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Effect of salt concentration on physicochemical properties and morphology of pressure assisted anchovy hydrolysate powder

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한국산업식품공학회 (Korean Society for Food Engineering)
초록

In a previous study, it was reported that enzymatic hydrolysis under pressurization could be a new method which could produce arginine dipeptide and free amino acid in anchovy hydrolysate as salty enhancer at optimal condition. Powder is more efficient than liquid in terms of transport and storage stability. For the purpose of producing spray dried powder of various salt contents was investigated the effect of different salt concentration of anchovy hydrolysate on spray dried powder properties. The anchovy hydrolysate of various salt contents(in the range of approximately 0.7- 19.8% w/w) prepared adding the fish sauce (Dae-Young fish market) at inlet drying air temperatures of 120°C and 140°C. The process yield and physicochemical properties such as moisture content, bulk density, hygroscopicity and the morphology (EDS, XPS, XRD) of the anchovy hydrolysate powder was measured. The glass transition temperatures (Tg) of the powders equilibrated under various water activities were determined using a differential scanning calorimeter (DSC). Different drying conditions and salt concentration could generate anchovy hydrolysate powders with different process yield, bulk density and moisture content. The spray-dried anchovy hydrolysate powder was confirmed by XRD to be a mixture of an amorphous substances and crystalline salts. The energy dispersive X-ray spectrometer (EDS) and X-Ray Photoelectron Spectroscopy (XPS) analysis demonstrated that the surface NaCl concentration of the powders increased with an increasing drying air temperature. Increasing moisture adsorption of the anchovy hydrolysate powders resulted in a Tg reduction. It is suggested that producing spray dried anchovy hydrolysate for the industrial use is the use of the feed salt concentration of not lower than % w/w and inlet air temperature at 120°C, 140°C

저자
  • You Jin Lee(Laboratory of Bioguided Processing and Food Engineering, Department of Food Science and Biotechnology, CHA University, Korea)
  • Jae Min Hwang(Laboratory of Bioguided Processing and Food Engineering, Department of Food Science and Biotechnology, CHA University, Korea)
  • Ji Soo Hong(Laboratory of Bioguided Processing and Food Engineering, Department of Food Science and Biotechnology, CHA University, Korea)
  • Ye-Won In(Laboratory of Bioguided Processing and Food Engineering, Department of Food Science and Biotechnology, CHA University, Korea)
  • Hyung-Yong Cho(Laboratory of Bioguided Processing and Food Engineering, Department of Food Science and Biotechnology, CHA University, Korea)