Relevant bibliographies by topics / Milled waste Plastic (MWP)

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Academic literature on the topic 'Milled waste Plastic (MWP)'

Author: Grafiati
Published: 7 June 2025
Last updated: 2 August 2025

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Journal articles on the topic "Milled waste Plastic (MWP)"

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Oyelami, A.K., and O.A. Olaniyi. "Recycling and Repurposing Plastic Waste in Ajayi Crowther as a Partial Replacement for Quarry Dust in Interlocking Block Production." Engineering and Technology Journal 10, no. 06 (2025): 5345–52. https://doi.org/10.5281/zenodo.15590091.

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Plastic waste disposal remains a significant environmental challenge due to its non-degradable nature. Additionally, the rising cost of construction materials necessitates alternative sustainable solutions. This study evaluates the recycling and repurposing of plastic waste in Ajayi Crowther as a partial replacement for quarry dust in interlocking block production to determine its feasibility in sustainable construction. Waste plastic bottles were collected, burnt, and milled into powder form. Specific gravity and sieve analysis tests were conducted on both quarry dust and milled waste plastic
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Faisal, Farjana, Mohammad Golam Rasul, Ashfaque Ahmed Chowdhury, and Md Islam Jahirul. "Optimisation of Process Parameters to Maximise the Oil Yield from Pyrolysis of Mixed Waste Plastics." Sustainability 16, no. 7 (2024): 2619. http://dx.doi.org/10.3390/su16072619.

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The study sought to optimise process parameters of thermal pyrolysis of mixed waste plastic (MWP) to maximise pyrolytic oil yield. High-density polyethylene (HDPE), polypropylene (PP), and polystyrene (PS) were used as feedstocks for pyrolysis. Response surface methodology (RSM) and Box–Behnken design (BBD) were used to optimise the pyrolysis process. The optimisation was carried out by varying three independent variables, namely, reaction temperature (460–540 °C), residence time (30–150 min), and size of MWP feedstock (5–45 mm), to increase the liquid oil yield. A BBD matrix was used to gener
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Demchenko, Oksana, Roman Mishchenko, and Volodymyr Ilchenko. "Physical and mechanical properties recycled hot mix asphalt based on milled asphalt with the plastic fiber addition." Dorogi i mosti 2021, no. 23 (2021): 76–85. http://dx.doi.org/10.36100/dorogimosti2021.23.076.

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Introduction. The current state of the network of public roads due to the negative impact of climatic factors and ever-increasing traffic loads characterized by significant amounts of deformation and destruction of the road structure so requires significant material costs for maintenance and gradual improvement of a transport and operational condition according to the operating regulatory requirements.Problem Statement. One of the promising areas to reduce the cost of road construction is manufacturing the recycled hot mix asphalt based on milled asphalt, which is usually formed in scarifying
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Ilchenko, V. V., V. V. Tymoshevskyi, R. A. Mishchenko, D. S. Lyashko, and V. V. Riznyk. "THE PROSPECTS MANUFACTURE OF RECYCLED HOT MIX ASPHALT WITH FIBER PLASTIC REINFORCEMENT." ACADEMIC JOURNAL Series: Industrial Machine Building, Civil Engineering 1, no. 48 (2017): 258–64. http://dx.doi.org/10.26906/znp.2017.48.809.

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The most common ways of milled asphalt re-use, what is formed during road topping repair is considered. The results of experimental studies of preparation technology features and physical and mechanical properties of recycled hot mix asphalt determination based on milled asphalt with plastic fiber addition that obtained from industrial waste is presented. Defined regulations correspondence obtained recycled hot mix asphalt and ways of their use in road construction is determined.
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Tashkeel, Rafay, Gobinath P. Rajarathnam, Wallis Wan, Behdad Soltani, and Ali Abbas. "Cost-Normalized Circular Economy Indicator and Its Application to Post-Consumer Plastic Packaging Waste." Polymers 13, no. 20 (2021): 3456. http://dx.doi.org/10.3390/polym13203456.

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This work presents an adaptation of the material circularity indicator (MCI) that incorporates economic consideration. The Ellen MacArthur Foundation (EMF) has developed the MCI to characterize the sustainability, viz., the “circularity”, of a product by utilizing life cycle assessment data of a product range rather than a single product unit. Our new “circo-economic” indicator (MCIE), combines product MCI in relation to total product mass, with a cost-normalization against estimated plastic recycling costs, for both separately collected and municipal solid waste. This is applied to assess Dut
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Jonna, Srinivas, and Jed Lyons. "Processing and properties of cryogenically milled post-consumer mixed plastic waste." Polymer Testing 24, no. 4 (2005): 428–34. http://dx.doi.org/10.1016/j.polymertesting.2005.01.009.

