Biodegradation kinetic modeling of pro-oxidant filled polypropylene composites under thermophilic composting conditions after abiotic treatment.
Biodegradability
Composting
Hydrolysis
Nonlinear regression
Polypropylene
Journal
Environmental science and pollution research international
ISSN: 1614-7499
Titre abrégé: Environ Sci Pollut Res Int
Pays: Germany
ID NLM: 9441769
Informations de publication
Date de publication:
May 2021
May 2021
Historique:
received:
30
03
2020
accepted:
18
11
2020
pubmed:
9
1
2021
medline:
13
5
2021
entrez:
8
1
2021
Statut:
ppublish
Résumé
This work aims at modeling and characterizing the kinetics of biodegradation of polypropylene loaded with cobalt stearate as pro-oxidant after abiotic treatment. Eight films of these composites were prepared using different pro-oxidant loadings. These films were treated abiotically using accelerated weathering for 40 h, and biotically using aerobic composting as per ASTM D 5338. The experimental data were analyzed using an eight-parameter Komilis model containing a flat lag phase. The model formulations involved hydrolysis of primary solid carbon and its subsequent mineralization. The first step was rate controlling and it included hydrolysis of slowly (C
Identifiants
pubmed: 33415629
doi: 10.1007/s11356-020-11766-0
pii: 10.1007/s11356-020-11766-0
doi:
Substances chimiques
Polypropylenes
0
Reactive Oxygen Species
0
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
21231-21244Références
Acik G, Altinkok C, Tasdelen MA (2018) Synthesis and characterization of polypropylene-graft-poly (l-lactide) copolymers by CuAAC click chemistry. J Polym Sci A Polym Chem 56:2595–2601
Ahuja S, Singh D (2011) A kinetic model of alkali catalyzed phenol-furfural novalac resinification. Polym Polym Compos 19:581–586
Ahuja S (2015) Discontinuity analysis for the treatment of nonlinear lumped-parameter systems for singular inputs. Theor Found Chem Eng 49:612–621
Ahuja S, Arya RK (2017) Comparison of the performances of different reduced forms of a condenser model. Chem Eng Technol 40:1630–1637
Ahuja S, Arya RK (2018) Laplace transform treatment for chemical engineering systems: whether to use 0− or 0 + ? Chem Eng Technol 41:875–882
Al-Salem S, Al-Hazza'a A, Karam H, Al-Wadi M, Al-Dhafeeri A, Al-Rowaih A (2019a) Insights into the evaluation of the abiotic and biotic degradation rate of commercial pro-oxidant filled polyethylene (PE) thin films. J Environ Manag 250:109475
Al-Salem S, Sultan H, Karam H, Al-Dhafeeri A (2019b) Determination of biodegradation rate of commercial oxo-biodegradable polyethylene film products using ASTM D 5988. J Polym Res 26:157
Antunes MC, Agnelli JA, Babetto AS, Bonse BC, Bettini SH (2018) Correlating different techniques in the thermooxidative degradation monitoring of high-density polyethylene containing pro-degradant and antioxidants. Polym Test 69:182–187
Arráez FJ, Arnal ML, Müller AJ (2018) Thermal and UV degradation of polypropylene with pro-oxidant. Abiotic characterization. J Appl Polym Sci 135:46088
ASTM D (2005): 4329-05. Standard practice for fluorescent uv exposure of plastics. West Conshohocken
ASTM D (2011): Standard test method for determining aerobic biodegradation of plastic materials under controlled composting conditions, Incorporating Thermophilic Temperatures
Darie RN, Bodirlau R, Teaca CA, Macyszyn J, Kozlowski M, Spiridon I (2013) Influence of accelerated weathering on the properties of polypropylene/polylactic acid/eucalyptus wood composites. Int J Polym Anal Charact 18:315–327
Dziadek M, Stodolak-Zych E, Cholewa-Kowalska K (2017) Biodegradable ceramic-polymer composites for biomedical applications: a review. Mater Sci Eng C 71:1175–1191
