Wadi Halfa Oolitic Ironstone Formation, Wadi Halfa and Argein Areas, North Sudan
In present study, a large deposit of oolitic iron ore of
Late Carboniferous-Permotriassic-Lower Jurassic age was discovered
in Wadi Halfa and Argein areas, North Sudan. It seems that the iron
ore mineralization exists in the west and east bank of the River Nile
of the study area that are found on the Egyptian-Sudanese border.
The Carboniferous-Lower Jurassic age strata were covered by 67
sections and each section has been examined and carefully described.
The iron-ore in Wadi Halfa occurs as oolitic ironstone and contained
two horizons: (A) horizon and (B) horizon. Only horizon (A) was
observed in southern Argein area. The texture of the ore is variable
depending on the volume of the component. In thin sections, the
average of the ooids was ranged between 90%-80%. The matrix
varies between 10%-20% by volume and detritus quartz in other
component my reach up to 30% by volume in sandy massive ore.
Ooids size ranges from 0.2mm-1.00 mm on average in very coarse
ooids may attend up to 1 mm in size. The matrix around the ooids is
dominated by iron hydroxide, carbonate, fine, and amorphous silica.
The probable ore reserve estimate of 1.234 billion at a head grade of
41.29% Fe for the Wadi Halfa Oolitic Ironstone Formation. The iron
ore shows higher content of phosphorus ranges from 6.15% to 0.16%,
with mean 1.45%. The new technology Hatch–Ironstone Chloride
Segregation (HICS) can be used to produce commercial-quality of
iron and reduce phosphorus and silica to acceptable levels for steel
industry. The presence of infrastructures in addition to the presence
of massive quantities of iron ore would make exploitation
economically.
[1] A. J. Whiteman, The Geology of the Sudan Republic. Clarendon Press,
Oxford, Britain, 1971.
[2] N. Barazi, “Sedimentologie und Stratigraphie des Abyad-Becken (NWSudan),”.-
Berliner Geowiss. Abh., (A), vol. 64, Berlin, 1985.
[3] E. Klitzsch, “Plate Tectonics and Cratonal Geology in North East Africa
(Egypt and Sudan),” Geologische Rundschau, vol.75, no.3, pp.755-768,
1986.
[4] E. Klitzsch, and P. Wycisk, “Geology of the Sedimentary Basins of
Northern Sudan and Bordering Areas”, –Berlin Geowiss. Abh. (A), vol.
75, no.1, Berlin, pp. 97-137, 1987.
[5] E. Klitzsch, and C. H. Squyers, “Paleozoic and Mesozoic Geological
History of NE Africa Based Upon New Interpretation of Nubian Strata”,
AAPG Bull., vol..74, pp. 1203-1211, 1990.
[6] H. Schandelmeier, E. Klitzsch, F. Hendriks, and P. Wycisk, “Structural
Development of NE Africa Since the Pre-Cambrian Time”, Berliner
Geowiss. Abh, A75.1, Berlin, pp. 5-24, 1987. [7] H. Schandelmeier, and D. Pudlo, “The Central African Fault Zone
(CAFZ) in Sudan A possible Continental Transform fault”, - Berliner
Geowiss, Abh. (A), vol. 120 no.1, Berlin, pp. 31-44, 1990.
[8] M. Nafi, “ Sedimentology of the Palaeozoic and Mesozoic strata of the
Northwestern Sudan”, Msc. Thesis, Univ. of Khartoum, 1997.
[9] M. Nafi, and O. M. Abdullatif, “Petrographic of Northwestern Sudan”,
J. of China university of Geosciences, vol. 14, no. 2, pp. 137-14, 2003.
[10] M. Nafi, and O. M Abdullatif, and X. Wenchen, “The Palaeoclimate of
the Northwestern Sudan during the Lower, Middle, and Upper Cycles”,
Euro-Asian J. of Applied Sciences, vol.1, no.2, pp. 4-13, 2005.