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Malaiškienė, Jurgita, Jelena Škamat, Andrius Kudžma, Renata Boris, and Darius Bačinskas. "The Impact of Differently Prepared Mixed Plastic Waste Granules on the Structure and Properties of Concrete." Sustainability 17, no. 3 (2025): 1052. https://doi.org/10.3390/su17031052.

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The relatively low production cost and short lifespan of plastic products contribute significantly to the annual accumulation of plastic waste, raising serious environmental concerns. Conventional disposal methods like landfill and incineration not only waste valuable resources but also result in substantial secondary pollution. In response to the imperatives of sustainable development and environmental protection, in this work, different preparation methods (mechanical processing; heating and covering with milled sand and glass; covering plastic granules with polymers and then mineral materia
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Wei, Baojie, Liang Li, Shiyu Ding, Ning Chen, Shibing Bai, and Shuangqiao Yang. "Solid-State Shear Milling for Recycling Aluminum–Plastic Packaging Waste: A Sustainable Solution for Mixed Plastic Waste." Sustainability 15, no. 7 (2023): 6144. http://dx.doi.org/10.3390/su15076144.

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The application of paper–aluminum–plastic packaging has been widely adopted in various fields such as the food and medical industries, owing to its exceptional preservation and obstruction properties. Nonetheless, the recycling process for paper and aluminum from this packaging type typically involves water pulping and solvent separation. The resulting residual waste, commonly known as multi-plastic waste (PMW), poses significant challenges in terms of separation and recycling. In this research article, we propose a solution for the recycling of PMW using solid-state shear milling (S3M). This
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Govindan, Balaji, Mukesh P, Nitheesh R S, et al. "Performance assessment on manufacturing of unfired bricks using industrial wastes." E3S Web of Conferences 399 (2023): 03001. http://dx.doi.org/10.1051/e3sconf/202339903001.

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This paper presents eco-friendly unburnt bricks made up of fly ash, waste plastic powder, waste glass powder, lime, gypsum and crusher sand as alternatives to conventional burnt clay bricks for sustainable development. The research focuses on the maximum utilization of industrial waste in eco-friendly unburnt brick production. Materials are characterized according to their chemical and geotechnical properties. In this research, we use a milled waste glass powder of size less than 600μm and plastic powder obtained from plastic waste of size less than 600μm are added along with crushed sand, gyp
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Pařil, Petr, Jan Baar, and Radim Rousek. "Innovative, low-cost eco-composite boards produced from high-energy milled wood, plastic waste, and bio-polymer." BioResources 18, no. 3 (2023): 5635–54. http://dx.doi.org/10.15376/biores.18.3.5635-5654.

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Currently, there is a big issue with waste, its processing and subsequent use. While there are many initiatives to replace materials that are poorly biodegradable, it is necessary to process and ideally use the waste that is already produced. In this study, the properties of composite boards made of waste materials and biodegradable polymer were investigated. The composite boards were made from wood and plastic waste using high-energy milling technology. This technology for material preparation is promising, as it includes controlling the morphology of particles, homogenizing the mixture, and
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Book chapters on the topic "Milled waste Plastic (MWP)"

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Stümpfl, Dominik, Karel Ráž, Philipp Streit, and Andreas P. Weiß. "ADDITIVE MANUFACTURING FOR FAST PROTOTYPING OF A VELOCITY COMPOUNDED RADIAL RE-ENTRY TURBINE." In Proceedings of the 7th International Seminar on ORC Power System (ORC 2023), 2024th ed. Editorial Universidad de Sevilla, 2024. http://dx.doi.org/10.12795/9788447227457_3.

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In order to achieve a drastic reduction in CO2 emissions to limit global warming, it must be possible to globally cover the electricity demand from renewable sources. However, the fluctuating availability of solar and wind energy will nevertheless make it necessary to complement the renewables by thermal power plants. Additionally using e.g., the potentials of waste, biomass or waste heat from industrial processes locally in Organic Rankine Cycle (ORC) power plants is a promising approach to finally achieve a stable and sustainable electricity supply. In the present work, therefore, different
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Conference papers on the topic "Milled waste Plastic (MWP)"

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Baltaeva, M. B., A. M. Manakhov, D. K. Cha, and S. C. Ayirala. "Polymeric Waste-Based Ion-Exchange Resins: A Sustainable Solution for Produced Water Treatment." In SPE Water Lifecycle Management Conference and Exhibition. SPE, 2024. http://dx.doi.org/10.2118/219000-ms.

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Abstract One of the most crucial strategies for reducing the negative environmental effects of water production in oil operations is to identify innovative and cost-efficient techniques for purifying produced water while minimizing the amount of its disposal into the environment. The proposed solution for polymeric waste and its recycling into ion exchange resin allows the removal of monovalent ions from produced water. The obtained purified produced water can be utilized as injection water for waterflooding/smart water flooding or frac-water for unconventionals to contribute towards circular
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Journal articles
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