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The resulting models are highly significant (model p-values less then 0.0001), proving the ability to extract reliable information from industry-scale waste processing experiments. Concerning commercial waste shredding, the models provide new insights into process behavior, for example, the quadratic dependence of the mass flow on the shaft rotation speed, with the highest hourly mass flows at 84% of the maximum shaft rotation speed.The improvement of waste separation is of great interest in mitigating problems related to municipal solid waste (MSW) management. Trash bins are commonly used for waste separation at source. Thus, appropriate trash bin designs are promising to improve waste collection and separation performance. This study investigated the effect of trash bin design on waste collection and waste-sorting behaviors in Thailand, focusing on color preference, setting location, and perceived ease in finding a trash bin (noticeability). Trash bins to separately collect compostable waste, recyclable waste, and PET bottles were tested. Perceived preferences for colors and noticeability were evaluated using pairwise comparison by survey questionnaires with a sample size of 889 respondents. Waste collection experiments were conducted to reveal waste collection, capture, contamination, and effective capture rates in three locations for 15 weeks. The results were analyzed via statistical methods. They suggested that trash bins with the least preferred colors had the highest waste separation efficiencies. On the other hand, color preference towards trash bins had no significant impact on waste collection. In addition, lower color preference contributed to lower noticeability of trash bins. The effective capture rate had a significantly negative correlation with noticeability. Highlighting the location of less noticeable trash bins might have helped participants practice correct waste disposal. In conclusion, location, unit color, and noticeability of trash bins can affect waste collection and separation performance. Increasing human awareness through appropriate design and setting of trash bins might enable more efficient collection of segregated wastes.The resource and environmental problems caused by the accumulation of take-out packaging waste have attracted wide concern and the management has become a critical need. read more To this end, a tripartite game model of governments, consumers and take-out platforms was built to analyze the dynamic evolution process of behavioral choice and to explore the effects of advertising, government policies and effort level on the waste system. The results showed that (1) the effort level expended by government and take-out platforms had different mechanisms for the evolution path of the system. A positive correlation existed between governments' effort levels and evolution speed, while the correlation with the effort level in take-out platforms was negative. (2) The advertising effect positively promoted the evolution path of governments and take-out platforms. (3) The governments' subsidies and penalties for consumers and take-out platforms had a significant positive impact on the evolution path of the two. This study provides a new perspective for the research on take-out packaging waste recycling and the conclusions can provide a reference for governments to formulate effective take-out waste management policies.To comprehensively investigate the application of membrane separation technology in the treatment of landfill leachate in China, the performance of nearly 200 waste management enterprises of different sizes in China were analyzed, with an emphasis on their scale, regional features, processes, and economic characteristics. It was found that membrane separation technologies, mainly nanofiltration (NF), reverse osmosis (RO), and NF + RO, have been used in China since 2004. The treatment capacity of the two most dominant membrane separation technologies, i.e., NF and RO, were both almost 60,000 m3/d in 2018, and both technologies are widely used in landfills and incineration plants. Their distribution is mainly concentrated in eastern and southwestern China, where the amount of municipal solid waste (MSW) is relatively high and the economy is developing rapidly. Membrane separation technology is the preferred technique for the advanced treatment of leachate because more contaminants can be effectively removed by the technology than by other advanced processes. However, the membrane retentate that is produced using this technology-commonly known as leachate concentrate-is heavily contaminated due to the enrichment of almost all the inorganic anions, heavy metals, and organic matter that remain after bioprocessing. An economic cost analysis revealed that the operating cost of membrane separation technology has stabilized and is between 1.77 USD/m3 and 4.90 USD/m3; electricity consumption is the most expensive cost component. This review describes the current problems with the use of membrane separation technology and recommends strategies and solutions for its future use.High-sulfur mixed fly ash residues from semi-dry flue gas desulfurization units in coal-fired power plants are unsuitable for use as supplementary cementitious material (SCM) for concrete production or carbon dioxide utilization. In this work, we explore the potential for upcycling a representative spray dry absorber ash (10.44 wt% SO3) into concrete-SCM by selective sulfur removal via weak acid dissolution while simultaneously exploring the possibility for CO2 capture. Towards this effort, parametric studies varying liquid-to-solid ratio, acidity, and CO2 pressure were conducted in a batch reactor to establish the sulfur removal characteristics in de-ionized water, nitric acid, and carbonic acid, respectively. The dissolution studies show that the leaching of sulfur from calcium sulfite hemihydrate, which is the predominant S phase, is rapid and achieves a concentration plateau within 5 min, and subsequently, appears to be controlled by the primary mineral solubility. Preferential S removal was sufficient to meet SCM standards (e.g., 5.0 wt% as per ASTM C618) using all three washing solutions with 0.62-0.72 selectivity (S^), defined as the molar ratio of S to Ca in the leachate, for a raw fly ash with bulk S^ = 0.3. Acid dissolution with 1.43 meq/g of ash or under 5 atm CO2 retained > 18 wt% CaO and other Si-, Al-rich phases in the fly ash. Based on the experimental findings, two sulfur removal schemes were suggested for either integration with CO2 capture and utilization processes using flue gas or to produce fly ash for use as a SCM.