[11] M. Nafi, and O. M. Abdullatif, “Facies Analysis of the Paleozoic-
Mesozoic Strata of the North western Sudan”, Second International
Conf. on the Geology of the Tethys (ABSTRACT) Cairo University,
Egypt, 19-22, March, 2007.
[12] M. Nafi, M. Z. Awad, E. M. Abdel Rahman, A. EL Amein, M. El Dawi,
N. Brügg, A. Babikir, A. El Faki, O. El Badri, A. El Hag, A. Abou, A. El
Doma, and A. Abakar,“Significance of Paleozoic Paleogeographic
Reconstruction in North Sudan”, The First International Symposium on
The Petroleum Systems and Geological Resources in the Tethys Realm
(ABSTRACT) Cairo University, Egypt, 17-25, March, 2009.
[13] M. Nafi, A. EL Amein, M. El Dawi, M.Z. Awad, M. Abdel Rahman, O.
El Badri, E. El Faki, K. Salih, I. Ibrahim, O. ElBahi, N. Brügge, E.
Kheirelseed, A. Babikir, O. Babikir, A. El Hag, A. Abou, A. El DomA,
and A. Abakar, “New Evidence of Upper Carboniferous-Early Permian
Glaciation in Northern and Northwestern Sudan and it`s Relation to
Hydrocarbon Accumulation”, Fifth International Conf. on the Geology
of the Tethys, (ABSTRACT) Gena, Egypt, January 2010.
[14] M. Nafi, A. EL Amein, K. Salih, O. Elbahi, A. Haron, and O. Abdeen
O., “Geological Mapping of Sedimentary Units and Associated of Iron
Mineralization in Northern Sudan”, Ancient Civilization Company for
Investment (ACCI) Report, 2011.
[15] M. Nafi, M. Z. Awad, E. M. Abdel Rahman, A. EL Amein, M. El Dawi,
E.M.. El Faki E, K. Salih, O. El Badri, N. Brügge, A. Babikir, A. El
Hag, A. Abou, A. El Doma, and A. Abakar, “New Evidence of Upper
Carboniferous-Permotriassic Strata In Northern Sudan”, SAPG J., Firs t
issue. pp, 29-43, 2011.
[16] M. Nafi, E. M. Abdel Rahman, A. EL Amein, M. El Dawi, K. Salih, O.
ElBahi, N. Brügge, A. Abou, A. El Doma, and A. Abakar, “Quality and
Quantity of Oolitic Ironstone of Wadi Halfa and Argein Areas, Northern
Sudan”, Asmara Mining Conf., Oct. 2013.
[17] M. Nafi, A. El Amein, K. Salih, M. El Dawi, and N. Brügge,.
“Significance of Newly Discovered Late Carboniferous and Permo-
Triassic Strata, North and Northwestern Sudan”, CPC-2014 Field
Meeting on Carboniferous and Permian Nonmarine –Marine
Correlation., Freiberg University, Geological Institute, Germany,
Abstract Volume, pp 44-45, July 2014.
[18] M. E. Janssen, R. A. Stephenson, and Cloetingh, “Change in Plate
Motion and their Control on the Subsidence of Rifted Basins in the
African Plate”, Geoscientific Research in Northeast Africa, Thorweihe
and Schandelmeier (eds). Rotterdam (Balkema), pp.185-188, 1993.
[19] T. Schull, “Rift Basins of Interior Sudan, Petroleum exploration and
discovery”, AAPG Bull., vol.72, no. 10, pp. 1128-1147, 1988.
[20] A. K. Thurmond, R. J. Stern, M. J. Abdelsal, K. C. Nielsen, M. M.
Abdeen, and E. Hinz E,“The Nubian Swell”, Journal of African Earth
Sciences, vol. 39, pp 401–407, 2004.
[21] R. Bussert, “Evolution of Cetaceous Continental Basins in Northern
Sudan” Geoscientific research in NE Africa”, Thorweihe and
Schandelmeier (eds). University of Berlin, Germany, Balkema.
Rotterdam, ISBN9054103183, pp. 407-414, 1993.
