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Статті в журналах з теми "Biowaste valorisation"

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Автор: Grafiati
Опубліковано: 14 березня 2023

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1

Valentini, Federica, Francesco Ferlin, Simone Lilli, Assunta Marrocchi, Liu Ping, Yanlong Gu та Luigi Vaccaro. "Valorisation of urban waste to access low-cost heterogeneous palladium catalysts for cross-coupling reactions in biomass-derived γ-valerolactone". Green Chemistry 23, № 16 (2021): 5887–95. http://dx.doi.org/10.1039/d1gc01707a.

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2

Vea, Eldbjørg Blikra, Daina Romeo, and Marianne Thomsen. "Biowaste Valorisation in a Future Circular Bioeconomy." Procedia CIRP 69 (2018): 591–96. http://dx.doi.org/10.1016/j.procir.2017.11.062.

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3

Mong, Guo Ren, Cheng Tung Chong, Jo-Han Ng, William Woei Fong Chong, Su Shiung Lam, Hwai Chyuan Ong, and Farid Nasir Ani. "Microwave pyrolysis for valorisation of horse manure biowaste." Energy Conversion and Management 220 (September 2020): 113074. http://dx.doi.org/10.1016/j.enconman.2020.113074.

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4

Orooji, Yasin, Ning Han, Zahra Nezafat, Nasrin Shafiei, Zhangfeng Shen, Mahmoud Nasrollahzadeh, Hassan Karimi-Maleh, Rafael Luque, Awais Bokhari, and Jiří Jaromír Klemeš. "Valorisation of nuts biowaste: Prospects in sustainable bio(nano)catalysts and environmental applications." Journal of Cleaner Production 347 (May 2022): 131220. http://dx.doi.org/10.1016/j.jclepro.2022.131220.

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5

Greco, Carlo, Antonio Comparetti, Pierluigi Febo, Giulia La Placa, Michele Massimo Mammano, and Santo Orlando. "Sustainable Valorisation of Biowaste for Soilless Cultivation of Salvia Officinalis in a Circular Bioeconomy." Agronomy 10, no. 8 (August 7, 2020): 1158. http://dx.doi.org/10.3390/agronomy10081158.

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Анотація:
The aim of this work is to assess the usefulness of biowaste deriving from Circular Bioeconomy (CBE) processes (i.e., vermicompost, compost and digestate), as growing substrates for the partial or total replacement of peat, by measuring the vegetation biometric parameters of sage (Salvia officinalis L.)—leaf area; Soil Plant Analysis Development (SPAD) value (index of chlorophyll concentration); fresh and dry weight of leaves; stem weight; root length. The results showed that vermicompost positively influenced most of above parameters (+16.7% for leaf area, +7.3% for fresh leaf weight, +6.4% for dry leaf weight, +8.5% for fresh stem weight, +0.9% for dry stem weight, +16% for root length) and, therefore, can be used as a sustainable growing substrate, alternative to peat, for the sage soilless cultivation. Yet, the results of some biometric parameters are better with peat rather than with compost (−7.2% for SPAD value, −47.3% for fresh leaf weight, −46.8% for dry leaf weight, −32.9% for fresh stem weight, −39.1% for dry stem weight, −52.4% for fresh root weight, −56.6% for dry root weight) and digestate (−30.2% for fresh leaf weight, −33.6% for dry leaf weight, −23.9% for fresh stem weight, −27% for dry stem weight, −51.8% for fresh root weight, −34.4% for dry root weight, −16% for root length). Therefore, these results are interesting for potted plants in nursery activity, while the above differences must be verified also after the transplanting of the tested plants in open field. However, the use of all the above growing substrates alternative to peat allows the sustainable valorization of food industry by-products, plant biomass, animal manure and the Organic Fraction of Municipal Solid Waste (OFMSW).
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6

Rodríguez, P., A. Cerda, X. Font, A. Sánchez, and A. Artola. "Valorisation of biowaste digestate through solid state fermentation to produce biopesticides from Bacillus thuringiensis." Waste Management 93 (June 2019): 63–71. http://dx.doi.org/10.1016/j.wasman.2019.05.026.

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7

Tsafara, Panagiota, Konstantinos Passadis, Diogenis Christianides, Emmanouil Chatziangelakis, Ioannis Bousoulas, Dimitris Malamis, Sofia Mai, Elli Maria Barampouti, and Konstantinos Moustakas. "Advanced Bioethanol Production from Source-Separated Bio-waste in Pilot Scale." Sustainability 14, no. 19 (September 25, 2022): 12127. http://dx.doi.org/10.3390/su141912127.

