Research Article
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Year 2021, Volume: 2 Issue: 2, 460 - 471, 31.12.2021

Abstract

References

  • Adekoyeni OO, Fagbemi SA and Ismaila AR (2018). Ofada rice identity, physical qualities and processing technology options for upgrading:A review. Annual Research & Review in Biology 23(2): 1-9. Article no. ARRB.38938
  • Akbari S and Chayjan RA (2017): Moisture content modelling of thermal properties of persimmon (cv. 'Kaki'). Research Agricultural Engineering, 63: 71-78.
  • Anita C, Ezeagba, Ike S. Oluka and Ejike PI (2019). Effect of moisture content and drying methods on the thermal properties of African walnut flour. The Pacific Journal of Science and Technology, 217.
  • AOAC (2000). Official Methods of Analysis 16 Ed. Association of Official Analysis Chemist. Washington DC.USA.
  • Arinola SO and Jeje OA (2017). Drying characteristics and thermalproperties of two local varieties of unripe plantain. American Journal of Science and Technology, 4(5): 74-79.
  • Asiru MA, Agada IG and Kolade O (2018). Impacts of rice importation on Nigeria’s economy. Journal of Scientific Agriculture, 2: 71-75..
  • Asuming-Brempong S and Osei-Asare Y (2007). Has imported rice crowded-out domestic rice production in Ghana? What has been the role of policy? African Association of Agricultural Economists (AAAE) Conference Proceedings.
  • Aviara NA and Haque MA (2001). Moisture dependence of thermal properties of shea nut kernel. Journal of Food Engineering, 47: 109-113.
  • Azadbakht M, Khoshtaghaza MH, Ghobadian B and Minaei S (2013). Thermal properties of soybean pod as a function of moisture content and temperature. American Journal of Food Science and Technology, 1(2): 9-13.
  • Bandumula N (2018). Rice production in Asia: Key to global food security. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 88(4): 1323-1328.
  • Bart-Plange A, Asare V and Addo A (2009). Thermal conductivity of maize and cowpea. Journal of Engineering and Technology, 2(3): 6-11.
  • Bhat FM and Riar CS (2017). Physicochemical, cooking, and textural characteristics of grains of different rice (Oryza sativa L.) cultivars of temperate region of India and their interrelationships. Journal of Texture Studies, 48(2): 160-170.
  • Božiková M (2003). Thermophysical parameters of corn and wheat flour. Research in Agricultural Engineering, 49(4): 157-160.
  • Danbaba N, Idakwo PY, Kassum AL, Bristone C, Bakare SO, Aliyu U, Kolo IN, Abo ME, Mohammed A, Abdulkadir AN, Nkama I, Badau MH, Kabaraini MA, Shehu H, Abosede AO and Danbaba MK (2019). rice postharvest technology in Nigeria: An overview of current status, constraints and potentials for sustainable development. Open Access Library Journal, 6: e5509. emefiele.html. 2015; accessed 17.04.2017
  • Federal Ministry of Agriculture and Rural Development (2016). The agriculture promotion policy (2016-2020). Federal Ministry of Agriculture and Rural Development, Abuja, Nigeria.
  • Global Agricultural Information Network (2016). Nigeria’s grain and feed annual report. https://gain fas. usda.gov/Recent%20GAIN%20Publications/Grain%20and%20Feed%20Annual_Lagos_Nigeria_4-21-2016. pdf. 2016; Accessed 22.02.2021.
  • Heldman DR (2001). Prediction models for thermophysical properties of foods. In food processing operations modeling, design, and analysis; Irudayaraj, J., Ed.; Marcel Dekker, Inc.: New York, 2001; 1-24.
  • Ide PE, Eze PC and Offor BC (2019). Effect of moisture content on the physicomechanical properties of Mucuna sloanei. International Journal of Scientific Engineering and Research (IJSER), 7(2): 91-96.
  • Ide PE, Ike O and Eze PC (2020) Effect of moisture content on the thermal properties of horse-eye bean seeds relevant to its processing. University of Belgrade Faculty of Agriculture Institute of Agricultural Engineering. Scientific Journal Agricultural Engineering, Year XLV No. 4, pp: 71 – 80.
  • JICA (2013). Status of NRDS Implementation in Nigeria, Presentation at the Fifth General Meeting of CARD, 5-6 February 2013, Dakar, Senegal. JICA 2013 Status of NRDS Implementation in Nigeria, Presentation at the Fifth General Meeting of CARD, 5-6 February 2013, Dakar, Senegal.
  • Jibril N, Yadav KC, Binni MI and Kabir MH (2016). Study on effect of moisture content on thermal properties of bambara groundnut (Vigna subterranea l. Verdc.) seed. Report and Opinion, 4(6): 52-58.
  • Jideani VA (2005). Characteristics of local pearl millet (Pennisetum glaucum) grains. Nigerian Food Journal, 23(1): 193-204.