[22] T. Schwarz, and K. Germann,“Ferricretes as A source of Continental
Oolitic Ironstone in Northern Sudan”, Chem. Geol., vol. 107, pp 259-
265, 1993.
[23] M. N. W Ali, M. E. Babiker, H. Eltayeb, A. Haroun, “A study on the
oolitic iron ore mineralization of Wadi Halfa”, Geological Rasearch
Authority of Sudan, Report, 2003.
[24] M. N. W Ali, “A study on the Oolitic Iron Ore Mineralization of Wadi
Halfa”, Arab Mining Conf., University of Amman, Jorden, 2004.
[25] Bonifica Geoexpert, “Hydrogeological Studies and Ivestigations in
Northern Sudan”, Regional reconnaissance. Minerals resources in the
Nubian Formation, Supporting report, Roma, no. 4, 1986.
[26] A. Fuganti, J. Morteani, G.Grundmann, “Oolites Ironore Deposits in the
Nubian Formation of the Wadi Halfa Area (northen Sudan” in Mattheis,
G., Schanddelmeier, H. (eds) Current research in Africa Earth Science.
Balkema, Rotterdam, pp. 379-382, 1987.
[27] K. Germann, and K. Fischer, “Lateritische Verwitterungsprodukte in der
Nubischen Gruppe Oberagyptens und des Nordsudans”, Nachr. Dt. Geo.
Ges., vol.39, pp.18-19, 1988.
[28] K. Germann, K. Fischer, and T. Schwarz, “Accumulation of Lateritic
Weathering Products (Kaolins, bauxitic laterites, ironstone) in
sedimentary basins in northern sudan”, Berliner geowiss, Abh. (A), vol.
120, no.1, pp.109-148, 1990.
[29] E. Klitzsch, and A. Lejal-Nicol, “Flora and Fauna from Strata in
Southern Egypt and Northern Sudan”, –Berliner Geowiss. Abh. (A),
Berlin, vol. 50, pp. 47-79, 1984.
[30] G. Linck, and W. Becker, 1925 “Uber Einen Eisenoolith (Minette) von
Wadi Halfa”, Chem. Erde, vol. 2, pp.134-136, 1925.
[31] E. M Moslim,“Beneficiation Studies on low grade iron ore, Wadi Halfa
area, Northern Sudan”. Ph.D. Thesis, Faculty of Engineering Sciences,
Omdurman University, Sudan, 2010.
[32] A. Mucke, 2000. “Environmental Condition in the Late Cretaceous
African Tethys: Conclusion from a microscope-microchemical study of
ooidal iron stone of Egypt, Sudan and Nigeria”, J. of Africa Earth
Science, vol. 30, no. 1, pp. 25-45, 2000.
[33] A. A. S. Seifelnassr, E. M. Moslim, A.M. Abouze, “Effective Processing
of Low-Grade Iron Ore Through Gravity and Magnetic Separation
Techniques”, Physicochem. Probl. Miner. Process,vol. 48, no.2, pp.
567−578, May 2012.
[34] A. Zitzmann,“The Iron Ore Deposits of the Arab Republic of Egypt”, In:
Zitzmann, A. (ed.), The iron ore deposits of Europe and adjacent Areas,
vol. 1, Hannover, 1976, pp.129-133.
[35] V. Hernandez1, K. Peake, A. Dalvi1, R. Brown1, J. Olurin1, T.
O’Farrell, M. Zhou, B. Liu, I. Cameron, “Process Development of a
New DRI Technology for Oolitic Iron Ores”, AISTech Proceedings, pp.
519-526, 2013.
[36] V. Hernandez, R. Brown, S., Chang, A. Dalvi,, M, Oliazadeh and., K.,
Peake, “Beneficiation of oolitic ores”, 46 Annual Canadian Minerals
Processors Operators Conf., 2014, Ottawa, Ontario January, pp. 21-23.
[1] A. J. Whiteman, The Geology of the Sudan Republic. Clarendon Press,
Oxford, Britain, 1971.
