AI Article Synopsis
- * The research focuses on evaluating different chilling methods combined with electrical stimulation to determine their impact on the quality of beef from Polish Holstein-Friesian cattle, specifically analyzing pH and temperature changes.
- * The study found that the HVES and fast chilling methods provide significant benefits, including lower meat weight loss, improved quality, reduced electricity use, and decreased operational costs, making them the recommended practices for sustainable beef production.
Article Abstract
Among the challenges of sustainable management of meat production, the key issue is to improve the energy efficiency of production processes, which will consequently affect the reduction of greenhouse gas emissions. Such effects are achieved by combining various chilling systems with electrical stimulation that determines the quality of meat at the slaughter stage. The novelties of the research undertaken included determining the impact of various variants of meat production (chilling method: slow, fast, accelerated + HVES/NES) on changes in the basic (industrial) quality indicators (pH and temperature) of beef produced from Polish Holstein-Friesian breed cattle, and then indicating the optimal variant for energy-efficient (sustainable) beef production. The HVES and the fast chilling method yielded positive economic (meat weight loss), technological (high quality, hot-boning), energetic (lower electricity consumption), and organizational effects (reduced chilling and storage surfaces and expenditures for staff wages) compared to the slow and accelerated methods. Reaching the desired final temperature with an increased amount of chilled meat enables obtaining a few-fold decrease in the specific energy consumption and a higher energy efficiency of the process. This allows recommending the above actions to be undertaken by entrepreneurs in the pursuit of sustainable meat production.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8565759 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0240639 | PLOS |
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