Micrographs of lychee pericarp and pulp during microwave vacuum drying were tested and analyzed in order to illuminate the microstructure change of lychee and effect of the change on moisture removing in lychee. The results showed that the pericarp consisted of three parts: outer layer with cuticle, inter layer and inner layer. Outer layer and inter layer cells are easily destroyed than inner layer because of small and intact inner layer cells. Furthermore, micrographs showed that the moisture content of pulp keep constant with the temperature increasing at first 40 min due to the inner layer cells prevent the moisture removing from pulp. The long tubular structure of pulp cell would become break and lost over time, because the intercellular spaces reduced and the moisture removing was slow down in pulp. Meanwhile, the microstructure of lychee dried with temperature control was better than that without temperature control.
Keywords: Lychee, microstructure, microwave vacuum drying, moisture removal, temperature profile
DOI: 10.3965/j.ijabe.20160903.1752

Citation: Huang L L, Qiao F, Fan D M. Microstructure changing and moisture removing of lychee during microwave vacuum drying. Int J Agric & Biol Eng, 2016; 9(3): 162－169.

Lychee, microstructure, microwave vacuum drying, moisture removal, temperature profile

Martínez-Castellanos G, Pelayo-Zaldívar C, Pérez-Flores L J, López-Luna A, Gimeno M, Bárzana E, et al. Postharvest litchi (Litchi chinensis Sonn.) quality preservation by Lactobacillus plantarum. Postharvest Biol. Tec., 2011; 49: 241−246.

Janjai S, Mahayothee B, Lamlert N, Bala B K, Precoppe M, Nagle M, et al. Diffusivity, shrinkage and simulated drying of lithci fruit (Litchi chinensis Sonn.). J. Food Eng., 2010; 96: 214−221.

Janjai S, Precoppe M, Lamlert N, Mahayothee B, Bala B K, Nagle M, et al. Thin layer drying of litchi (Litchichinensis Sonn.). Food Bioprod. Process, 2011; 89(3): 194−201.

Zhao H, Li C, Guan Z. Experimental research on drying characteristics of litchi. Dry. Technol., 1999; 17(9): 1915−1925.

Qiao F, Fang C F, Huang L L, Zhang S F. The effect of different heating patterns on vacuum freeze-drying of lychee pulp. J. Food Process Eng., 2013; 36: 407−411.

Sathira H, Niramon U, Quan V V, Christopher J S. Investigating the commercial microwave vacuum drying conditions on physicochemical properties and radical scavenging ability of Thai green tea. Dry. Technol., 2014; 32(1): 47−54.

Nimmanpipug N, Therdthai N, Dhamvithee P. Characterisation of osmotically dehydrated papaya with further hot air drying and microwave vacuum drying. Int. J. Food Sci. Technol., 2013; 48(6): 1193−1200.

Therdthai N, Visalrakkij T. Effect of osmotic dehydration on dielectric properties, microwave vacuum drying kinetics and quality of mangosteen. Int. J. Food Sci. Technol., 2012; 47(12): 2606−2612.

Duan X, Huang L L, Wang M M, Qiao F, Fang C F. Studies on the effects of microwave power and temperature control on quality of whole lychee (Litchi chinensis Sonn.) fruit during microwave vacuum drying. J. Food Process Pres., 2014. DOI: 10.1111/jfpp.12247.

Argyropoulos D, Heindl A, Muller J. Assessment of convection, hot-air combined with microwavevacuum and freeze-drying methods for mushrooms with regard to product quality. Int. J. Food Sci. Technol., 2011; 46: 333−342.

Jiang H, Zhang M, Mujumdar A S, Lim R X. Comparison of the effect of microwave freeze drying and microwave vacuum drying upon the process and quality characteristics of potato⁄banana re-structured chips. Int. J. Food Sci. Technol., 2011; 46: 570−576.

Huang L L, Zhang M, Yan W Q, Mujumdar A S, Sun D F. Effect of coating on post-drying of freeze-dried strawberry pieces. J. Food Eng., 2009; 92: 107−111.

Abano E E, Ma H, Qu W. Influence of combined microwave-vacuum drying on drying kinetics and quality of dried tomato slices. J. Food Quality., 2012; 35: 159−168.

Witrowa-Rajchert D, Rzaca M. Effect of drying method on the microstructure and physical properties of dried apples.

Dry. Technol., 2009; 27: 903−909.

Jaya S. Microstructure analysis of dried yogurt: effect of different drying methods. Int. J. Food Prop., 2009; 12: 469−481.

Ong S P, Law C L. Microstructure and optical properties of salak fruit under different drying and pretreatment conditions. Dry. Technol., 2011; 29: 1954−1962.

Karunasena H C P, Hesami P, Senadeera W, Gu Y T, Brown R J, Oloyede A. Scanning electron microscopic study of microstructure of gala apples during hot air drying. Dry. Technol., 2014; 32(4): 455−468.

Niamnuy C, Devahastin S, Soponronnarit S. Some recent advances in microstructural modification and monitoring of foods during drying: A review. J. Food Eng., 2014; 123: 148−156.

Voda A, Homan N, Witek M, Duijster A, Dalen G, Sman R, et al. The impact of freeze-drying on microstructure and rehydration properties of carrot. Food Res. Int., 2012; 49: 687−693.

Pei F, Yang W J, Shi Y, Sun Y, Mariga A M, Zhao L Y, et al. Comparison of freeze-drying with three different combinations of drying methods and their influence on colour, texture, microstructure and nutrient retention of button mushroom (Agaricus bisporus) slices. Food Bioprocess Tech., 2014; 7(3): 702−710.

Vega-Galvez A, Ah-Hen K, Chacana M, Vergara J, Martinez-Monzo J, Garcia-Segovia P, et al. Effect of temperature and air velocity on drying kinetics, antioxidant capacity, total phenolic content, colour, texture and microstructure of apple (var. Granny Smith) slices. Food Chem., 2012; 132: 51−59.

Ortuno C, Perez-Munuera I, Puig A, Riera E, Gracia-Perez J V. Influence of power ultras ound application on mass transport and microstructure of orange peel during hot air drying. Phys. Procedia., 2010; 3: 153−159.

Lewicki P P, Pawlak G. Effect of mode of drying on microstructure on potato. Dry. Technol., 2005; 23: 847−869.

Wang R, Zhang M, Mujumdar A S. Effects of vacuum and microwave freeze drying on microstructure and quality of potato slices. J. Food Eng., 2010; 101: 131−139.

Huang L L, Zhang M, Mujumdar A S, Lim R X. Comparison of four drying methods for re-structured mixed potato with apple chips. J. Food Eng., 2011a; 103(3): 279−284.

Huang L L, Zhang M, Yan W Q, Mujumdar A S, Sun D F. Rehydration Characteristics of freeze-dried strawberry pieces as affected by whey protein edible coatings. Int. J. Food Sci. Technol., 2011; 46(4): 671−677.