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Анотація:
The Sustainable Development Goals along with national policies pave the way to a sustainable, circular, and resource efficient development model. The environmental scenario could change with the promotion of biofuels such as bioethanol. Recent research on bioethanol aspires to reduce the costs production, via the optimization of process variables and the increase in ethanol yields. This study presented a stepwise upscaling of bioethanol production from dried source-separated municipal biowaste. Three different scales (250 mL, 4 L, 100 L) were examined applying advanced ethanol production via simultaneous saccharification and fermentation. The bioprocess runs at each of the three scales and produced very similar ethanol yields, indicating excellent scalability. The validated optimum conditions at the pilot scale were 25% solids loading, Spirizyme 40 μL/g starch, NS87014 175 μL/g cellulose, and 2% S. cerevisiae. The results from the pilot trials were very successful and repeatable. Τhe mean ethanol yield was 86.60 ± 4.91%, while the structural component such as starch and cellulose were efficiently hydrolysed. The produced ethanol was recovered and purified meeting the standards of absolute ethanol, rendering it suitable for industrial uses and for biofuel use as well. Energy consumption aspects were discussed as well. Conclusively, all the stages of the value chain for source-separated biowaste valorisation (collection, treatment, added value product recovery) were successfully showcased.
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8

Pinto, Diana, Jorge Reis, Ana Margarida Silva, Miguel Salazar, Stefano Dall’Acqua, Cristina Delerue-Matos, and Francisca Rodrigues. "Valorisation of Salicornia ramosissima biowaste by a green approach – An optimizing study using response surface methodology." Sustainable Chemistry and Pharmacy 24 (December 2021): 100548. http://dx.doi.org/10.1016/j.scp.2021.100548.

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9

Cerda, Alejandra, Laura Mejias, Paula Rodríguez, Alejandra Rodríguez, Adriana Artola, Xavier Font, Teresa Gea, and Antoni Sánchez. "Valorisation of digestate from biowaste through solid-state fermentation to obtain value added bioproducts: A first approach." Bioresource Technology 271 (January 2019): 409–16. http://dx.doi.org/10.1016/j.biortech.2018.09.131.

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10

Gold, Moritz, David Ireri, Christian Zurbrugg, Trevor Fowles, and Alexander Mathys. "Efficient and safe substrates for black soldier fly biowaste treatment along circular economy principles." Detritus, no. 16 (September 30, 2021): 31–40. http://dx.doi.org/10.31025/2611-4135/2021.15116.

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Black soldier fly larvae (BSFL) treatment is an emerging technology for the valorisation of nutrients from biowaste. Selecting suitable substrates for BSFL treatment is a frequent challenge for researchers and practitioners. We conducted a systematic assessment of BSFL treatment substrates in Nairobi, Kenya to source more substrate for upscaling an existing BSFL treatment facility. The applied approach is universal and considers four criteria: 1) substrate availability and costs, 2) BSFL process performance, 3) product safety, and 4) waste recovery hierarchy. Data were collected from previous waste assessments or semi-structured key informant interviews and sight tours of waste producers. Waste nutritional composition and BSFL process performance metrics were summarised in the “BSFL Substrate Explorer”, an open-access web application that should facilitate the replication of such assessments. We show that most biowaste in Nairobi is currently not available for facility upscaling due to contamination with inorganics and a lack of affordable waste collection services. A mixture of human faeces, animal manure, fruit/vegetable waste, and food waste (with inorganics) should be pursued for upscaling. These wastes tend to have a lower treatment performance, but in contrast to cereal-based byproducts, food industry byproducts, and segregated food waste, there is no conflict with animal feed utilization. The traceability of substrates, source control, and post-harvest processing of larvae are required to ensure feed safety. The criteria presented here ensures the design of BSFL treatment facilities based on realistic performance estimates, the production of safe insect-based products, and environmental benefits of products compared to the status quo.
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11

Sharma, Pallavi, Ruchika, Poonam Dhiman, Rajneesh Kumar, Ankit Saneja, and Damanpreet Singh. "A solid dispersion of Citrus reticulata peel biowaste as an effective antiepileptic: Sustainable approach toward value addition and agro-industrial waste valorisation." Journal of Drug Delivery Science and Technology 81 (March 2023): 104238. http://dx.doi.org/10.1016/j.jddst.2023.104238.

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12

Wubben, Emiel, Nienke Runge, and Vincent Blok. "From waste to profit: an interorganisational perspective on drivers for biomass valorisation." Journal on Chain and Network Science 12, no. 3 (January 1, 2012): 261–72. http://dx.doi.org/10.3920/jcns2012.x215.

