BRAC University Publicationshttp://hdl.handle.net/10361/312013-05-26T01:13:18Z2013-05-26T01:13:18ZBRAC University Postgraduate Prospectus 2010BRAC Universityhttp://hdl.handle.net/10361/20842013-03-02T07:13:51Z2010-01-01T00:00:00ZBRAC University Postgraduate Prospectus 2010
BRAC University
2010-01-01T00:00:00ZBRAC University Annual Report 2010BRAC Universityhttp://hdl.handle.net/10361/20822013-03-02T07:11:31Z2010-12-31T00:00:00ZBRAC University Annual Report 2010
BRAC University
2010-12-31T00:00:00ZA comparative study on dispersivity of Arsenic among Surma, Sari and Volaganj sandIslam, ShrifulRahman, M.S.Das, R.K.http://hdl.handle.net/10361/18022013-03-02T07:04:09Z2011-01-01T00:00:00ZA comparative study on dispersivity of Arsenic among Surma, Sari and Volaganj sand
Islam, Shriful; Rahman, M.S.; Das, R.K.
Transport mechanism of Arsenic (As) through the Surma, Sari and Volaganj sand is the prime
concern of this study. Three column leaching tests were performed to find the dispersivity property
of As. Numerous physical properties of these sand samples were determined and it shows Volaganj
sand is most permeable. From the collected data experimental and theoretical breakthrough curve
(BTC) were prepared and compared with each other. The value of dispersion coefficient and Index
of dispersion were calculated. Dispersion coefficient (773.763cm2/min) and index of dispersion
(844.3cm2/min) was higher for Surma sand. The leaching rate was found higher for higher pore
water velocity of the Volaganj sand. The study also reveals that there is a significant difference
between theoretical and experimental breakthrough curve. So not only convection/dispersion but
also other processes such as adsorption, reaction with other compound are associated with the
movement of arsenic through the sand medium.
2011-01-01T00:00:00ZUse of Mustard oil as an alternative and renewable substitute of Fossil dieselHasib, Z.M.Rahman, K.A.Alam, M.M.http://hdl.handle.net/10361/18012013-03-02T07:04:05Z2011-01-01T00:00:00ZUse of Mustard oil as an alternative and renewable substitute of Fossil diesel
Hasib, Z.M.; Rahman, K.A.; Alam, M.M.
Energy is the prerequisite for modern civilization. Fossil fuel is still the main source of energy. But
the endless consumption of fossil fuel has brought its reserve about to an end. As a result, fuel prices
are growing as a consequence of spiraling demand and diminishing supply. So we are always in search
of alternative and cost effective fuels, to meet our need. Diesel engines are more efficient and costeffective
than other engines. So diesel engines have versatile uses (i.e. automobiles, irrigation, power
plants etc.). That is why; consumption of diesel fuel is much higher than other gasoline fuels. This
paper estimates the feasibility of mustard oil as an alternative fuel for diesel engine. Mustard is a
renewable plant, widely growing in almost everywhere in Bangladesh. In this study, mustard oil is
converted to bio-diesel by well known trans-esterification reaction. Bio-diesel has different fuel
properties than diesel fuel. So other than modification of the engine or the fuel supply system, blends
of bio-diesel (i.e. B20, B30, B50 etc,) has been used. Finally, a comparison of engine performance for
different blends of bio-diesel has been carried out to choose the correct blend for different operating
conditions.
2011-01-01T00:00:00Z