Dr. Mohamed Fathy Abdel Fattah is seeking a full-time job in the geological field. He has a Bachelor's degree in Geology and Chemistry from Ain Shams University, as well as a Master's degree and PhD in Geology from Suez Canal University. He has over 30 years of experience as a geologist, including currently serving as the General Director of the Mineralogical and Geochemical Department at the Central Laboratories Sector of the Mineral Resource Authority. He has expertise in petrography, mineralogy, ore microscopy, and interpreting various analytical techniques.
Geological consultant, working in a range of roles from project development/feasibility study programs and advanced exploration roles. Contracts in a variety of global locations including Egypt, Saudi Arab, and the Middle East. Commodities including Gold, base metal sulfide, Gossan/Supergene, heavy mineral sands, clay/kaolin, Silica Sand, and iron ore.
Mineral deposits known to occur in Egypt; Classification of mineral deposit in Egypt, Possible Areas for Investment in Mineral Industry in Egypt, Mineral Commodities
Geological consultant, working in a range of roles from project development/feasibility study programs and advanced exploration roles. Contracts in a variety of global locations including Egypt, Saudi Arab, and the Middle East. Commodities including Gold, base metal sulfide, Gossan/Supergene, heavy mineral sands, clay/kaolin, Silica Sand, and iron ore.
Mineral deposits known to occur in Egypt; Classification of mineral deposit in Egypt, Possible Areas for Investment in Mineral Industry in Egypt, Mineral Commodities
Application of Geophysical and Remote Sensing Techniques to Delineate Laterit...Premier Publishers
Application of geophysical and remote sensing techniques was used to delineate lateritic bauxite zone in Orin Ekiti, Southwestern Nigeria. Three basic methods were employed to qualitatively define and identify plausible areas or zones of bauxite ore deposit within the study area. The remote sensing data utilized for the study were the Landsat (ETM) image and Shuttle Radar Topography Mission (SRTM) data in Digital Elevation Model (DEM) image. From the processed remote sensing data, features like topography, vegetation, settlements, and rocks which are all favourable features for bauxite formation were all observed and delineated. The use of magnetic method through the use of high resolution aeromagnetic data (HRAD) of sheet 224, enables different enhancement magnetic maps to be generated. These maps were used to define boundaries, contacts and edges of different rock types within the study area, and the production of a mineralization potential map for the study area. Three major rock types were identified and mapped, these are magmatite, granite gneiss and charnockite rocks. Charnockite rocks which are considered as parent rock for bauxite have low magnetic susceptibility values; therefore, zones of low magnetic susceptibility are mapped, with values ranged between -92.4 nT to -56.9nT, observed at central part trending in the east to west, and also in the northwestern and southwestern parts of the study area. Five traverses were established for electrical resistivity imaging (ERI). Bauxite being a weathered product of charnockite rock, zones of its existence is expected to have high resistivity values. So, along the five traverses, zones of high resistivity values were mapped as bauxite zones, having value ranged between 600 Ωm to 101404Ωm, and occurred within the depth ranged between 0 (surface) to maximum depth probed (15m). All the techniques adopted in the investigation showed the bauxite deposits within the study area are surficial or near-surface occurrence.
Technological approaches to diamond exploration on the Thorny River prospect,...James AH Campbell
Technological approaches to diamond exploration on the Thorny River prospect, South Africa.
Presentation to the Geological Society of South Africa's African Exploration & Technology Showcase.
Johannesburg (virtual) edition.
12 November 2021.
referencia de trabajos hechos en el mundo tanto en petróleo y gas, que aguas, mineral, gemas y otros problemas
1.2. ¿Cómo funciona la tecnología RSS-NMR?
1. El transmisor envía una señal estrechamente direccional típica solo de la sustancia que se busca (petróleo, gas), es decir, se incluye información sobre el petróleo o el gas en la señal.
2. Una vez que la señal llega al petróleo o al gas, la señal informativa penetra en el interior de la sustancia buscada y de inmediato revela este depósito (petróleo, gas, minerales, etc.) vuelve a emerger y percibimos la información sobre el petróleo o el gas y con confianza en la superficie sabemos que hemos alcanzado al objetivo.
A esto se le llama resonancia del material que se busca, por lo tanto, no necesitamos interpretación, este es el descubrimiento directo de un depósito. La precisión es del 90-95%, por este motivo la exploración con esta tecnología es realiza en un tiempo muy corto de 15 a 30 días.
1.2.1. Alcance del Proyecto RSS-NMR
Se tienen dos etapas:
• ETAPA 1: Es el método RSS, que es remoto; recibimos datos de resonancia de imágenes espaciales en un reactor nuclear en Ucrania. La precisión es del 85-90%, que es tres veces mayor en comparación con la sísmica.