[2] N. Barazi, “Sedimentologie und Stratigraphie des Abyad-Becken (NWSudan),”.-
Berliner Geowiss. Abh., (A), vol. 64, Berlin, 1985.
[3] E. Klitzsch, “Plate Tectonics and Cratonal Geology in North East Africa
(Egypt and Sudan),” Geologische Rundschau, vol.75, no.3, pp.755-768,
1986.
[4] E. Klitzsch, and P. Wycisk, “Geology of the Sedimentary Basins of
Northern Sudan and Bordering Areas”, –Berlin Geowiss. Abh. (A), vol.
75, no.1, Berlin, pp. 97-137, 1987.
[5] E. Klitzsch, and C. H. Squyers, “Paleozoic and Mesozoic Geological
History of NE Africa Based Upon New Interpretation of Nubian Strata”,
AAPG Bull., vol..74, pp. 1203-1211, 1990.
[6] H. Schandelmeier, E. Klitzsch, F. Hendriks, and P. Wycisk, “Structural
Development of NE Africa Since the Pre-Cambrian Time”, Berliner
Geowiss. Abh, A75.1, Berlin, pp. 5-24, 1987. [7] H. Schandelmeier, and D. Pudlo, “The Central African Fault Zone
(CAFZ) in Sudan A possible Continental Transform fault”, - Berliner
Geowiss, Abh. (A), vol. 120 no.1, Berlin, pp. 31-44, 1990.
[8] M. Nafi, “ Sedimentology of the Palaeozoic and Mesozoic strata of the
Northwestern Sudan”, Msc. Thesis, Univ. of Khartoum, 1997.
[9] M. Nafi, and O. M. Abdullatif, “Petrographic of Northwestern Sudan”,
J. of China university of Geosciences, vol. 14, no. 2, pp. 137-14, 2003.
[10] M. Nafi, and O. M Abdullatif, and X. Wenchen, “The Palaeoclimate of
the Northwestern Sudan during the Lower, Middle, and Upper Cycles”,
Euro-Asian J. of Applied Sciences, vol.1, no.2, pp. 4-13, 2005.
[11] M. Nafi, and O. M. Abdullatif, “Facies Analysis of the Paleozoic-
Mesozoic Strata of the North western Sudan”, Second International
Conf. on the Geology of the Tethys (ABSTRACT) Cairo University,
Egypt, 19-22, March, 2007.
[12] M. Nafi, M. Z. Awad, E. M. Abdel Rahman, A. EL Amein, M. El Dawi,
N. Brügg, A. Babikir, A. El Faki, O. El Badri, A. El Hag, A. Abou, A. El
Doma, and A. Abakar,“Significance of Paleozoic Paleogeographic
Reconstruction in North Sudan”, The First International Symposium on
The Petroleum Systems and Geological Resources in the Tethys Realm
(ABSTRACT) Cairo University, Egypt, 17-25, March, 2009.
[13] M. Nafi, A. EL Amein, M. El Dawi, M.Z. Awad, M. Abdel Rahman, O.
El Badri, E. El Faki, K. Salih, I. Ibrahim, O. ElBahi, N. Brügge, E.
Kheirelseed, A. Babikir, O. Babikir, A. El Hag, A. Abou, A. El DomA,
and A. Abakar, “New Evidence of Upper Carboniferous-Early Permian
Glaciation in Northern and Northwestern Sudan and it`s Relation to
Hydrocarbon Accumulation”, Fifth International Conf. on the Geology
of the Tethys, (ABSTRACT) Gena, Egypt, January 2010.
[14] M. Nafi, A. EL Amein, K. Salih, O. Elbahi, A. Haron, and O. Abdeen
O., “Geological Mapping of Sedimentary Units and Associated of Iron
Mineralization in Northern Sudan”, Ancient Civilization Company for
Investment (ACCI) Report, 2011.
