Geoscience Reference
In-Depth Information
Andrejko, M. J., Fiene, F. and Cohen, A. D. (1983) Comparison of ashing techniques for deter-
mination of the inorganic content of peats.
Testing of Peats and Organic Soils
, ASTM STP
820, pp. 5-20.
Andriesse, J. P. (1988) Permanent constraint in peat reclamation. In:
Nature and Management
of Tropical Peat Soils
, FAO Soil Bulletin 59, pp. 81-91.
Andriesse, J. P. (1991) Constraints and opportunities for alternative use options of tropical peat
land.
Proc. International Symposium on Tropical Peat Land
, Kuching, Sarawak, Malaysia
(ed. B. Y. Aminuddin), pp. 1-6.
Anggraini, V. (2006) Shear strength improvement of peat soil due to consolidation.
Master
Dissertation
, Universiti Teknologi Malaysia, Malaysia.
Arman, A. (1969) A definition of organic soils (an engineering identification).
Engineering
Research Bulletin No. 101
, Louisina State University, Division of Engineering Research, for
Louisiana Department of Highways.
Arman, A. (1971) Discussion to “Ignition loss and other properties of peats and clays from
Avonmouth King's Lynn and Cranberry Moss''.
Géotechnique
,
21
, 418-21.
Asadi, A. (2010) Electro-osmotic properties and effects of pH on geotechnical behaviour of peat.
PhD Dissertation
, University Putra, Malaysia.
Asadi, A. and Huat, B. B. K. (2009a) Electrokinetic phenomena in tropical peat.
Proc. Inter-
national Symposium on Ground Improvement Technologies and Case Histories, ISGI09
,
Singapore.
Asadi, A. and Huat, B. B. K. (2009b) Study of electroosmotic mechanisms on peat.
Regional
Conference on Environmental and Earth Resources, RCER09
, University Malaysia Pahang,
Malaysia.
Asadi A. and Huat B. B. K. (2009c) Electrical resistivity of tropical peat.
Electronic Journal of
Geotechnical Engineering
,
14
, 1-9.
Asadi, A. and Huat, B. B. K. (2010) Ground improvement technologies and case histories.
Electrokinetic phenomena in tropical peat.
Research Publishing GEOSS
, pp. 525-31.
Asadi, A., Huat, B. B. K. and Mohamed, T. A. (2007) Electrokinetic and its applications in
geotechnical and environmental engineering. civil and environmental engineering.
World
Engineering Congress 2007.
Institution of Engineers, Penang, Malaysia, pp. 348-54.
Asadi A., Huat, B. B. K., Hanafi, M. M., Mohamed, T. A. and Shariatmadari, N. (2009d)
Role of organic matter on electroosmotic properties and ionic modification of organic soils.
Geosciences
,
13
(2), 175-81.
Asadi, A., Huat, B. B. K. and Shariatmadari, N. (2009e) Keeping electrokinetic phenomena in
tropical peat into perspective.
European Journal of Scientific Research
,
29
(2), 281-8.
Asadi, A., Huat, B. B. K., Hassim, M. M., Mohamed, A. T., Hanafi, M. M. and Shariatmadari,
N. (2009f) Electroosmotic phenomena in organic soils.
American Journal of Environmental
Sciences
,
5
(3), 310-14.
Asadi, A., Huat, B. B. K., Hanafi, M. M., Mohamed, T. A. and Shariatmadari, N. (2010) Physic-
ochemical sensitivities of tropical peat to electrokinetic environment.
Geosciences
,
14
(1),
65-75.
Asadi, A., Huat, B. B. K., Hanafi, M. M., Mohamed, T. A. and Shariatmadari, N. (2011a).
Chemico-geomechanical effects of pore fluid pH on tropical peat related to controlling
electrokinetic phenomena.
Journal of the Chinese Institute of Engineers
,
34
(4), 481-7.
Asadi, A., Moayedi, H., Huat, B. B. K., Zamani, B. F., Parsaie, A. and Sojoudi, S.
(2011b) Prediction of zeta potential for tropical peat in the presence of different cations
using artificial neural networks.
International Journal of Electrochemical Science
,
6
(4),
1146-58.
Asadi, A., Huat, B. B. K., Moayedi, H., Shariatmadari, N. and Parsaie, A. (2011c) Electro-
osmotic permeability coefficient of peat with different degree of humification.
International
Journal of Electrochemical Science
,
6
(10), 4481-92.
