Abstract
Interest in small scale composting systems is currently growing, and this in turn raises the question of whether the compostable bags are as suitable as in industrial composting facilities. In this work the physical degradation percentage of compostable lightweight bioplastic bags in two types of composter was examined. The main goal was to understand whether the mild biodegrading conditions that occur in electromechanical or static home composters are sufficient to cause effective bag degradation in times consistent with the householders’ or operators’ expectations. Bags, which complied with standard EN 13432, were composted in a number of 600 L static home composters, which were run in different ways (e.g., fed only with vegetables and yard waste, optimizing the humid/bulking agent fraction, poorly managed) and a 1 m3 electromechanical composter. Six months of residence time in static home composters resulted in 90–96 wt% degradation depending on the management approach adopted, and two months in the electromechanical composter achieved 90 wt%. In the latter case, three additional months of curing treatment of the turned heaps ensured complete physical degradation. In conclusion, in terms of the level and times of physical degradation, the use of compostable bioplastic bags appeared promising and consistent with home composting practices.
Highlights
Compostable bioplastic bags decrease the contamination of the final product with macro or micro fossil plastics resulting from the use of conventional, not biodegradable, plastic shopping bags and save a not negligible portion of the organic waste with fossil plastics, which is removed by sorting systems [3]
As revealed in Section 2.1.1, the experiment with the Joraform JK5100 was interrupted after a few days because of clogging of the internal moving components caused by the bags wrapping around them
This study looked at the suitability of single-use lightweight compostable bioplastic bags for collecting organic waste intended for treatment in static home composters and
Summary
15th day 3 empty compostable bioplastic bags added and 2 compostable bioplastic bags filled with 1 kg of kitchen waste added to each static home composter. 45th day Compostable bioplastic bag fragments examined after completely emptying the static home composters. 85th day 2 empty compostable bioplastic bags and 2 compostable bioplastic bags filled with 1 kg of kitchen waste added to each static home composter. End of the test: the static home composters were completely emptied and the compostable bioplastic bags fragments examined. On emptying any of the composters (after 72 and 45 days for the EC and the static home composters, respectively) and at the end of the composting process, all the organic matter was screened using a sieve of 5 cm and subsequently using a sieve of 2 mm in accordance with the criteria established by the ISO 16929 test method pass level [22,23]. Any bioplastic bag fragments larger than 2 mm were taken apart, cleaned of any organic particles stuck to them by means of sonication in an ultrasonic bath, dried at 40 ◦ C, and weighed
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