Gao Z, Kaneko T, Amasaki I, Nakada M (2003) A kinetic study of thermal degradation of polypropylene. Polym Degrad Stab 80:269–274
Ham RK, Komilis D (2003) A laboratory study to investigate gaseous emissions and solids decomposition during composting of municipal solid wastes. US Environmental Protection Agency, Washington
Islam NZM, Othman N, Ahmad Z, Ismail Z (2011) Effect of pro-degradant additive on photo-oxidative aging of polypropylene film. Sains Malays 40:803–808
Jeon HJ, Kim MN (2016) Isolation of mesophilic bacterium for biodegradation of polypropylene. Int Biodeterior Biodegrad 115:244–249
Kalita NK, Bhasney SM, Kalamdhad A, Katiyar V (2020) Biodegradable kinetics and behavior of bio-based polyblends under simulated aerobic composting conditions. J Environ Manag 261:110211
Kérouani S, Djerboua F, Sadoun T (2018) Efficient enhancement in polyethylene biodegradation as a consequence of oxidative fragmentation promoted by pro-oxidant/pro-degradant metal stearate. J Polym Eng 38:625–634
Khoironi A, Hadiyanto H, Anggoro S, Sudarno S (2020) Evaluation of polypropylene plastic degradation and microplastic identification in sediments at Tambak Lorok coastal area, Semarang, Indonesia. Mar Pollut Bull 151:110868
Komilis DP (2006) A kinetic. Analysis of solid waste composting at optimal conditions. Waste Manag 26:82–91
Leejarkpai T, Suwanmanee U, Rudeekit Y, Mungcharoen T (2011) Biodegradable kinetics of plastics under controlled composting conditions. Waste Manag 31:1153–1161
Madhu G, Bhunia H, Bajpai PK, Nando GB (2016) Physico-mechanical properties and biodegradation of oxo-degradable HDPE/PLA blends. Polym Sci Ser A 58:57–75
Mandal DK, Bhunia H, Bajpai PK, Chaudhari CV, Dubey KA, Varshney L (2018a) Morphology, rheology and biodegradation of oxo-degradable polypropylene/polylactide blends. J Polym Eng 38:239–249
Mandal DK, Bhunia H, Bajpai PK, Kumar A, Madhu G, Nando GB (2018b) Biodegradation of pro-oxidant filled polypropylene films and evaluation of the ecotoxicological impact. J Polym Environ 26:1061–1071
Mandal DK, Bhunia H, Bajpai PK (2019a) Thermal degradation kinetics of oxo-degradable PP/PLA blends. J Polym Eng 39:58–67
Mandal DK, Bhunia H, Bajpai PK, Chaudhari CV, Dubey KA, Varshney L, Kumar A (2019b) Preparation and characterization of polypropylene/polylactide blends and nanocomposites and their biodegradation study. J Thermoplas Compos Mater:089270571985060. https://doi.org/10.1177/0892705719850601
Marcela C, Alex S, Baltus C, SÃlvia H (2017) Abiotic thermo-oxidative degradation of high density polyethylene: effect of manganese stearate concentration. Polym Degrad Stab 143:95–103
Montagna LS, Forte MMDC, Santana RMC (2014): Study on the accelerated biodegradation of PP modified with an organic pro-degradant additive. J Appl Polym Sci 131
Montagna LS, Catto AL, de Camargo Forte MM, Chiellini E, Corti A, Morelli A, Santana RMC (2015) Comparative assessment of degradation in aqueous medium of polypropylene films doped with transition metal free (experimental) and transition metal containing (commercial) pro-oxidant/pro-degradant additives after exposure to controlled UV radiation. Polym Degrad Stab 120:186–192
Muthukumar T, Aravinthan A, Mukesh D (2010) Effect of environment on the degradation of starch and pro-oxidant blended polyolefins. Polym Degrad Stab 95:1988–1993
Narayan C, Madhu Dr G, Ms K, Diksha B (2019) Evaluation of biodegradability characteristics of cellulose-based film as per IS/ISO 14855-1. J Appl Packag Res 11:2
Niemczyk A, Dziubek K, Grzymek M, Czaja K (2019) Accelerated laboratory weathering of polypropylene composites filled with synthetic silicon-based compounds. Polym Degrad Stab 161:30–38
