Your search keyword '"Bhajmohan Singh"' showing total 6 results

1. RESIDENCE TIME DISTRIBUTION (RTD) AND GOODNESS OF MIXING (GM) DURING CO2-INJECTION IN TWIN-SCREW EXTRUSION PART I: RTD STUDIES

Author

Bhajmohan Singh and Syed S.H. Rizvi

Subjects

Plug flow, Volume (thermodynamics), Chemistry, General Chemical Engineering, Plastics extrusion, Mixing (process engineering), Mineralogy, Continuous stirred-tank reactor, Extrusion, Mechanics, Residence time (fluid dynamics), Residence time distribution, Food Science

Abstract

The residence-time distribution (RTD) studies are needed to characterize mixing conditions, flow patterns, and the extent of conversions and reactions of the biopolymers in any plasticating or cooking extruder. For the supercritical fluid extrusion process (SCFX), mixing of the fluid and starch-based biopolymers is an important step affecting cell nucleation and growth. RTD was studied in the mixing zone of the extruder, where CO 2 and gelatinized starch are brought together. Three levels of each of the process variables (screw speed and CO 2 injection pressure) were investigated, using specially designed apparatus for color-dye injection, and a die-restrictor to change the pressure profile and holdup volume in the extruder. Control RTD plots were for no CO 2 injection conditions at the same pressure, and the RTD of the full extruder section. Experimental RTDs were evaluated by: (1) the Wolf-White model, (2) a cascade of continuously stirred reactors (CSTR) model and (3) a model based on plug-flow in series with cascade of CSTRs. The last approach was most successful in capturing all aspects of the observed RTD curves including their tails. Injection of CO 2 at the highest pressure (110.3 bar) increased the RTD compared to no CO 2 -injection conditions. There were significant differences in the plug flow component of the RTD as well as differences in average residence time as a function of both screw speed and CO 2 injection pressure conditions.

Published

1998

2. RESIDENCE TIME DISTRIBUTION (RTD) AND GOODNESS OF MIXING (GM) DURING CO2-INJECTION IN TWIN-SCREW EXTRUSION PART II: GM STUDIES

Author

BHAJMOHAN SINGH and SYED S.H. RIZVI

Subjects

General Chemical Engineering, Food Science

Published

1998

3. Measurement of Diffusivity and Solubility of Carbon Dioxide in Gelatinized Starch at Elevated Pressures

Author

Syed S. H. Rizvi,† and, Peter Harriott, and Bhajmohan Singh

Subjects

Supercritical carbon dioxide, Starch, General Chemical Engineering, Mixing (process engineering), Mineralogy, General Chemistry, Thermal diffusivity, Industrial and Manufacturing Engineering, chemistry.chemical_compound, chemistry, Chemical engineering, Carbon dioxide, Extrusion, Solubility, Bar (unit)

Abstract

The effect of pressure on diffusivity in binary or multicomponent systems such as gas−liquid or gas−solid systems has rarely been reported. The diffusivity of carbon dioxide in extruded gelatinized starch has been measured in this study at pressures of up to 117 bar (1700 psi). Such data are fundamentally not only useful in the understanding of the supercritical carbon dioxide (SC-CO2)/starch systems but also can be useful for the design and control of processes utilizing carbon dioxide injection or mixing in starch-based matrices. The methodology developed here was an improvement over a previously reported technique, enabling high-pressure data to be obtained. The diffusivity of carbon dioxide in the melt was found to be a strong function of pressure but not of moisture content in the range of 34.5−39% (w/w) studied. This diffusivity value decreased from 7.5 × 10-10 to 0.9 × 10-10 m2/s as pressure was increased from atmospheric to 115 bar. The low-pressure diffusivity value was only an order of magnitude...

