Modeling and simulation of paddy drying: a bibliometric analysis

Ana Carla Zucolotto Venturin, Luís César da Silva

Abstract


Rice is one of the staple foods of the Brazilian and world population. As part of post-harvest processing, drying is a critical step as it can affect the chemical, physical and nutritional properties of the final product. In this sense, the objective of this research consisted in the realization of a bibliometric review on the use of modeling and simulation in the drying process of paddy, providing an overview of the progress achieved, aspects to be developed and opportunities. A quantitative analysis of the related publications found in the Web of Science database was carried out, followed by a qualitative analysis of the most relevant articles. The results demonstrated the evolution of the subject and a great potential to be explored, mainly in the application of these models in the control, automation of the systems and in the support to decision making in real and large scale processes.


Keywords


Mathematical models; post-harvest processing; grain; cereals; bibliometrics.

References


ARAÚJO, C. A. Bibliometria: evolução, história e questões atuais. Em Questão, Porto Alegre, v. 12, n. 1, p. 11-32, jan./jun. 2006.

ATUNGULU, G. G.; ZHONG, H.; SINGH, C. B.; OSBORN, G. S. e MAUROMOUSTAKOS, A. Simulation and validation of on-farm in-bin drying and storage of rough rice. Applied Engineering in Agriculture, v. 32, n. 6, p. 881-897, 2016.

AZMIR, J.; HOU, Q.; YU, A. Discrete particle simulation of food grain drying in a fluidised bed. Powder Technology, v. 323, n. 2018, p. 238-249, 2018.

BAKKER-ARKEMA, F.W.; BROOK, R.C.; LEREW, L. E. Cereal grain drying. In: POMERANZ, Y. Advances in Cereal Science and Technology. St. Paul: American Association of Cereal Chemists, 1978. v.2, p. 1-45.

BARBETTA, P. A. Estatísticas aplicadas às Ciências Sociais. 7. ed. Florianópolis: Ed. da UFSC, 2007. p. 340.

BROOKER, D.B.; BAKKER-ARKEMA, F.W.; HALL, C.W. Cereal grain drying. Westport: AVI, 1974. p. 398.

CHANG, J.; YUAN, Y.; YANG, D. e LIU, X. Pore network model and simulation of transport process for grain drying. Chemical Engineering & Technology, v. 34, n. 7, p. 1049-1056, 2011.

CHEN, C.; HU, Z.; LIU, S. e TSENG, H. Emerging trends in regenerative medicine: a scientometric analysis in CiteSpace. Expert Opinion On Biological Therapy, v. 12, n. 5, p. 593-608, 2012.

DIAMANTE, L.; MUNRO, P. Mathematical modelling of the thin layer solar drying of sweet potato slices. Solar Energy, v. 51, n. 4, p. 271-276, 1993.

ELGAMAL, R.; RONSSE, F.; ELMASRY, G. e PIETERS, J. G. Development of a Multi-Scale Model for Deep-Bed Drying of Rice. Transactions of the ASABE, v. 58, n. 3, p. 849-859, 2015.

ERTEKIN, C.; YALDIZ, O. Drying of eggplant and selection of a suitable thin layer drying model. Journal of Food Engineering, v. 63, n. 3, p. 349-359, 2004.

GOMES, A.S.; MAGALHÃES JUNIOR, A.M. Arroz Irrigado no Sul do Brasil. Brasília: Embrapa Informação, p. 143-147, 2004.

GOMES, I. S.; CAMINHA, I. O. Guia para estudos de revisão sistemática: uma opção metodológica para as Ciências do Movimento Humano. Movimento, Porto Alegre, v. 20, n. 1, p. 395-411, 2014.

HAN, F.; ZUO, C.; WU, W.; LI, J. e LIU, Z. Model predictive control of the grain drying process. Mathematical problems in engineering, v. 2012, ID 584376, p. 12, 2012.

HAWK, A.L.; NOYES, R.T.; WESTELAKEN, C.M.; FOSTER, G.M. e BAKKER-ARKEMA, F.W. The present status of commercial grain drying. In: ASAE SUMMER MEETING. Logan: American Society of Agricultural Engineering, 1978. p. 78-3008.

HUKILL, W. V. Drying of grain. In: ANDERSON, J. A., ALCOCK, A. W. Storage of Cereal Grain and Their Products. Saint Paul: American Society of Cereal Chemists, 1954. cap. 9. p. 402-435.

IGATHINATHANE, C.; CHATTOPADHYAY, P. K.; PORDESIMO, L. O. Moisture diffusion modelling of parboiled paddy accelerated tempering process with extended application to multi-pass drying simulation. Journal of Food Engineering, v. 88, n. 2, p. 239–53, 2008.

INTERNATIONAL RICE RESEARCH INSTITUTE (IRRI). Paddy Drying. Postharvest Unit, CESD, ver. 2, 2013. Disponível em: . Acesso em: 15 de agosto de 2018.

JULIANO, B. O. Rice in human nutrition. Rome: FAO, 1993. Disponível em: . Acesso em: 07 de agosto de 2018.

KHANALI, M.; BANISHARIF, A.; RAFIEE, S. Modeling of moisture diffusivity, activation energy and energy consumption in fluidized bed drying of rough rice. Heat and Mass Transfer, v. 52, n. 11, p. 2541-2549, 2016.

