, and appraising the
available well rock samples. The obtained data permit to ensure the
hydrocarbon potential of the K.D formation, because of its suitable
thickness, presence of cover, and source rock. On the other hand,
the entire shape of the structure is not defined accurately as all the
exploration wells were drilled along the axis North East – South
west. Thus these results should be checked by reinterpreting the
available seismic data depending on the geological and
lithostratigraphic data, and drill exploration wells on the axis North
– South to define the depth and structure of the reservoir reliably.
The aim of this research is to study the absorptive effect of high density (HDPE) polyethylene pipes for the hydrocarbon compounds on the characteristic (Force, Elongation) curves. To verify this, we immerse some parts of the pipe in different hydroc
arbon mediums containing gasoline, diesel, and motor oils of (10 and 40) calibre. The result show that these compounds have a bad effect on the submission force, neck formation, and damage force. The experimental results also show that motor (engine) oils have a similar effect on gasoline despite low absorption percentages.
Hydrocarbon burning nowadays has a great part of the required energy consumed in the world, mainly in the transport vehicle engines, which seems to be the main source in the future. This urges us develop the fuel burning in different internal combust
ion engines according to the environmental increasing requirements nowadays. The carbon fine-dust produced is the main source of the environmental pollutants, which could be considered as
the main cause of cancer. Therefore our present paper deals with the way of carbon fine dust formation during fuel burning in engines and gives a mathematical model describing that complex method, and studying the different function affecting its formation, the aim is to find a way to develop the burning process in engines and increase its working and decrease the pollution produced.
The available seismic data of Mamlaht Al-Kom field were reinterpreted in
order to define some petroleum potential reflections. The study focused on
Korushina Dolomite (K.D) reflector because of its properties that indicate α
hydrocarbon potential.
Therefore the time map of this formation was
canstructed, structure was defined and the hydrocarbon potential is discussed.
According to the obtained data, we ensure the presence hydrocarbon
potential of the K. D formation, because of its suitable thickness, availability of
cover, and the source rocks. These results should be verified by a 3D surveys
and then drilling operations.
Low frequency shadows is one of hydrocarbons indicators. It can be
detected by means of a time-frequency decomposition which can provide higher
frequency resolution at lower frequencies and higher time resolution at higher
frequencies. This is des
irable for analyzing seismic data, because the
hydrocarbons in reservoir are diagnostic at lower frequencies. we have carried
out such analyses with post-stack data sets on Fahda field which is located in
Aleppo uplift, it contains oil. Adding a frequency axis to a 2D seismic section
makes the data 3D axis. The comparison of the single frequency sections from
such 3D volume can be utilized to detect low frequency shadows. A
preferentially illuminated single frequency section at lower frequencies from
Fahda field, shows high amplitude low frequency anomalies beneath oil zones.
These anomalies disappear at higher frequencies.
