DEVELOPMENT OF PILOT PLANT FOR BIO-ETHANOL PROCESSING
Abstract
The paper outlines achievements obtained in developing a pilot bio-ethanol plant at the
Department of Chemical and Mining Engineering (CME), University of Dar es Salaam. The
pilot plant consists of: 30 L inoculums tank; 1,700 L fermenter; 1,500 L/day distillation
column; and ancillary equipment. The prototype is a platform intended to be used for
technology demonstration and research by graduate and undergraduate students studying
the production of bio-ethanol using traditional and non-traditional raw materials like coffee
mash, cashew fruit, and sisal inulin. The equipment has been developed using locally
available engineering resources and the distillation column with 18 sieve tray measures 0.5
m diameter 7 m high operates at atmospheric pressure. The condenser is cooled by 15 o C
chilled water from utility lines and the reboiler is powered by 63 kW boiler installed at
CME. Although the system includes biological, chemical and mechanical engineering
details, only the important design issues are presented. A MATLAB code was developed for
estimating the number of theoretical plates using the Mc Cabe-Thiele method. The water-
ethanol vapour liquid equilibrium VLE data was obtained using relative volatilities
estimated by Antoine equations for vapour pressure. The process design was done using
various simulation packages and custom programs like Microsoft Excel for mass balance,
Microsoft Visio for process and instrumentation (P&I) diagram AutoCAD software for
mechanical engineering drawings. After performing hydraulic leak tests, the prototype was
tested using blackstrap molasses 80 o brix which was prepared for fermentation using
dilution and inoculums formulations developed in Microsoft Excel for water dilution, yeast
and nutrients like (NH 4 ) 2 SO 4, KH 2 PO 4, MgCl 2. A batch mash boiling test conducted on the
column showed that the response of tray temperatures exhibited first-order delay behavior
with an average lag of 17 minutes and a delay of 50 -65 minutes depending on tray distance
from the reboiler. Due to lack of feedback control equipment specifically on-line
composition analyzers and suitable actuators, continuous control of ethanol composition
could not be undertaken. It is planned to procure pertinent control hardware during the
next phase of the project. However the batch test gave initial ethanol purity of 80% which
decreased as the ethanol content in the still was continuously depleted.
Department of Chemical and Mining Engineering (CME), University of Dar es Salaam. The
pilot plant consists of: 30 L inoculums tank; 1,700 L fermenter; 1,500 L/day distillation
column; and ancillary equipment. The prototype is a platform intended to be used for
technology demonstration and research by graduate and undergraduate students studying
the production of bio-ethanol using traditional and non-traditional raw materials like coffee
mash, cashew fruit, and sisal inulin. The equipment has been developed using locally
available engineering resources and the distillation column with 18 sieve tray measures 0.5
m diameter 7 m high operates at atmospheric pressure. The condenser is cooled by 15 o C
chilled water from utility lines and the reboiler is powered by 63 kW boiler installed at
CME. Although the system includes biological, chemical and mechanical engineering
details, only the important design issues are presented. A MATLAB code was developed for
estimating the number of theoretical plates using the Mc Cabe-Thiele method. The water-
ethanol vapour liquid equilibrium VLE data was obtained using relative volatilities
estimated by Antoine equations for vapour pressure. The process design was done using
various simulation packages and custom programs like Microsoft Excel for mass balance,
Microsoft Visio for process and instrumentation (P&I) diagram AutoCAD software for
mechanical engineering drawings. After performing hydraulic leak tests, the prototype was
tested using blackstrap molasses 80 o brix which was prepared for fermentation using
dilution and inoculums formulations developed in Microsoft Excel for water dilution, yeast
and nutrients like (NH 4 ) 2 SO 4, KH 2 PO 4, MgCl 2. A batch mash boiling test conducted on the
column showed that the response of tray temperatures exhibited first-order delay behavior
with an average lag of 17 minutes and a delay of 50 -65 minutes depending on tray distance
from the reboiler. Due to lack of feedback control equipment specifically on-line
composition analyzers and suitable actuators, continuous control of ethanol composition
could not be undertaken. It is planned to procure pertinent control hardware during the
next phase of the project. However the batch test gave initial ethanol purity of 80% which
decreased as the ethanol content in the still was continuously depleted.
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