TY - GEN
T1 - Weathering and alteration in tuzla geothermal field
T2 - 9th International Multidicsciplinary Scientific Geoconference and EXPO, SGEM 2009
AU - Kepekli, T. Aykan
AU - Bozkurtoǧlu, Erkan
AU - Suner, Fikret
PY - 2009
Y1 - 2009
N2 - Çanakkale district, Tuzla region in Turkey houses one of the major geothermal fields of Turkey. Tuzla geothermal field, with its 173 °C temperature is also an important site of weathering and alteration occurrence. Weathering and alteration develops in many different irregular forms and stages in the field. The regional geology consist of volcanics, such as rhyolites, latites, andesites and pyroclastics. Volcanics in the field had been weathered and altered in various stages. Gradual weathering from the outer walls of the rocks due to atmospherical effects are seen together with extensively fractured rocks that are weathered to almost completely fall apart. The outlined alteration also shows different characteristics in relation to weathering. Gradual alteration developing from outer wall is possible as well as alteration developing from inner rock bodies and pockets of alteration products of irregular sizes are seen in the field. It is possible to see large pockets of alteration development just as it is possible to find very small pockets of extensively altered zones both of which develop from likewise rocks. In terms of types of alteration products, Silicified zones, montmorillonite, kaolinnite and Al-Fe oxide zones were encountered in the field. The aim of this study is to reveal the formation mechanisms of the weathering and alteration development in the Tuzla geothermal field and to investigate the process by petrographical and geochemical points of view. During polarized microscope studies, weathering and alteration development patterns were classified. Different forms of mineral alteromorphs were investigated together with different weathering patterns. Also 16 rock samples from altered volcanic rocks in the geothermal field were gathered and chemically analyzed by means of ICP-AES method for major elements. Aluminum behavior is important in weathering studies. The Al2O3 content of the samples change from %13.72 to %20.30 likewise SiO2 change from %57.39 to %70.08. The variation in the results are better seen on elementary correlation diagrams. These evaluations together with petrographical data indicate that, multi stage discontinuous development of tectonism with formation of widespread network of structural discontinuities in Tuzla field caused the irregular weathering and alteration occurrences by enabling thermal fluids percolate extensively in the massively fractured rocks.
AB - Çanakkale district, Tuzla region in Turkey houses one of the major geothermal fields of Turkey. Tuzla geothermal field, with its 173 °C temperature is also an important site of weathering and alteration occurrence. Weathering and alteration develops in many different irregular forms and stages in the field. The regional geology consist of volcanics, such as rhyolites, latites, andesites and pyroclastics. Volcanics in the field had been weathered and altered in various stages. Gradual weathering from the outer walls of the rocks due to atmospherical effects are seen together with extensively fractured rocks that are weathered to almost completely fall apart. The outlined alteration also shows different characteristics in relation to weathering. Gradual alteration developing from outer wall is possible as well as alteration developing from inner rock bodies and pockets of alteration products of irregular sizes are seen in the field. It is possible to see large pockets of alteration development just as it is possible to find very small pockets of extensively altered zones both of which develop from likewise rocks. In terms of types of alteration products, Silicified zones, montmorillonite, kaolinnite and Al-Fe oxide zones were encountered in the field. The aim of this study is to reveal the formation mechanisms of the weathering and alteration development in the Tuzla geothermal field and to investigate the process by petrographical and geochemical points of view. During polarized microscope studies, weathering and alteration development patterns were classified. Different forms of mineral alteromorphs were investigated together with different weathering patterns. Also 16 rock samples from altered volcanic rocks in the geothermal field were gathered and chemically analyzed by means of ICP-AES method for major elements. Aluminum behavior is important in weathering studies. The Al2O3 content of the samples change from %13.72 to %20.30 likewise SiO2 change from %57.39 to %70.08. The variation in the results are better seen on elementary correlation diagrams. These evaluations together with petrographical data indicate that, multi stage discontinuous development of tectonism with formation of widespread network of structural discontinuities in Tuzla field caused the irregular weathering and alteration occurrences by enabling thermal fluids percolate extensively in the massively fractured rocks.
KW - Alteromorphs
KW - Çanakkale
KW - Tuzla
KW - Weathering and alteration
UR - http://www.scopus.com/inward/record.url?scp=84890376167&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84890376167
SN - 9789549181814
T3 - 9th International Multidicsciplinary Scientific Geoconference and EXPO - Modern Management of Mine Producing, Geology and Environmental Protection, SGEM 2009
SP - 1
EP - 8
BT - 9th International Multidicsciplinary Scientific Geoconference and EXPO - Modern Management of Mine Producing, Geology and Environmental Protection, SGEM 2009
Y2 - 14 June 2009 through 19 June 2009
ER -