  • Kamath S, Puri VM and Manbeck HB (1994). Flow property measurement using the Jenike cell for wheat flour at various moisture contents and consolidation times. Powder Technology, 81: 293-297.
  • Kim YS, Flores RA, Chung OK and Bechtel DB (2003). Physical, chemical, and thermal characteristics of wheat flour milling coproducts. Journal of Food Process Engineering, 26(5): 469-488.
  • Lan Y, Fang Q, Kocher M and Hanna MA (2000). Thermal properties of tapioca starch. International Journal of Food Properties, 3(1): 105-116.
  • Mahapatra AK, Lan Y and Harris DL (2011). Influence of moisture content and temperature on thermal conductivity and thermal diffusivity of rice flours. International Journal of Food Properties, 14(3): 675-683.
  • Mahapatra AK, Melton SL and Isang EM (2013). Effect of moisture content on thermal properties of cowpea flours. Agricultural Engineering International: The CIGR Journal. 15(2): 251-255.
  • Maji AT, Ukwungwu MN, Danbaba N, Abo ME and Bakare SO (2017). Rice: History, Research and Development in Nigeria. In: Nahemiah, D., Nkama, I., Maji, A.T. and Ukwungwu, M.N., Eds., Rice in Nigeria, Traditional Recipes & Research Needs, Ronab Graphix Print, Bida, Nigeria, 65-84.
  • Mortaza A, Mohammad HK and Seyed RH (2008). Specific heat and thermal conductivity of berberis fruit (Berberis vulgaris). American Journal of Agricultural and Biological Sciences, 3(1); 330-336.
  • Muramatsu Y, Tagawa, A, Kasai, T. (2005). Effective thermal conductivity of rice flour and whole and skim milk powder. Journal of Food Science, 70(4): 279-287.
  • Nahemiah D, Alabi MO, Nkama I and Abo ME (2004). Utilization of rice and rice by-products in Nigeria. In: Abo, M.E. and Abdullahi, A.S., Eds., Nigerian Rice Memorabilia, Project Synergy Limited, Abuja, Nigeria, 343-349.
  • Nwachukwu IM, Agwu NM and Ezeh CI (2008). Comparative study of consumer purchase attitude of local and foreign rice in Abia State. Proceedings of 42nd meeting of Agricultural Society of Nigeria held at Ebonyi State University, Abakaliki, 19-23 October 2008; pp.764-767.
  • Oko AO, Ubi BE and Dambaba N (2012). Rice cooking quality and physico-chemical characteristics: A comparative analysis of selected local and newly introduced rice varieties in Ebonyi State, Nigeria. Food and Public Health, 2(1): 43-49.
  • Opoku A, Tabil LG, Crerar B and Shaw MD (2006). Thermal conductivity and thermal diffusivity of timothy hay. Canadian Biosystems Engineering. 48: 31-37.
  • Pokhrel A, Dhakal A, Sharma S and Poudel A (2020) Evaluation of physicochemical and cooking characteristics of rice (Oryza sativa L.) landraces of Lamjung and Tanahun districts, Nepal. Hindawi International Journal of Food Science, Volume 2020, Article ID 1589150, 11 pages.
  • Premium Times (2017). Nigeria spends $2.41b on rice importation in 3 y–Emefiele.
  • Qi F, Lan Y, Kocher MF and Hanna MA (2000). Thermal conductivity of granular rice starches. International Journal of Food Properties, 3(2): 283-293.
  • Sadiku AO and Bamgboye I (2014). Moisture dependent mechanical and thermal properties of Locust bean (Parkia biglobosa). Agricultural Engineering International: CIGR Journal 16(1): 99-106.
  • Sahin S and Sumnu SG (2006). Physical properties of foods. Springer Science Business Media, LLC., 233 Spring Street, New York, NY 10013.
  • Sandra Budžaki and Bernarda Šeruga (2015) Specific heat and thermal conductivity of the croatian unleavened dough, International Journal of Food Properties, 18:10, 2300-2311.
  • SAS (1988). SAS/STAT users guide, release 6.03, SAS institute Inc.,Carey NC.
  • Sharma S, Pokhrel A, Dhakal A and Poudel A (2020). Agro-morphological characterization of rice (Oryza sativa L.) landraces of Lamjung and Tanahun District, Nepal. Annals of Plant Sciences, 9(2): 3731-3741.
  • Shrivastava M and Datta AK (1999). Determination of specific heat and thermal conductivity of mushrooms (Pleurotus- florida). Journal of Food Engineering, 39: 255-260.
  • Singh KK and Goswami TK (2000) Thermal properties of cumin seed. Journal of Food Engineering, 45: 181-187.
  • Singh, N, Kaur L, Sodhi NS and Sekhon KS (2005). Physicochemical, cooking and textural properties of milled rice from different Indian rice cultivars. Food Chemistry, 89(2): 253-259.
  • Sowunmi FA, Omigie OC and Daniel DT (2014). Consumers’ perception on Ofada rice in Ibadan North Local Government Area of Oyo State, Nigeria. Journal of Economics and Sustainable Development, 5(16):78.
  • Thomas R, Wan-Nadiah WA and Bhat R (2013). Physiochemical properties, proximate composition, and cooking qualities of locally grown and imported rice varieties marketed in Penang, Malaysia. International Food Research Journal, 20(3): 1345-1351.

