Pelleting is the most extensively used thermal processing method in feed industry. In this article, a single pellet press device was developed to investigate the pelleting processing of animal feed. Effects of moisture content (10%-18% w.b.), preheating temperature (60°C-100°C) and maximum compression force (0.2-0.6 kN) on feed pellet were determined and analyzed, as well as energy consumption. The results showed that unit density, pellet hardness and energy consumption were 0.87-2.92 g/cm3, 1.08-4.55 kg, and 3.27-12.66 J/g, respectively. Unit density was found to increase with the increase of preheating temperature and maximum compression force, but decrease with the increase of moisture content. Pellet hardness showed a first ascending then descending trend with the increase of moisture content, but exhibited a positive relationship with both preheating temperature and maximum compression force. Energy consumption increased with the increase of maximum compression force, but exhibited descending trends with the increase of moisture content and preheating temperature. Due to its features of low cost, high efficiency and easy control, the single pellet press device has a wide application prospect in feed processing.
Keywords: feed, pelleting, energy consumption, preheating temperature, experiments
DOI: 10.25165/j.ijabe.20221504.6155

Citation: Peng F, Xiang R, Fang F, Liu D. Analysis of feed pelleting characteristics based on a single pellet press device. Int J Agric & Biol Eng, 2022; 15(4): 65–70.

feed, pelleting, energy consumption, preheating temperature, experiments

Abdollahi M R, Ravindran V, Svihus B. Pelleting of broiler diets: An overview with emphasis on pellet quality and nutritional value. Animal Feed Science and Technology, 2013; 179(1-4): 1–23.

Peng F, Fang F, Huang Z G. Development and experimental study on a pilot-scale feed pellet mill. Int J Agric & Biol Eng, 2020; 13(6): 201–206.

Singha P, Muthukumarappan K. Effects of processing conditions on the system parameters during single screw extrusion of blend containing apple pomace. Journal of Food Process Engineering, 2017; 40(4): e12513. doi: 10.1111/jfpe.12513.

Singh S K, Muthukumarappan K. Rheological characterization and CFD simulation of soy white flakes based dough in a single screw extruder. Journal of Food Process Engineering, 2017; 40(2): e12368. doi: 10.1111/jfpe.12368.

Lv M B, Yan L, Wang Z G, An S, Wu M M, Lv Z Z. Effects of feed form and feed particle size on growth performance, carcass characteristics and digestive tract development of broilers. Animal Nutrition, 2015; 1(3): 252–256.

Boac J A, Casada M E, Maghirang R G. Feed pellet and corn durability and breakage during repeated elevator handling. Applied Engineering in Agriculture, 2008; 24(5): 637–643.

Svihus B, Zimonja O. Chemical alterations with nutritional consequences due to pelleting animal feeds: a review. Animal Production Science, 2011; 51(7): 590–596.

Moritz J S, Cramer K R, Wilson K J, Beyer R S. Feed manufacture and feeding of rations with graded levels of added moisture formulated to different energy densities. Journal of Applied Poultry Research, 2003; 12(3): 371–381.

Nielsen S K, Mando M, Rosenorn A B. Review of die design and process parameters in the biomass pelleting process. Powder Technology, 2020; 364: 971–985.

Puig-Arnavat M, Shang L, Sárossy Z, Ahrenfeldt J, Henriksen U B. From a single pellet press to a bench scale pellet mill — Pelletizing six different biomass feedstocks. Fuel Processing Technology, 2016; 142: 27–33.

Misljenovic N, Bach Q V, Tran K Q, Salas-Bringas C, Skreiberg O. Torrefaction influence on pelletability and pellet quality of norwegian forest residues. Energy & Fuels, 2014; 28(4): 2554–2561.

Mišljenović N, Čolović R, Vukmirović Đ, Brlek T, Bringas C S. The effects of sugar beet molasses on wheat straw pelleting and pellet quality. A comparative study of pelleting by using a single pellet press and a pilot-scale pellet press. Fuel Processing Technology, 2016; 144: 220–229.

Mostafa M E, Hu S, Wang Y, Su S, Hu X, Elsayed S A, et al. The significance of pelletization operating conditions: An analysis of physical and mechanical characteristics as well as energy consumption of biomass pellets. Renewable and Sustainable Energy Reviews, 2019; 105: 332–348.

Stein H H, Lagos L V, Casas G A. Nutritional value of feed ingredients of plant origin fed to pigs. Animal Feed Science and Technology, 2016; 218: 33–69.

Peng F, Huang Z, Fang F. Modeling and experiments of chewing mechanical properties of pellet feed using discrete element method. Int J Agric & Biol Eng, 2020; 13(4): 37–44.

ASAE Standards S358. 2: Moisture measurement Forages. ASAE, St. Joseph, MI, USA, 2003.

ASAE S269.4. Cubes, pellets, and crumbles-definitions and methods for determining density, durability, and moisture content. ASABE Standards, St. Joseph, MI, USA, 2007.

Thomas M, Van der Poel A. Physical quality of pelleted animal feed 1. Criteria for pellet quality. Animal feed science and technology, 1996; 61(1-4): 89–112.

Irungu F G, Mutungi C, Faraj A, Affognon H, Ekesi S, Nakimbugwe D, et al. Optimization of extruder cooking conditions for the manufacture of fish feeds using response surface methodology. Journal of Food Process Engineering, 2019; 42(2): e12980.1–e12980.12.

Singha P, Muthukumarappan K. Single screw extrusion of apple pomace-enriched blends: Extrudate characteristics and determination of optimum processing conditions. Food Science and Technology International, 2018; 24(5): 447–462.

Tumuluru J S. Specific energy consumption and quality of wood pellets produced using high-moisture lodgepole pine grind in a flat die pellet mill. Chemical Engineering Research and Design, 2016; 110: 82–97.

Chinese Pharmacopeia Commission. Chinese Pharmacopoeia. Beijing: China Medical Science and Technology Press, 2015. (in Chinese)

Wang K Q, Li C, Wang B Z, Yang W, Luo S Z, Zhao Y Y, et al. Formation of macromolecules in wheat gluten/starch mixtures during twin-screw extrusion: effect of different additives. Journal of the Science of Food and Agriculture, 2017; 97(15): 5131–5138.

Llorens S, Pérez-Arjona I, Soliveres E, Espinosa V. Detection and target strength measurements of uneaten feed pellets with a single beam echosounder. Aquacultural Engineering, 2017; 78: 216–220.

Jackson J, Turner A, Mark T, Montross M. Densification of biomass using a pilot scale flat ring roller pellet mill. Fuel Processing Technology, 2016; 148: 43–49.