Panahi L, Gholizadeh M, Hajimohammadi R (2020) Investigating the degradability of polyethylene using starch, oxo-material, and polylactic acid under the different environmental conditions. Asia-Pacific J Chem Eng 15:e2402
Patwary F, Mittal V (2015) Degradable polyethylene nanocomposites with silica, silicate and thermally reduced graphene using oxo-degradable pro-oxidant. Heliyon 1:e00050
Pelegrini K, Maraschin TG, Brandalise RN, Piazza D (2019) Study of the degradation and recyclability of polyethylene and polypropylene present in the marine environment. J Appl Polym Sci 136:48215
Petric I, Selimbašić V (2008) Development and validation of mathematical model for aerobic composting process. Chem Eng J 139:304–317
Rosa D, Grillo D, Bardi M, Calil M, Guedes C, Ramires E, Frollini E (2009) Mechanical, thermal and morphological characterization of polypropylene/biodegradable polyester blends with additives. Polym Test 28:836–842
Sable S, Mandal DK, Ahuja S, Bhunia H (2019) Biodegradation kinetic modeling of oxo-biodegradable polypropylene/polylactide/nanoclay blends and composites under controlled composting conditions. J Environ Manag 249:109186
Sable S, Ahuja S, Bhunia H (2020a) Biodegradation kinetic modeling of acrylic acid-grafted polypropylene during thermophilic phase of composting. Iran Polym J 29:735–747
Sable S, Ahuja S, Bhunia H (2020b) Studies on biodegradability of cobalt stearate filled polypropylene after abiotic treatment. J Polym Environ 28:2236–2252
Salomez M, George M, Fabre P, Touchaleaume F, Cesar G, Lajarrige A, Gastaldi E (2019) A comparative study of degradation mechanisms of PBSA and PHBV under laboratory-scale composting conditions. Polym Degrad Stab 167:102–113
Santhoskumar A, Palanivelu K (2012) A new additive formulation to enhance photo and biodegradation characteristics of polypropylene. Int J Polym Mater 61:793–808
Sedničková M, Pekařová S, Kucharczyk P, Bočkaj J, Janigová I, Kleinová A, Jochec-Mošková D, Omaníková L, Perďochová D, Koutný M (2018) Changes of physical properties of PLA-based blends during early stage of biodegradation in compost. Int J Biol Macromol 113:434–442
Singh G, Kaur N, Bhunia H, Bajpai PK, Mandal UK (2012) Degradation behaviors of linear low-density polyethylene and poly (L-lactic acid) blends. J Appl Polym Sci 124:1993–1998
Song J, Murphy R, Narayan R, Davies G (2009) Biodegradable and compostable alternatives to conventional plastics. Philos Trans Royal Soc London B: Biol Sci 364:2127–2139
Stloukal P, Pekařová S, Kalendova A, Mattausch H, Laske S, Holzer C, Chitu L, Bodner S, Maier G, Slouf M (2015) Kinetics and mechanism of the biodegradation of PLA/clay nanocomposites during thermophilic phase of composting process. Waste Manag 42:31–40
Stloukal P, Jandíková G, Koutny M, Sedlařík V (2016) Carbodiimide additive to control hydrolytic stability and biodegradability of PLA. Polym Test 54:19–28
Stloukal P, Kucharczyk P (2017) Acceleration of polylactide degradation under biotic and abiotic conditions through utilization of a new, experimental, highly compatible additive. Polym Degrad Stab 142:217–225
Subramaniam M, Sharma S, Gupta A, Abdullah N (2018) Enhanced degradation properties of polypropylene integrated with iron and cobalt stearates and its synthetic application. J Appl Polym Sci 135:46028
Sugumaran V, Bhunia H, Narula AK (2018) Evaluation of biodegradability of potato peel powder based polyolefin biocomposites. J Polym Environ 26:2049–2060
Zdanowicz M, Johansson C (2016) Mechanical and barrier properties of starch-based films plasticized with two-or three component deep eutectic solvents. Carbohydr Polym 151:103–112