[15] M. Nafi, M. Z. Awad, E. M. Abdel Rahman, A. EL Amein, M. El Dawi,
E.M.. El Faki E, K. Salih, O. El Badri, N. Brügge, A. Babikir, A. El
Hag, A. Abou, A. El Doma, and A. Abakar, “New Evidence of Upper
Carboniferous-Permotriassic Strata In Northern Sudan”, SAPG J., Firs t
issue. pp, 29-43, 2011.
[16] M. Nafi, E. M. Abdel Rahman, A. EL Amein, M. El Dawi, K. Salih, O.
ElBahi, N. Brügge, A. Abou, A. El Doma, and A. Abakar, “Quality and
Quantity of Oolitic Ironstone of Wadi Halfa and Argein Areas, Northern
Sudan”, Asmara Mining Conf., Oct. 2013.
[17] M. Nafi, A. El Amein, K. Salih, M. El Dawi, and N. Brügge,.
“Significance of Newly Discovered Late Carboniferous and Permo-
Triassic Strata, North and Northwestern Sudan”, CPC-2014 Field
Meeting on Carboniferous and Permian Nonmarine –Marine
Correlation., Freiberg University, Geological Institute, Germany,
Abstract Volume, pp 44-45, July 2014.
[18] M. E. Janssen, R. A. Stephenson, and Cloetingh, “Change in Plate
Motion and their Control on the Subsidence of Rifted Basins in the
African Plate”, Geoscientific Research in Northeast Africa, Thorweihe
and Schandelmeier (eds). Rotterdam (Balkema), pp.185-188, 1993.
[19] T. Schull, “Rift Basins of Interior Sudan, Petroleum exploration and
discovery”, AAPG Bull., vol.72, no. 10, pp. 1128-1147, 1988.
[20] A. K. Thurmond, R. J. Stern, M. J. Abdelsal, K. C. Nielsen, M. M.
Abdeen, and E. Hinz E,“The Nubian Swell”, Journal of African Earth
Sciences, vol. 39, pp 401–407, 2004.
[21] R. Bussert, “Evolution of Cetaceous Continental Basins in Northern
Sudan” Geoscientific research in NE Africa”, Thorweihe and
Schandelmeier (eds). University of Berlin, Germany, Balkema.
Rotterdam, ISBN9054103183, pp. 407-414, 1993.
[22] T. Schwarz, and K. Germann,“Ferricretes as A source of Continental
Oolitic Ironstone in Northern Sudan”, Chem. Geol., vol. 107, pp 259-
265, 1993.
[23] M. N. W Ali, M. E. Babiker, H. Eltayeb, A. Haroun, “A study on the
oolitic iron ore mineralization of Wadi Halfa”, Geological Rasearch
Authority of Sudan, Report, 2003.
[24] M. N. W Ali, “A study on the Oolitic Iron Ore Mineralization of Wadi
Halfa”, Arab Mining Conf., University of Amman, Jorden, 2004.
[25] Bonifica Geoexpert, “Hydrogeological Studies and Ivestigations in
Northern Sudan”, Regional reconnaissance. Minerals resources in the
Nubian Formation, Supporting report, Roma, no. 4, 1986.
[26] A. Fuganti, J. Morteani, G.Grundmann, “Oolites Ironore Deposits in the
Nubian Formation of the Wadi Halfa Area (northen Sudan” in Mattheis,
G., Schanddelmeier, H. (eds) Current research in Africa Earth Science.
Balkema, Rotterdam, pp. 379-382, 1987.
[27] K. Germann, and K. Fischer, “Lateritische Verwitterungsprodukte in der
Nubischen Gruppe Oberagyptens und des Nordsudans”, Nachr. Dt. Geo.
Ges., vol.39, pp.18-19, 1988.
[28] K. Germann, K. Fischer, and T. Schwarz, “Accumulation of Lateritic
Weathering Products (Kaolins, bauxitic laterites, ironstone) in
sedimentary basins in northern sudan”, Berliner geowiss, Abh. (A), vol.
120, no.1, pp.109-148, 1990.
[29] E. Klitzsch, and A. Lejal-Nicol, “Flora and Fauna from Strata in
Southern Egypt and Northern Sudan”, –Berliner Geowiss. Abh. (A),
Berlin, vol. 50, pp. 47-79, 1984.
