Journal article
Emerging and potential technologies for facilitating shrimp peeling: A review
Ready-to-eat shrimp processing is challenging due to the complex biological design with the shell tightly connected to the meat. Several techniques have been developed to weaken or loosen this connection, thus facilitating the subsequent peeling. The loosening process is typically undertaken by maturing the shrimps on ice or in brine, which requires several days, consequently risking loss in food quality and safety.
To overcome those issues, developing novel technologies that not only assist the shell loosening but also retain the meat quality, safety and yield, is of paramount importance. This article reviews some essential characteristics of shrimp, the current methods of maturation, the use of the emerging technologies (high pressure, microwave, ultrasound, and enzyme) to facilitate the peeling of foods and clarify the potential of using them in shrimp shell removal.
Industrial relevance During the production of peeled products, the shrimp processing industry has suffered from drawbacks of the traditional ice/brine maturations - a step facilitating the peeling. The drawbacks include yield loss, reduction of organoleptic quality, risk of microorganisms, time consuming issue and discontinuous process due to a long time soaking in maturing tanks.
Therefore the need for seeking alternative methods to replace the traditional long maturations has grown, that address the future trends in sustainable processing of ready-to-eat shrimps. Emerging technologies e.g. high pressure, enzyme, ultrasound and microwave can potentially become the alternatives since they have strong peeling effects on lobsters, crabs, bivalve mollusks, eggshells, human skin, fruits and vegetables.
Also these technologies offer benefits such as short process time, retained nutritional and sensorial characteristics, energy and water efficiency which all promise higher profits for the shrimp industry.
Language: | English |
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Year: | 2018 |
Pages: | 228-240 |
ISSN: | 18785522 and 14668564 |
Types: | Journal article |
DOI: | 10.1016/j.ifset.2017.10.017 |
ORCIDs: | 0000-0002-0104-6292 , 0000-0003-4354-6591 , 0000-0003-2687-9642 , Jessen, Flemming and Gringer, Nina |
Biology Chemistry (all) Discontinuous process Electromagnetic Waves Enzyme Enzymes Essential characteristic Food Science Food quality and safeties Food safety Fruits and vegetables High pressure High pressure effects Industrial and Manufacturing Engineering Marine Science and Oceanography Medicine Microwave Microwaves Molluscs Potential technologies Safety Engineering Safety engineering Shell loosening technologies Shellfish Shells (structures) Shrimp Structural Members and Shapes Sustainable processing Ultrasonic Waves Ultrasonics Ultrasound