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Igwe, Jeremiah, Omereoha, Amarachi, Igwe, Uchenna. (1402). Effect of moisture absorption and temperature on the thermal properties of dried tigernut. , 6(2), 63-67. doi: 10.22059/jfabe.2023.364314.1150
Jeremiah Friday Igwe; Amarachi Glory Omereoha; Uchenna S Igwe. "Effect of moisture absorption and temperature on the thermal properties of dried tigernut". , 6, 2, 1402, 63-67. doi: 10.22059/jfabe.2023.364314.1150
Igwe, Jeremiah, Omereoha, Amarachi, Igwe, Uchenna. (1402). 'Effect of moisture absorption and temperature on the thermal properties of dried tigernut', , 6(2), pp. 63-67. doi: 10.22059/jfabe.2023.364314.1150
Igwe, Jeremiah, Omereoha, Amarachi, Igwe, Uchenna. Effect of moisture absorption and temperature on the thermal properties of dried tigernut. , 1402; 6(2): 63-67. doi: 10.22059/jfabe.2023.364314.1150

Effect of moisture absorption and temperature on the thermal properties of dried tigernut

Journal of Food and Bioprocess Engineering
مقاله 9، دوره 6، شماره 2، بهمن 2023، صفحه 63-67    اصل مقاله (799.26 K)
نوع مقاله: Original research
شناسه دیجیتال (DOI): 10.22059/jfabe.2023.364314.1150
نویسندگان
Jeremiah Friday Igwe1؛ Amarachi Glory Omereoha1؛ Uchenna S Igwe* 2
1Department of Food Technology, Federal Polytechnic Nekede Owerri Imo State, Nigeria
2Technological University Dublin Ireland
چکیده
The effect of moisture absorption and temperature on the thermal properties of dried tigernut was studied. The
proximate composition includes moisture content ranging from 0.97% to 6.45%, Ash content from 0.63% to 1.93%,
fat from 12.95% to 16.63%, crude fiber from 18.71% to 33.78%, and carbohydrate from 43.58% to 58. 68%. The
thermal properties were determined by using the value obtained from the proximate composition and calculated
using the Okoi and choi’s equation. The value obtained from the thermal properties are thermal conductivity which
ranged from 0.28866 w/mo
c to 0.3562 w/mo
c, thermal diffusivity ranging from 0.1123m2/s to 0.2172ms/s and
specific heat capacity ranging 1.8484 kg/kgo
c to 1.9261 kg/kgo
c. The percentage moisture absorption capacity was
also analyzed in the sample which ranged from 46.6% to 94.4%. Thermal properties refer to the response in their
temperature. The result obtained showed that the sample conditioned at 100℃ had the highest thermal properties
and this implied that the thermal properties of food is generally influenced by moisture, temperature and their
proximate composition. Further studies should be carried out on the Rheological properties of tigernut, kinetic rate
of reaction of the nutrient with respect to time and the thermal properties should be utilized for the design of
equipment and for the mathematical model in terms of simulation and mass heat transfer in the material.
کلیدواژه‌ها
Dried Tigernut؛ Moisture Absorption؛ Temperature؛ Thermal Properties
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