Published

1996

4. Design and Economic Analysis for Continuous Countercurrent Processing of Milk Fat with Supercritical Carbon Dioxide

Author

Bhajmohan Singh and Syed S.H. Rizvi

Subjects

Rate of return, Index (economics), Chromatography, Supercritical carbon dioxide, Payback period, Fractionation, Pulp and paper industry, Supercritical fluid, Pilot plant, Genetics, Anhydrous, Environmental science, Animal Science and Zoology, Food Science

Abstract

Fractionation of anhydrous milk fat using supercritical CO 2 provides various fractions of different physicochemical and functional properties that should enhance its utilization. Based on a mass transfer study of a pilot plant setup of a continuous countercurrent fractionation of anhydrous milk fat by supercritical CO 2 , economic analysis of manufacturing plants was improved. Equipment was sized for six commercial-scale plant capacities, ranging from 800 to 10,000 tonnes/yr of anhydrous milk fat. Analysis considers capital investment, annual manufacturing expenses, revenues, sales, and payback time. The equipment scale-up index was .53, which is the usual literature value. For a plant processing 10,000 tonnes/yr of anhydrous milk fat, conversion cost is $.15/kg over a base price of $1.98/kg. Such a plant would have a capital investment of $4.4million and annual manufacturing costs of $21.1million. Example selling prices are calculated assuming a desired rate of return of 20% or a payback period of 5 yr, which further adds $.11/kg to the base price and conversion cost, yielding annual sales of $22.2million. The economics of the process are attractive, even though further optimization of operating conditions has not yet been performed, primarily because of the continuous nature of the process, the heat regeneration systems designed, and the large plant capacities considered. Thus, the notion that supercritical processing is expensive may be valid only for batch or semi-continuous systems rather than for continuous large-scale systems such as those studied herein.

Published

1994

5. Solubilities of fatty acids, fatty acid esters, triglycerides, and fats and oils in supercritical carbon dioxide

Author

Zer-Ran Yu, Bhajmohan Singh, John A. Zollweg, and Syed S.H. Rizvi

Subjects

chemistry.chemical_classification, Degree of unsaturation, Supercritical carbon dioxide, Chromatography, General Chemical Engineering, Glyceride, Supercritical fluid extraction, Fatty acid, Condensed Matter Physics, Solvent, symbols.namesake, chemistry, symbols, Organic chemistry, Physical and Theoretical Chemistry, van der Waals force, Solubility

Abstract

Using supercritical carbon dioxide (SC-CO2) as the solvent, the solubility of methyl esters, ethyl esters, fatty acids, triglycerides, and fats and oils were studied over a range of temperature and pressures. Equilibrium data from the literature were correlated using the Peng-Robinson equation of state. With the van der Waals (VDW) and Panagiotopoulos and Reid (PR) mixing rules. The data were also correlated using statistical methods and the solubilities predicted by various models were compared with experimental solubilities at the temperature and pressure conditions studied. The equation of state method provided good agreement of theory with experiment for the solubilities of fatty acids and their esters, but less so for the triglycerides, fats and oils. The statistical methods on the other hand, not only predicted the solubilities of fatty acids and fatty acid esters well, but also gave good agreement with the solubilities of triglycerides, fats and oils. Chain length, degree of unsaturation, and functional groups in compounds are known to affect the vapor pressures of these compounds which in turn influence their solubilities in SCCO2. As expected solubilities decreased in going from fatty acid esters, to fatty acids, to triglycerides.

Published

1994

6. Modeling and process control of twin-screw cooking food extruders

Author

Steven J. Mulvaney and Bhajmohan Singh

Subjects

Engineering, business.industry, Control system, Multivariable calculus, Control variable, Process (computing), PID controller, Process control, Control engineering, Decoupling (cosmology), business, Transfer function, Food Science

Abstract

Twin-screw extruders exhibit highly non-linear and interactive dunamic behavior which makes their modeling and control difficult. Transfer function models determined from experimentally observed behavior are not only adequate in capturing the dynamics of the extrusion process, but are also invaluable tools in the design of multivariable control strategies for extruders. Suitable forms of transfer function models are taken from the literature to characterize a typical process used in cornmeal extrusion. The parameters for the transfer function models are also adapted from the literature and are used as an example in process control analysis and design. The degree of process loop interactions expected in this extrusion process for various controlled variable/manipulated variable pairings is studied using the relative gain array (RGA) technique. For minimal interaction, the MIMO system with screw speed and barrel heating as manipulated variables and product temperature and motor torque as controlled variables was found best. This system, using feed rate and moisture content as input disturbances and with realistic constraints on the manipulated variables, was simulated using standard software for controlled system performance. PID controllers without additional decoupling gave adequate performance results for various controlled system requirements.

Published

1994