Thermal Properties of New Developed Nigerian Illa and Ekpoma Rice Flour Varieties as Effected with Moisture Content

Year 2021, Volume: 2 Issue: 2, 460 - 471, 31.12.2021

Abstract

Thermal parameters of food flour moisture content and temperature give an insight in the development and prediction of models that meet the needs of process design models, it also determine the thermal load of a particular product during handling. The bulk density (ρ), thermal conductivity (k), specific-heat capacity (Cp) and diffusivity (α) of Illa and Ekpoma rice flour were studied at varied (MC) moisture content (%) level. The results showed significance in thermal properties values at the different MC levels. The MC increased from 10.56 to 18.50%, increased the specific heat capacity (Cp) from 5.72 to 48.61kJ kg-1 C-1 and 6.84 to 29.41 kJ kg-1 C-1 for Illa and Ekpoma rice variety respectively and thermal conductivity(k) from 0.03 to 1.56 W/m0C and 0.03 to 0.38 W m-1 C-1 for Illa and Ekpoma rice flour samples. Thermal diffusivity(α) and bulk density (ρ) of the processed Illa and Ekpoma rice flour samples decreased across the MC range of 10.56 to 18.50% (d.b). Thermal diffusivity(α) decreased from 4.38 to 1.25 x 10-4 m2 s-1 and 3.42 to 1.30 x 10-4 m2 s-1 for Illa and Ekpoma rice flour respectively while the values of bulk density (ρ) decreased from 697.72 to 676.34 kg m-3 and 687.49 to 664.26 kg m-3 for Illa and Ekpoma rice flour respectively.The developed model equations can be applied in estimation of thermal parameters of rice flour. Finally, Ekpoma and Illa rice flour sample displayed good thermal characteristics and it can be used as an alternative to imported wheat flour.