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Анотація:
This paper focuses on the identification of interorganisational drivers for biomass valorisation that create relational rents. Given the growing interest in the valorisation of biowastes it is posited that entrepreneurial firms develop interorganisational relationships to generate competitive advantages. The literature study of transaction cost theory, resource-based theory, and network theory brought about four plausible drivers for innovative business development in biomass valorisation. The newness of research on biomass valorisation, scarcity of good data and confidentiality issues made explorative research necessary, and therefore the case study method was applied on six focal firms in the Netherlands. The results confirm the relevancy of three out of the four suggested drivers for biomass valorisation that create relational rents, namely: complementary resources, partner alignment and relationship governance.
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13

López-Gómez, José Pablo, Cristina Pérez-Rivero, and Joachim Venus. "Valorisation of solid biowastes: The lactic acid alternative." Process Biochemistry 99 (December 2020): 222–35. http://dx.doi.org/10.1016/j.procbio.2020.08.029.

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14

Ferreira, Catarina I. A., Vânia Calisto, Eduardo M. Cuerda-Correa, Marta Otero, Helena Nadais, and Valdemar I. Esteves. "Comparative valorisation of agricultural and industrial biowastes by combustion and pyrolysis." Bioresource Technology 218 (October 2016): 918–25. http://dx.doi.org/10.1016/j.biortech.2016.07.047.

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15

Varghese, Shery M., Yuvraj Khasherao Bhosale, U. K. Aruna Nair, V. Hema, and V. R. Sinija. "Valorisation and Characterization of Allium cepa var. aggregatum Biowastes for the Production of Microcrystalline Cellulose." Waste and Biomass Valorization 13, no. 4 (November 16, 2021): 1931–44. http://dx.doi.org/10.1007/s12649-021-01625-5.

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16

Srenuja, Dekka, Akalya Shanmugam, and Vadakkepulppara Ramachandran Nair Sinija. "Novel zero waste tactics for commercial vegetables – recent advances." International Journal of Food Engineering, November 14, 2022. http://dx.doi.org/10.1515/ijfe-2022-0126.

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Анотація:
Abstract Commercial vegetables include tomatoes, potatoes, onions, and eggplant due to their surplus production, availability, and affordability. The valorisation of the massive wastage of commercial vegetables and providing a long-term solution has been challenging. The review addresses the implications of biowastes on the environment and fosters the recent investigations into valorising commercial vegetable waste to develop multiple value-added products. It discussed the outcomes of the multiple technologies, majorly on green chemistry extraction, while outlining other methods such as fermentation, enzymatic treatments, 3D printing foods, high-pressure homogenisation, microencapsulation, bio-absorption method, and pyrolysis for their respective vegetable wastes. Agri-residues can be a valuable source for formulating functional ingredients, natural additives, biodiesel, dyes, and animal feed. This comprehensive review proposes a strategy to upcycle low-cost biowaste to boost the economic and ecological benefits. The current review captures the interests and great collaborations between researchers, industrialists, policymakers, waste management bodies, and eco-activists.
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17

Li, Yan, Yun Lu, Xueyu Jiang, Lijun Lu, Jinlei Qin, Dali Yang, Jeng-Lung Chen, Lina Zhang, Deli Wang, and Aiwen Lei. "Engineering vacancy-defect atomic Ni sites via biowaste valorisation for high-power kinetics in lithium-sulfur batteries." Energy Storage Materials, November 2022. http://dx.doi.org/10.1016/j.ensm.2022.10.053.

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18

Shah, Asmita, Harish Singh, Pongthep Prajongtat, Manish Chandra Joshi, Supa Hannongbua, Nattaporn Chattham, Youngki Kim, Sandeep Kumar, and Dharmendra Pratap Singh. "Scalable production of reduced graphene oxide via biowaste valorisation: An efficient oxygen reduction reaction towards metal-free electrocatalysis." New Journal of Chemistry, 2022. http://dx.doi.org/10.1039/d2nj05082j.

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The development of substantial, environmental-friendly and low-cost electrocatalysts for efficient oxygen reduction reaction (ORR) is essentially important for the production and storage of green energy which has sparked the curiosity...
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19

Dugmore, Thomas I. J., James H. Clark, Julen Bustamante, Joseph A. Houghton, and Avtar S. Matharu. "Valorisation of Biowastes for the Production of Green Materials Using Chemical Methods." Topics in Current Chemistry 375, no. 2 (April 2017). http://dx.doi.org/10.1007/s41061-017-0133-8.

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