[30] G. Linck, and W. Becker, 1925 “Uber Einen Eisenoolith (Minette) von
Wadi Halfa”, Chem. Erde, vol. 2, pp.134-136, 1925.
[31] E. M Moslim,“Beneficiation Studies on low grade iron ore, Wadi Halfa
area, Northern Sudan”. Ph.D. Thesis, Faculty of Engineering Sciences,
Omdurman University, Sudan, 2010.
[32] A. Mucke, 2000. “Environmental Condition in the Late Cretaceous
African Tethys: Conclusion from a microscope-microchemical study of
ooidal iron stone of Egypt, Sudan and Nigeria”, J. of Africa Earth
Science, vol. 30, no. 1, pp. 25-45, 2000.
[33] A. A. S. Seifelnassr, E. M. Moslim, A.M. Abouze, “Effective Processing
of Low-Grade Iron Ore Through Gravity and Magnetic Separation
Techniques”, Physicochem. Probl. Miner. Process,vol. 48, no.2, pp.
567−578, May 2012.
[34] A. Zitzmann,“The Iron Ore Deposits of the Arab Republic of Egypt”, In:
Zitzmann, A. (ed.), The iron ore deposits of Europe and adjacent Areas,
vol. 1, Hannover, 1976, pp.129-133.
[35] V. Hernandez1, K. Peake, A. Dalvi1, R. Brown1, J. Olurin1, T.
O’Farrell, M. Zhou, B. Liu, I. Cameron, “Process Development of a
New DRI Technology for Oolitic Iron Ores”, AISTech Proceedings, pp.
519-526, 2013.
[36] V. Hernandez, R. Brown, S., Chang, A. Dalvi,, M, Oliazadeh and., K.,
Peake, “Beneficiation of oolitic ores”, 46 Annual Canadian Minerals
Processors Operators Conf., 2014, Ottawa, Ontario January, pp. 21-23.
@article{"International Journal of Earth, Energy and Environmental Sciences:71341", author = "M. Nafi and A. El Amein and M. El Dawi and K. Salih and O. Elbahi and A. Abou", title = "Wadi Halfa Oolitic Ironstone Formation, Wadi Halfa and Argein Areas, North Sudan", abstract = "In present study, a large deposit of oolitic iron ore of
Late Carboniferous-Permotriassic-Lower Jurassic age was discovered
in Wadi Halfa and Argein areas, North Sudan. It seems that the iron
ore mineralization exists in the west and east bank of the River Nile
of the study area that are found on the Egyptian-Sudanese border.
The Carboniferous-Lower Jurassic age strata were covered by 67
sections and each section has been examined and carefully described.
The iron-ore in Wadi Halfa occurs as oolitic ironstone and contained
two horizons: (A) horizon and (B) horizon. Only horizon (A) was
observed in southern Argein area. The texture of the ore is variable
depending on the volume of the component. In thin sections, the
average of the ooids was ranged between 90%-80%. The matrix
varies between 10%-20% by volume and detritus quartz in other
component my reach up to 30% by volume in sandy massive ore.
Ooids size ranges from 0.2mm-1.00 mm on average in very coarse
ooids may attend up to 1 mm in size. The matrix around the ooids is
dominated by iron hydroxide, carbonate, fine, and amorphous silica.
The probable ore reserve estimate of 1.234 billion at a head grade of
41.29% Fe for the Wadi Halfa Oolitic Ironstone Formation. The iron
ore shows higher content of phosphorus ranges from 6.15% to 0.16%,
with mean 1.45%. The new technology Hatch–Ironstone Chloride
Segregation (HICS) can be used to produce commercial-quality of
iron and reduce phosphorus and silica to acceptable levels for steel
industry. The presence of infrastructures in addition to the presence
of massive quantities of iron ore would make exploitation
economically.", keywords = "HICS, Late Carboniferous age, Oolitic iron ore,
phosphorus.", volume = "9", number = "10", pages = "1272-6", }
