Economical assessment of pilot level calcium propionate production from unutilized food

Q1 Environmental Science

Bioresource Technology Reports Pub Date : 2025-02-01 DOI:10.1016/j.biteb.2025.102030

Poornima Rajendran , Abiram Karanam Rathankumar , Kongkona Saikia , Vinoth Kumar Vaidyanathan , Dhanya Vishnu , Harish Kumar

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Abstract

Food waste biorefinery approach is an effective route for waste management and the generated food waste can be exploited to produce high-cost products like propionic acid. The current study aims at food waste valorization for calcium propionate synthesis. Among the microorganisms screened, Propionibacterium shermanni was selected based on clear zone formation in the presence of calcium carbonate. Subsequently, the unserved food waste was pre-treated with enzymes- amylase and protease, and used for fermentative production. The process parameters were statistically optimized using Box Behnken design. By applying the optimized parameters, pH 6.5 ± 0.1, temperature 35 ± 2 °C and time 15 ± 0.5 days, a maximum of ∼86 % yield was obtained. To validate the optimized data, fed batch fermentation was set up resulting in the production of 7.9 g/100 mL calcium propionate under the optimized conditions. Finally, cost analysis was performed, showing that the utilization of food waste resulted in 1.6–fold lesser cost than other carbon sources.

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利用未利用食物生产丙酸钙中试水平的经济评价

食物垃圾生物炼制方法是一种有效的废物管理途径，产生的食物垃圾可以用来生产高成本的产品，如丙酸。本研究的目的是利用食物垃圾催化合成丙酸钙。在筛选的微生物中，根据碳酸钙存在下形成的清晰带选择了谢尔曼丙酸杆菌。随后，用淀粉酶和蛋白酶对未处理的食物垃圾进行预处理，并用于发酵生产。采用Box Behnken设计对工艺参数进行统计优化。在pH 6.5±0.1、温度35±2℃、时间15±0.5 d条件下，产率最高可达~ 86%。为验证优化后的数据，进行补料分批发酵，在优化后的条件下，丙酸钙产量为7.9 g/100 mL。最后，进行了成本分析，发现利用食物垃圾的成本比其他碳源低1.6倍。

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