Grain drying

About: Grain drying is a research topic. Over the lifetime, 2093 publications have been published within this topic receiving 14411 citations.

Handbook of Industrial Drying

Abstract: Section I - Fundamental Aspects Principles, Classification, and Selection of Dryers Arun S. Mujumdar Experimental Techniques in Drying Karoly Molnar Basic Process Calculations and Simulations in Drying Zdzislaw Pakowski and Arun S. Mujumdar Transport Properties in the Drying of Solids Dimitris Marinos-Kouris and Z.B. Maroulis Spreadsheet-Aided Dryer Design Z.B. Maroulis, G.D. Saravacos, and Arun S. Mujumdar Section II - Description of Various Dryer Types Indirect Dryers Sakamon Devahastin and Arun S. Mujumdar Rotary Drying Magdalini Krokida, Dimitris Marinos-Kouris, and Arun S. Mujumdar Fluidized Bed Dryers Chung Lim Law and Arun S. Mujumdar Industrial Spray Drying Systems Iva Filkova, Li Xin Huang, and Arun S. Mujumdar Theoretical Modeling and Numerical Simulation of Spray Drying Processes Maksim Mezhericher, Avi Levy, and Irene Borde Drum Dryers Wan Ramli Wan Daud Freeze Drying Athanasios I. Liapis and Roberto Bruttini Microwave and Dielectric Drying Robert F. Schiffmann Solar Drying Laszlo Imre and Arun S. Mujumdar Spouted Bed Drying Elizabeth Pallai, Tibor Szentmarjay, Sachin V. Jangam, and Arun S. Mujumdar Impingement Drying Arun S. Mujumdar Pneumatic and Flash Drying Irene Borde and Avi Levy Conveyor Dryers Dan Poirier Infrared Drying Cristina Ratti and Arun S. Mujumdar Superheated Steam Drying Arun S. Mujumdar Special Drying Techniques and Novel Dryers Tadeusz Kudra and Arun S. Mujumdar Intermittent Drying Karim Allaf, Sabah Mounir, Mohamed Negm, Tamara Allaf, Hanintsoa Ferrasse, and Arun S. Mujumdar Pulse Combustion Drying Wu Zhonghua and Arun S Mujumdar Section III - Drying in Various Industrial Sectors Drying of Foodstuffs Shahab Sokhansanj and Digvir S. Jayas Drying of Fish and Seafood M. Shafiur Rahman Grain Drying Vijaya G.S. Raghavan and Venkatesh Sosle Grain Property Values and Their Measurement Digvir S. Jayas and Stefan Cenkowski Drying of Rice Somkiat Prachayawarakorn, Chaiyong Taechapairoj, Adisak Nathakaranakule, Sakamon Devahastin, and Somchart Soponronnarit Drying of Fruits and Vegetables D. K. Das Gupta and K. S. Jayaraman Drying of Herbal Medicines and Tea Guohua Chen and Arun S. Mujumdar Drying of Potato, Sweet Potato, and Other Roots Shyam S. Sablani and Arun S. Mujumdar Osmotic Dehydration of Fruits and Vegetables Piotr P. Lewicki and Andrzej Lenart Drying of Pharmaceutical Products Zdzislaw Pakowski and Arun S. Mujumdar Drying of Nanosize Products Baohe Wang, Li Xin Huang, and Arun S. Mujumdar Drying of Ceramics Yoshinori Itaya, Shigekatsu Mori, and Masanobu Hasatani Drying of Peat and Biofuels Roland Wimmerstedt Drying of Fibrous Materials Roger B. Keey Drying of Textile Products Wallace W. Carr, H. Stephen Lee, and Hyunyoung Ok Drying of Pulp and Paper Osman Polat and Arun S. Mujumdar Drying of Wood: Principles and Practices Patrick Perre and Roger B. Keey Drying of Biomass Shusheng Pang Drying in Mineral Processing Arun S. Mujumdar Dewatering and Drying of Wastewater Treatment Sludge Guohua Chen, Po Lock Yue, and Arun S. Mujumdar Physicochemical Aspects of Sludge Drying Sachin V. Jangam, Tolga Tuncal and Arun Mujumdar Drying of Biotechnological Products Janusz Adamiec, Wladyslaw Kaminski, Adam S. Markowski, and Czeslaw Strumillo Drying of Coated Webs James Y. Hung, Richard J. Wimberger, and Arun S. Mujumdar Drying of Polymers Arun S. Mujumdar and Mainul Hasan Drying of Enzymes Ana M.R. Pilosof and Virginia E. Sanchez Drying of Proteins M. Amdadul Haque and Benu Adhikari Product Functionality-Oriented Drying Process related to Pharmaceutical Particle Engineering Meng Wai Woo and Arun Mujumdar Drying of Coal Jerzy Pikon, Sachin V. Jangam, and Arun S. Mujumdar Section IV - Miscellaneous Topics in Industrial Drying Dryer Feeding Systems Rami Y. Jumah and Arun S. Mujumdar Dryer Emission Control Systems Rami Y. Jumah and Arun S. Mujumdar Energy Aspects in Drying Czeslaw Strumillo, Peter L. Jones, and Romuald Zylla Heat Pump Drying Systems Chou Siaw Kiang and Chua Kian Jon Safety Aspects of Industrial Dryers Adam S. Markowski and Arun S. Mujumdar Control of Industrial Dryers Rami Y. Jumah, Arun S. Mujumdar, and Vijaya G.S. Raghavan Solid-Liquid Separation for Pretreatment of Drying Operation Mompei Shirato and Masashi Iwata Frying of Foods Vassiliki Oreopoulou, Magdalini Krokida, and Dimitris Marinos-Kouris Use of Simprosys in Drying Flowsheet Calculations Z. X. Gong, Sachin V. Jangam, and Arun S. Mujumdar Life Cycle-Assessment of Drying Systems Nawshad Haque, Sachin V. Jangam, and Arun Mujumdar Thermo-Hydro-Mechanical Aspects of Drying Stefan J. Kowalski and Andrzej Rybicki Supercritical Fluid-Assisted Drying Marzouk Benali and Yacine Boumghar Industrial Crystallization Seppo Palosaari, Marjatta Louhi-Kultanen, and Zuoliang Sha Cost-Estimation Methods for Drying Zbigniew T. Sztabert and Tadeusz Kudra