References

  • Adekoyeni OO, Fagbemi SA and Ismaila AR (2018). Ofada rice identity, physical qualities and processing technology options for upgrading:A review. Annual Research & Review in Biology 23(2): 1-9. Article no. ARRB.38938
  • Akbari S and Chayjan RA (2017): Moisture content modelling of thermal properties of persimmon (cv. 'Kaki'). Research Agricultural Engineering, 63: 71-78.
  • Anita C, Ezeagba, Ike S. Oluka and Ejike PI (2019). Effect of moisture content and drying methods on the thermal properties of African walnut flour. The Pacific Journal of Science and Technology, 217.
  • AOAC (2000). Official Methods of Analysis 16 Ed. Association of Official Analysis Chemist. Washington DC.USA.
  • Arinola SO and Jeje OA (2017). Drying characteristics and thermalproperties of two local varieties of unripe plantain. American Journal of Science and Technology, 4(5): 74-79.
  • Asiru MA, Agada IG and Kolade O (2018). Impacts of rice importation on Nigeria’s economy. Journal of Scientific Agriculture, 2: 71-75..
  • Asuming-Brempong S and Osei-Asare Y (2007). Has imported rice crowded-out domestic rice production in Ghana? What has been the role of policy? African Association of Agricultural Economists (AAAE) Conference Proceedings.
  • Aviara NA and Haque MA (2001). Moisture dependence of thermal properties of shea nut kernel. Journal of Food Engineering, 47: 109-113.
  • Azadbakht M, Khoshtaghaza MH, Ghobadian B and Minaei S (2013). Thermal properties of soybean pod as a function of moisture content and temperature. American Journal of Food Science and Technology, 1(2): 9-13.
  • Bandumula N (2018). Rice production in Asia: Key to global food security. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 88(4): 1323-1328.
  • Bart-Plange A, Asare V and Addo A (2009). Thermal conductivity of maize and cowpea. Journal of Engineering and Technology, 2(3): 6-11.
  • Bhat FM and Riar CS (2017). Physicochemical, cooking, and textural characteristics of grains of different rice (Oryza sativa L.) cultivars of temperate region of India and their interrelationships. Journal of Texture Studies, 48(2): 160-170.
  • Božiková M (2003). Thermophysical parameters of corn and wheat flour. Research in Agricultural Engineering, 49(4): 157-160.
  • Danbaba N, Idakwo PY, Kassum AL, Bristone C, Bakare SO, Aliyu U, Kolo IN, Abo ME, Mohammed A, Abdulkadir AN, Nkama I, Badau MH, Kabaraini MA, Shehu H, Abosede AO and Danbaba MK (2019). rice postharvest technology in Nigeria: An overview of current status, constraints and potentials for sustainable development. Open Access Library Journal, 6: e5509. emefiele.html. 2015; accessed 17.04.2017
  • Federal Ministry of Agriculture and Rural Development (2016). The agriculture promotion policy (2016-2020). Federal Ministry of Agriculture and Rural Development, Abuja, Nigeria.
  • Global Agricultural Information Network (2016). Nigeria’s grain and feed annual report. https://gain fas. usda.gov/Recent%20GAIN%20Publications/Grain%20and%20Feed%20Annual_Lagos_Nigeria_4-21-2016. pdf. 2016; Accessed 22.02.2021.
  • Heldman DR (2001). Prediction models for thermophysical properties of foods. In food processing operations modeling, design, and analysis; Irudayaraj, J., Ed.; Marcel Dekker, Inc.: New York, 2001; 1-24.
  • Ide PE, Eze PC and Offor BC (2019). Effect of moisture content on the physicomechanical properties of Mucuna sloanei. International Journal of Scientific Engineering and Research (IJSER), 7(2): 91-96.
  • Ide PE, Ike O and Eze PC (2020) Effect of moisture content on the thermal properties of horse-eye bean seeds relevant to its processing. University of Belgrade Faculty of Agriculture Institute of Agricultural Engineering. Scientific Journal Agricultural Engineering, Year XLV No. 4, pp: 71 – 80.
  • JICA (2013). Status of NRDS Implementation in Nigeria, Presentation at the Fifth General Meeting of CARD, 5-6 February 2013, Dakar, Senegal. JICA 2013 Status of NRDS Implementation in Nigeria, Presentation at the Fifth General Meeting of CARD, 5-6 February 2013, Dakar, Senegal.
  • Jibril N, Yadav KC, Binni MI and Kabir MH (2016). Study on effect of moisture content on thermal properties of bambara groundnut (Vigna subterranea l. Verdc.) seed. Report and Opinion, 4(6): 52-58.
  • Jideani VA (2005). Characteristics of local pearl millet (Pennisetum glaucum) grains. Nigerian Food Journal, 23(1): 193-204.
  • Kamath S, Puri VM and Manbeck HB (1994). Flow property measurement using the Jenike cell for wheat flour at various moisture contents and consolidation times. Powder Technology, 81: 293-297.
  • Kim YS, Flores RA, Chung OK and Bechtel DB (2003). Physical, chemical, and thermal characteristics of wheat flour milling coproducts. Journal of Food Process Engineering, 26(5): 469-488.
  • Lan Y, Fang Q, Kocher M and Hanna MA (2000). Thermal properties of tapioca starch. International Journal of Food Properties, 3(1): 105-116.