LACERDA, R. T. O.; ENSSLIN, L.; ENSSLIN, S. R. Uma análise bibliométrica da literatura sobre estratégia e avaliação de desempenho. Gestão & Produção, v. 19, n. 1, 2012.

LAWRENCE, J.; ATUNGULU, G.; SIEBENMORGEN, T. Modeling in-bin rice drying using natural air and controlled air drying strategies. Transactions of the ASABE, v. 58, n. 4, p. 1103-1111, 2015.

MACIAS-CHAPULA, C. A. O papel da informetria e da cientometria e sua perspectiva nacional e internacional. Ciência da Informação, Brasília, DF, v. 27, n. 2, p. 134-140, maio/ago. 1998.

MIDILLI, A.; KUCUK, H. Mathematical modeling of thin layer drying of pistachio by using solar energy. Energy Conversion and Management, v. 44, n. 7, p. 1111-1122, 2003.

MIDILLI, A.; KUCUK, H.; YAPAR, Z. A new model for single-layer drying. Drying Technology, v. 20, n. 7, p. 1503-1513, 2002.

MOREY, R.V.; KEENER, H.M.; THOMPSON, T. L.; WHITE, G.M. e BAKKER-ARKEMA, F.W. The presente status of grain drying simulation. In: ASAE SUMMER MEETING. Logan: American Society of Agricultural Engineering, 1978. p. 78-3309.

NAGHAVI, Z.; MOHEB, A.; ZIAEI-RAD, S. Numerical simulation of rough rice drying in a deep-bed dryer using non-equilibrium model. Energy Conversion and Management, v. 51, n. 2, p. 258-264, 2010.

OKUBO, Y. Bibliometric Indicators and analysis of research systems: methods and examples. STI Working Papers. Paris: OECD, p. 69, 1997.

PEREZ, J. H.; TANAKA, F.; TANAKA, F.; HAMANAKA, D. e UCHINO, T. Three-Dimensional Numerical Modeling of Convective Heat Transfer During Shallow-Depth Forced-Air Drying of Brown Rice Grains. Drying Technology, v. 33, n. 11, p. 1350-1359, 2015.

PRAKASH, B.; PAN, Z. Effect of Geometry of Rice Kernels on Drying Modeling Results. Drying Technology, v. 30, n. 8, p. 801-807, 2012.

PUTRANTO, A.; CHEN, X. D.; XIAO, Z. e WEBLEY, P. A. Mathematical modeling of intermittent and convective drying of rice and coffee using the reaction engineering approach (REA). Journal of Food Engineering, v. 105, n. 4, p. 638-646, 2011.

RANJBARAN, M.; EMADI, B.; ZARE, D. CFD Simulation of Deep-Bed Paddy Drying Process and Performance. Drying Technology, v. 32, n. 8, p. 919-934, 2014.

SANTOS, E. M.; NETO, J. D. O.; ARAÚJO, E. M.; OLIVEIRA, S. R. M.; BARBOSA, D. H.; ZANDER, V. T. Educação à distância no Brasil: evolução da produção científica. EESC-USP, Departamento de Engenharia de Produção: 2007. 11 p. Relatório de Pesquisa.

SARKER, M.; IBRAHIM, M.; AZIZ, N. A. e PUNAN, M. Application of simulation in determining suitable operating parameters for industrial scale fluidized bed dryer during drying of high impurity moist paddy. Journal of Stored Products Research, v. 61, p. 76-84, 2015.

SILVEIRA, H. SWOT. In: Inteligência Organizacional e Competitiva. Org. TARAPANOFF, K. Brasília: Editora UNB, 2001.

SOUZA, C. A organização do conhecimento: Estudo bibliométrico na base de dados ISI Web of Knowledge. Biblios: Journal of Librarianship and Information Science, n. 51, p. 20-32, 2013.

SPENCER, H. A mathematical simulation of grain drying. Journal of Agricultural Engineering Research, v. 14, n. 3, p. 226-235, 1969.

THOMPSON, T.L. Predicted performance and optimal design of convection grain dryers. 1967. 85 f. Tese (Doutorado em Engenharia Agrícola) - Purdue University, Agricultural Engineering Department, West Lafayette, 1967.

TOHIDI, M.; SADEGHI, M.; MOUSAVI, S. R. e MIREEI, S. A. Artificial neural network modeling of process and product indices in deep bed drying of rough rice. Turkish journal of agriculture and forestry, v. 36, n. 6, p. 738-748, 2012.

VAN EE, G.R.; KLINE, G. L. Faldry - a model for low-temperature corn drying systems. In: ASAE WINTER MEETING. Ames: American Society of Agricultural Engineering, 1979. p. 79-3524.

YALDIZ, O.; ERTEKIN, C.; UZUN, H. Mathematical modeling of thin layer solar drying of sultana grapes. Energy, v. 26, n. 5, p. 457-465, 2001.

ZARE, D.; JAYAS, D.; SINGH, C. A Generalized Dimensionless Model for Deep Bed Drying of Paddy. Drying Technology, v. 30, n. 1, p. 44-51, 2012.




DOI: http://dx.doi.org/10.33448/rsd-v8i1.658

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