• Todo se hace a Kiev, Ucrania, por eso y de forma remota, no se gasta tiempo y energía en la parte administrativa y para la captura de los datos en el bloque a explorar. Se hace de una forma discreta sin crear alborotes en la zona y protestas cualquiera
• ETAPA 2: Es un estudio de campo de NMR que se realiza con un equipo reducido. La precisión del trabajo es del 95%. ver el siguiente video https://youtu.be/EsITieoHDSQ etapa dos de campos y conclusiones.
Con este trabajo se tiene reducción de costos además de una precisión que supera los 90 %.
Within the framework of a new, "substance" (“matter”) paradigm of geophysical research, a "direct" search for a specific physical substance is carried out: gas, oil, gas hydrates, water, ore minerals and rocks (gold, platinum, silver, zinc, uranium, diamonds, kimberlites, etc.). The initial stage in the development of this paradigm can be considered the first research and development on the "direct" methods for oil and gas searching.
Application of Geophysical and Remote Sensing Techniques to Delineate Laterit...Premier Publishers
Application of geophysical and remote sensing techniques was used to delineate lateritic bauxite zone in Orin Ekiti, Southwestern Nigeria. Three basic methods were employed to qualitatively define and identify plausible areas or zones of bauxite ore deposit within the study area. The remote sensing data utilized for the study were the Landsat (ETM) image and Shuttle Radar Topography Mission (SRTM) data in Digital Elevation Model (DEM) image. From the processed remote sensing data, features like topography, vegetation, settlements, and rocks which are all favourable features for bauxite formation were all observed and delineated. The use of magnetic method through the use of high resolution aeromagnetic data (HRAD) of sheet 224, enables different enhancement magnetic maps to be generated. These maps were used to define boundaries, contacts and edges of different rock types within the study area, and the production of a mineralization potential map for the study area. Three major rock types were identified and mapped, these are magmatite, granite gneiss and charnockite rocks. Charnockite rocks which are considered as parent rock for bauxite have low magnetic susceptibility values; therefore, zones of low magnetic susceptibility are mapped, with values ranged between -92.4 nT to -56.9nT, observed at central part trending in the east to west, and also in the northwestern and southwestern parts of the study area. Five traverses were established for electrical resistivity imaging (ERI). Bauxite being a weathered product of charnockite rock, zones of its existence is expected to have high resistivity values. So, along the five traverses, zones of high resistivity values were mapped as bauxite zones, having value ranged between 600 Ωm to 101404Ωm, and occurred within the depth ranged between 0 (surface) to maximum depth probed (15m). All the techniques adopted in the investigation showed the bauxite deposits within the study area are surficial or near-surface occurrence.
Technological approaches to diamond exploration on the Thorny River prospect,...James AH Campbell
Technological approaches to diamond exploration on the Thorny River prospect, South Africa.
Presentation to the Geological Society of South Africa's African Exploration & Technology Showcase.
Johannesburg (virtual) edition.
12 November 2021.
referencia de trabajos hechos en el mundo tanto en petróleo y gas, que aguas, mineral, gemas y otros problemas
1.2. ¿Cómo funciona la tecnología RSS-NMR?
1. El transmisor envía una señal estrechamente direccional típica solo de la sustancia que se busca (petróleo, gas), es decir, se incluye información sobre el petróleo o el gas en la señal.
2. Una vez que la señal llega al petróleo o al gas, la señal informativa penetra en el interior de la sustancia buscada y de inmediato revela este depósito (petróleo, gas, minerales, etc.) vuelve a emerger y percibimos la información sobre el petróleo o el gas y con confianza en la superficie sabemos que hemos alcanzado al objetivo.
A esto se le llama resonancia del material que se busca, por lo tanto, no necesitamos interpretación, este es el descubrimiento directo de un depósito. La precisión es del 90-95%, por este motivo la exploración con esta tecnología es realiza en un tiempo muy corto de 15 a 30 días.
1.2.1. Alcance del Proyecto RSS-NMR
Se tienen dos etapas:
• ETAPA 1: Es el método RSS, que es remoto; recibimos datos de resonancia de imágenes espaciales en un reactor nuclear en Ucrania. La precisión es del 85-90%, que es tres veces mayor en comparación con la sísmica.
• Todo se hace a Kiev, Ucrania, por eso y de forma remota, no se gasta tiempo y energía en la parte administrativa y para la captura de los datos en el bloque a explorar. Se hace de una forma discreta sin crear alborotes en la zona y protestas cualquiera
• ETAPA 2: Es un estudio de campo de NMR que se realiza con un equipo reducido. La precisión del trabajo es del 95%. ver el siguiente video https://youtu.be/EsITieoHDSQ etapa dos de campos y conclusiones.
Con este trabajo se tiene reducción de costos además de una precisión que supera los 90 %.