  • Mahapatra AK, Lan Y and Harris DL (2011). Influence of moisture content and temperature on thermal conductivity and thermal diffusivity of rice flours. International Journal of Food Properties, 14(3): 675-683.
  • Mahapatra AK, Melton SL and Isang EM (2013). Effect of moisture content on thermal properties of cowpea flours. Agricultural Engineering International: The CIGR Journal. 15(2): 251-255.
  • Maji AT, Ukwungwu MN, Danbaba N, Abo ME and Bakare SO (2017). Rice: History, Research and Development in Nigeria. In: Nahemiah, D., Nkama, I., Maji, A.T. and Ukwungwu, M.N., Eds., Rice in Nigeria, Traditional Recipes & Research Needs, Ronab Graphix Print, Bida, Nigeria, 65-84.
  • Mortaza A, Mohammad HK and Seyed RH (2008). Specific heat and thermal conductivity of berberis fruit (Berberis vulgaris). American Journal of Agricultural and Biological Sciences, 3(1); 330-336.
  • Muramatsu Y, Tagawa, A, Kasai, T. (2005). Effective thermal conductivity of rice flour and whole and skim milk powder. Journal of Food Science, 70(4): 279-287.
  • Nahemiah D, Alabi MO, Nkama I and Abo ME (2004). Utilization of rice and rice by-products in Nigeria. In: Abo, M.E. and Abdullahi, A.S., Eds., Nigerian Rice Memorabilia, Project Synergy Limited, Abuja, Nigeria, 343-349.
  • Nwachukwu IM, Agwu NM and Ezeh CI (2008). Comparative study of consumer purchase attitude of local and foreign rice in Abia State. Proceedings of 42nd meeting of Agricultural Society of Nigeria held at Ebonyi State University, Abakaliki, 19-23 October 2008; pp.764-767.
  • Oko AO, Ubi BE and Dambaba N (2012). Rice cooking quality and physico-chemical characteristics: A comparative analysis of selected local and newly introduced rice varieties in Ebonyi State, Nigeria. Food and Public Health, 2(1): 43-49.
  • Opoku A, Tabil LG, Crerar B and Shaw MD (2006). Thermal conductivity and thermal diffusivity of timothy hay. Canadian Biosystems Engineering. 48: 31-37.
  • Pokhrel A, Dhakal A, Sharma S and Poudel A (2020) Evaluation of physicochemical and cooking characteristics of rice (Oryza sativa L.) landraces of Lamjung and Tanahun districts, Nepal. Hindawi International Journal of Food Science, Volume 2020, Article ID 1589150, 11 pages.
  • Premium Times (2017). Nigeria spends $2.41b on rice importation in 3 y–Emefiele.
  • Qi F, Lan Y, Kocher MF and Hanna MA (2000). Thermal conductivity of granular rice starches. International Journal of Food Properties, 3(2): 283-293.
  • Sadiku AO and Bamgboye I (2014). Moisture dependent mechanical and thermal properties of Locust bean (Parkia biglobosa). Agricultural Engineering International: CIGR Journal 16(1): 99-106.
  • Sahin S and Sumnu SG (2006). Physical properties of foods. Springer Science Business Media, LLC., 233 Spring Street, New York, NY 10013.
  • Sandra Budžaki and Bernarda Šeruga (2015) Specific heat and thermal conductivity of the croatian unleavened dough, International Journal of Food Properties, 18:10, 2300-2311.
  • SAS (1988). SAS/STAT users guide, release 6.03, SAS institute Inc.,Carey NC.
  • Sharma S, Pokhrel A, Dhakal A and Poudel A (2020). Agro-morphological characterization of rice (Oryza sativa L.) landraces of Lamjung and Tanahun District, Nepal. Annals of Plant Sciences, 9(2): 3731-3741.
  • Shrivastava M and Datta AK (1999). Determination of specific heat and thermal conductivity of mushrooms (Pleurotus- florida). Journal of Food Engineering, 39: 255-260.
  • Singh KK and Goswami TK (2000) Thermal properties of cumin seed. Journal of Food Engineering, 45: 181-187.
  • Singh, N, Kaur L, Sodhi NS and Sekhon KS (2005). Physicochemical, cooking and textural properties of milled rice from different Indian rice cultivars. Food Chemistry, 89(2): 253-259.
  • Sowunmi FA, Omigie OC and Daniel DT (2014). Consumers’ perception on Ofada rice in Ibadan North Local Government Area of Oyo State, Nigeria. Journal of Economics and Sustainable Development, 5(16):78.
  • Thomas R, Wan-Nadiah WA and Bhat R (2013). Physiochemical properties, proximate composition, and cooking qualities of locally grown and imported rice varieties marketed in Penang, Malaysia. International Food Research Journal, 20(3): 1345-1351.
There are 47 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Research Articles
Authors

Ide Patrıck Ejıke 0000-0002-2626-371X

Ikoko Omenaogor 0000-0001-9375-0289

Publication Date December 31, 2021
Submission Date September 4, 2021
Acceptance Date December 10, 2021
Published in Issue Year 2021 Volume: 2 Issue: 2

Cite

APA Patrıck Ejıke, I., & Omenaogor, I. (2021). Thermal Properties of New Developed Nigerian Illa and Ekpoma Rice Flour Varieties as Effected with Moisture Content. Turkish Journal of Agricultural Engineering Research, 2(2), 460-471.

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