Drying and Storage Of Grains and Oilseeds

Abstract: Grain production, preservation and trade Grain structure, composition and properties Drying-air properties Grain equilibrium moisture content Grain quality: air flow for drying Introductory analysis of fixed bed drying systems Theory and simulation of grain drying In-bin drying High capacity grain drying systems Rice drying Grain handling Dryer control systems Grain-storage management Appendices: conversion of units Airflow through grains Maps of wet-bulb temperatures and depressions Physical properties of grains and oilseeds Thermal properties of grains Heating values for fuel Formulas for calculating capacities of cylindrical grain bins Grading standards for grains.

Abscisic acid in developing wheat grains and its relationship to grain growth and maturation.

Abstract: During the later stages of growth of grains of wheat (Triticum aestivum L. cvs. WW15 and Gabo) there is a dramatic increase (up to 40fold) in the content of abscisic acid (ABA) to 4–6 ng per grain. This level remains high from 25 to 40 days after anthesis. Then, in association with natural or forced drying of the grain, there is a rapid drop (5–10 fold) in the ABA content and a brief increase in the content of bound ABA. The bulk of ABA in an ear was in the grain (95%) and although the embryo contributed 19% of this ABA it was less than 5% of the grain by weight. There was no clear relationship between ABA content and the growth of grains in various spikelet or floret positions. Application of (±)-ABA to the ear had no effect on grain growth rate but led to an earlier cessation of grain growth and hastened the drying of the grain. Isolated embryos and whole grains were capable of germinating during the mid grain growth period (15–25 days), but germination capacity declined subsequently as ABA accumulated. Later, still, with grain drying and loss of ABA, embryo and grain became germinable again. At this time there was also a dramatic increase in the ability of the grain to synthesize α-amylase. It is suggested that the accumulation of ABA at the later stages of grain growth prevents precocious germination and premature hydrolysis of starch reserves of the morphologically mature but still unripe grain. An inevitable consequence of such action may be in triggering grain maturation.

Stored-grain ecosystems.

Abstract: The Stored-Grain Ecosystem Expert System Concept Grain Storage in the Tropics Economics of Grain Storage Insects, Mites, and Insecticides In Stored-Grain Ecosystems Computer Modelling of the Population Dynamics of Stored-Product Pests The Mycology of Stored Grain - An Ecological Perspective Mycotoxins and Mycotoxigenic Fungi in Storage Rodents and Birds as Invaders of Stored-Grain Ecosystems Quality and Nutritional Changes In Stored Grain Physical Methods for Insect Control in Stored-Grain Ecosystems Engineering Properties of Grain and Oilseeds Structural Loads In Grain Storages Mathematical Modelling of Heat, Moisture, and Gas Transfer in Stored-Grain Ecosystems Forced Air Distribution for In-bin Drying and Aeration Heated-Air Grain Drying Technology Transfer in Management of Stored-Grain Pests Ecological Aspects of Feed Mill Operation Insect Pest Management in Stored-Rice Ecosystems Future Systems for Grain Storage and Transportation.