کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
6401503 | 1628532 | 2016 | 12 صفحه PDF | دانلود رایگان |
- Effect of reciprocation agitation processing on heat transfer was evaluated.
- U and hfp values varied from 524 to 1124Â W/m2oC and 549-1610Â W/m2oC respectively.
- Reciprocation intensity enhances heat transfer but also product damage.
- Quality loss due to thermal and agitation damage were optimized.
- Reciprocation intensity around 18.0Â msâ2 was found optimal.
Overall (U) and fluid-to-particle heat-transfer coefficients (hfp) in canned particulates (Nylon spheres) suspended in non-Newtonian fluid (CMC dispersions) undergoing reciprocation agitation thermal processing was evaluated in a pilot-scale reciprocating retort. Five influencing process variables affecting U and hfp were selected. A CCRD and a 3 Ã 3 Ã 2 full-factorial design of experiments were used to relate the coefficients U and hfp to the various process variables viz. reciprocation frequency; reciprocation amplitude; temperature; liquid viscosity and headspace.U and hfp varied in the range 524-1124 W/m2oC and 549-1610 W/m2oC respectively. Analysis of variance showed frequency, amplitude, liquid viscosity, headspace and temperature to be significant factors for hfp, and frequency, amplitude and liquid viscosity for U (p < 0.001). Increasing the reciprocation frequency from 1 to 4 Hz almost doubled the value of both the heat transfer coefficients. Similarly increasing the reciprocation amplitude from 5 to 25 cm, resulted in 30-35% increase in the values of heat transfer coefficients. Overall with increase in temperature, frequency, amplitude, and headspace, associated hfp and U values also increased, but with increasing liquid viscosity, both hfp and U showed a decrease. Finally, optimization of processing conditions was carried out to minimize quality losses due to particle motion (agitation intensity) and thermal damage (severity of thermal processing).
Journal: LWT - Food Science and Technology - Volume 65, January 2016, Pages 185-196