Sevenich Robert, Mathys Alexander
Dept. of Food Biotechnology and Food Process Engineering, Technische Univ. Berlin, Königin-Luise-Straße 22, Berlin, D-14195, Germany.
ETH Zurich, Inst. of Food, Nutrition and Health, Laboratory of Sustainable Food Processing, Schmelzbergstrasse 9, Zurich, CH-8092, Switzerland.
Compr Rev Food Sci Food Saf. 2018 May;17(3):646-662. doi: 10.1111/1541-4337.12348. Epub 2018 Apr 16.
High-pressure thermal sterilization (HPTS) and ultra-high-pressure homogenization (UHPH) are two emerging sterilization techniques that have not been implemented in the food industry yet. The two technologies apply different acting principles as HPTS uses isostatic pressure in combination with heat whereas UHPH uses dynamic pressure in combination with shear stress, cavitation, impingement, and heat. Both technologies offer significant benefits in terms of spore inactivation in food production with reduced thermal intensity and minimized effects on sensory and nutritional profiles. These benefits have resulted in relevant research efforts on both technologies over the past few decades. This state of the art of the discontinuous HPTS-based and the continuous UHPH-based sterilization concepts are assessed within this review. Further, various basic principles and promising future preservation applications of HPTS and UHPH for food processing, that are also applicable in the pharmaceutical, biochemical, and biotechnological sectors, are summarized. In addition, the applications and limitations of these technologies in terms of optimizations needed to overcome the identified challenges are emphasized.
高压热杀菌(HPTS)和超高压均质化(UHPH)是两种尚未在食品工业中应用的新兴杀菌技术。这两种技术应用不同的作用原理,因为HPTS使用等静压并结合热,而UHPH使用动压并结合剪切应力、空化、冲击和热。在食品生产中,这两种技术在孢子灭活方面都具有显著优势,能够降低热强度,并将对感官和营养成分的影响降至最低。在过去几十年中,这些优势引发了对这两种技术的相关研究工作。本综述评估了基于间歇式HPTS和连续式UHPH的杀菌概念的现有技术水平。此外,还总结了HPTS和UHPH在食品加工中的各种基本原理以及未来有前景的保鲜应用,这些应用在制药、生化和生物技术领域也同样适用。此外,还强调了这些技术在克服已识别挑战所需优化方面的应用及局限性。