Within the framework of a new, "substance" (“matter”) paradigm of geophysical research, a "direct" search for a specific physical substance is carried out: gas, oil, gas hydrates, water, ore minerals and rocks (gold, platinum, silver, zinc, uranium, diamonds, kimberlites, etc.). The initial stage in the development of this paradigm can be considered the first research and development on the "direct" methods for oil and gas searching.
1. Dr.Mohamed Fathy Abdel Fattah
Villa 132, 7St., Mogawra 1, Akd 2, El-hey 5, 6 October, Giza, Egypt.
Tel: (+202) 38327208 Cell: (+20122) 7368816
E-mail: moh_egsma@hotmail.com
OBJECTIVE:
Seeking a full time job in Geological Field
EDUCATION:
1-Bachelor of Science, "Geology-Chemistry" Faculty of Science, Ain Shams University,
May 1983.
· Specialization: Geologist
· General Grade: Very Good
2- M. Sc. Degree in "Geology" Faculty of Science, Suez Canal University,
September 1999.
3- Ph.D. Degree in Philosophy in Science "Geology" Faculty of Science, Suez
Canal
University, October 2005.
WORK EXPERIENCE:
Geologist in Mineralogical Studies Department, Central
Laboratories Sector of Mineral Resource Authority,
Petroleum Ministry from March 1988 and Now I am a
General Director of Mineralogical and Geochemical
Department
From Feb. 1985 To March 1988, Worked As Geologist in
Research Conservation Antiquates.
Freelance Expert in the field of Mineralogical Studies in
French Institute of Oriental Antiquates.
Participating as Lecture in many Training Courses hold for
Libyans, Yemenis, Saudi Arabians and Syrians Geologists.
Participating in many conferences and supervisor of many
M.Sc. And Ph.D. thesis's in deferent universities.
Professional Skills:
Petrographical and Mineralogical Studies of different rock types
(Igneous, Metamorphic and Sedimentary) by using polarizing
microscope.
Ore microscopy studies for identification and evaluation of different
ores (like iron oxide, sulphides, gold and silver, etc) by using ore
microscope.
Mineralogical studies of different types of economic placer deposits
to evaluate their economic impotence e.g. (gold, cassiterite, zircon,
rutile, monazite, ilmenite, magnetite, etc) using stereoscopic
microscope.
Petrographical and Mineralogical Studies for sands and rock
2. fragments samples used in concerts according to ASTM cards of
American and other block rocks used as ornamental stones for
building.
Interpretation of data obtained from spectrographic analysis, x-ray
diffraction and fluorescence analysis and scanning electron
microscope.
Supervisor of Scanning Electron Microscope, Mineralogical Studies
Dept. and a unit of preparation of thin sections and polished surfaces
for different rock types.
Using software (Jndel Scientific, Sigma Scanpro and Iris) for Images
analysis and measurement of its parameters.
Photography of thin and polished section by using
* Full automatic camera attached to polarizing microscope.
** Video camera of high resolution attached to the polarizing
microscope.
And then contacted to computer system.
Language Skills:
Fluent in written & spoken Arabic & English, fair knowledge of
French.
Computer Skills:
· Good knowledge of IBM.
· Good use of Microsoft Windows, Power point, Photoshop & office.
· Good utilization of internet access and research.
Highlights of some Projects:
Black Sand Project in Rosita and North Sinai.
Cassiterite Project, Muelha – Central Eastern Desert – Egypt.
Albitite Ore Project, Southern Sinai - Egypt.
Ornamental Stones Project, Eastern, Western Desert and Sinai.
Placer Deposits (Feldspar ore) Eastern Desert and Sinai.
Exploration for Gold in Placer Deposits in Egypt.
Petrographical and Mineralogical Studies for Zabarged Island Rocks,
Red Sea- Egypt.
Eastern Aswan Iron Ore Project , Eastern Egypt.
Owainat Area Project (Gabal Nazar and Gabal Kamel) South Western
Desert- Egypt. { the project was in cooperation between Egypt and
Libya}
Evaporite Deposits Project Along Red Sea Coast, Eastern Desert –
Egypt.
Economical Evaluation for Gold in Ancient Egyptian Dumps, Rocks
of Owainat Area and Dumps of Fawakheer , El-Sad , El-Faw and Om-
Ashera Areas.
Courses:
3. Course in Protection of Radiation (Faculty of Science-Cairo
University)
Course in Fluid Inclusion (Faculty of Science-Mansoura University)
Course in Evaporite Rocks of North Sinai along Gulf of Suez
Course in English Language (American University in Cairo)
Course in German Language (El-Shrouk Institute in Cairo )
Course in Stable Isotopes in Geological Sciences (Faculty of
Science-Cairo University)
Course in Preparation of Geological Reports (Geological Survey of
Egypt)
Course in ISO 17025.
Course in administration.
Personal Data:
Date of Birth : 04-02-1961
Nationality : Egyptian
Residency : Egypt
Marital Status : Married
References Furnished Upon Request