Your search keyword '"Binghua Yan"' showing total 69 results

1. Effect of Lipid Type on the Acidogenic Performance of Food Waste

Author

Chao Liu, Sheng Li, Hongyu Niu, Haijun Yang, Ju Tan, Jiachao Zhang, Liheng Ren, and Binghua Yan

Subjects

food waste, anaerobic digestion, volatile fatty acids, fats, oils, metabolic pathway, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Due to its high lipid content and intricate constitution, food waste poses a considerable challenge for biotreatment. This research aims to investigate the potential influence of diverse lipid species on anaerobic fermentation, induced by the varying dietary patterns observed in distinct regions. The investigation involved incorporating 5% (w/w) of beef tallow, mutton fat, soybean oil, peanut oil, and rapeseed oil, separately, into simulated food waste, and subjected it to batch mode acidogenic fermentation. The inclusion of unsaturated fatty acids resulted in a redirection of the metabolic pathway from the lactic acid type to the ethanol, acetic acid, and butyric acid types. The succession of the acidogenic metabolic pathway was highly correlated with the lipid types; beef tallow, mutton fat, soybean oil, and peanut oil delayed the metabolic process by 1, 2, 3, and 8 d, respectively, whereas rapeseed oil accelerated it by 2 d. The lipids contained within the food waste did not facilitate the buildup of soluble substances, resulting in a decrease of 14.0~59.7%. Notwithstanding, valeric acid was exclusively generated during the beef tallow and peanut oil treatments, whereas the production of lactic acid in peanut oil showed a 35.9% increase in comparison to the control.

Published

2023

2. Ultrasonic and Thermal Pretreatments on Anaerobic Digestion of Petrochemical Sludge: Dewaterability and Degradation of PAHs.

Author

Jun Zhou, Weizhong Xu, Jonathan W C Wong, Xiaoyu Yong, Binghua Yan, Xueying Zhang, and Honghua Jia

Subjects

Medicine, Science

Abstract

Effects of different pretreatment methods on sludge dewaterability and polycyclic aromatic hydrocarbons (PAHs) degradation during petrochemical sludge anaerobic digestion were studied. Results showed that the total biogas production volume in the thermal pretreatment system was 4 and 5 times higher than that in the ultrasound pretreatment and in the control system, and the corresponding volatile solid removal efficiencies reached 28%, 15%, and 8%. Phenanthrene, paranaphthalene, fluoranthene, benzofluoranthene, and benzopyrene removal rates reached 43.3%, 55.5%, 30.6%, 42.9%, and 41.7%, respectively, in the thermal pretreatment system, which were much higher than those in the ultrasound pretreatment and in the control system. Moreover, capillary suction time (CST) of sludge increased after pretreatment, and then reduced after 20 days of anaerobic digestion, indicating that sludge dewaterability was greatly improved after anaerobic digestion. The decrease of protein and polysaccharide in the sludge could improve sludge dewaterability during petrochemical sludge anaerobic digestion. This study suggested that thermal pretreatment might be a promising enhancement method for petrochemical sludge solubilization, thus contributing to degradation of the PAHs, biogas production, and improvement of dewaterability during petrochemical sludge anaerobic digestion.

Published

2015

3. Removal of manganese in acidic solutions utilizing Achromobacter sp. strain QBM-4 isolated from mine drainage

Author

Qiming Mao, Dongning Wei, Binghua Yan, Shuang Luo, Thomas William Seviour, Zongsu Wei, Xiande Xie, and Lin Luo

Subjects

Acid mine drainage, Manganese-oxidizing bacteria, Environmental Engineering, General Chemical Engineering, Acid resistance, Environmental Chemistry, Manganese removal, Safety, Risk, Reliability and Quality

Abstract

Biological approaches with the core of manganese-oxidizing bacteria (MnOB) are cheap and environmentally friendly solutions for the removal of bivalent manganese (Mn(II)). These bacteria typically worked well in the pH range of 5.5 – 8.0 but poorly under pH below 5.5. In this study, we isolated an acid-tolerant manganese-oxidizing bacterium (Achromobacter sp. strain QBM-4) from acid mine drainage (AMD), which was effective for Mn(II) removal at pH 4.0. Under optimized treatment conditions (i.e., 60.0 mg·L−1 Mn(II), 100.0 mg·L−1 Fe(III), and 35.0 °C), the Mn(II) removal efficiency reached 93.6 ± 0.8% at an initial pH of 4.0. Approximately 68.0% of the Mn(II) was removed through adsorption, and the remainder was attributed to oxidation. The Mn(II) oxidation rate was ~ 0.05 mM·d−1 (initial pH of 4.0), comparable with other MnOB performing under near-neutral solutions. Ferric ions (Fe(III)) can form amorphous iron hydroxides, facilitating sorptive removal and catalytic oxidation of Mn(II). In contrast, ferrous ions (Fe(II)) reductively dissolve manganese oxides, inhibiting Mn(II) removal. A mechanism for the biological removal of Mn(II) was proposed, and the performance of Achromobacter sp. strain QBM-4 was further verified in three types of mine drainage.

Published

2022

4. Manganese Removal from Acid Mine Drainage by a Consortium of Mn-Oxidizing Bacteria in Continuous Stirred Tank Bioreactor: Long-Term Treatment and Reactive Mixture Characterization

Author

Qiming Mao, Zirui Luo, Binghua Yan, Yaoyu Zhou, Shuang Luo, Yuan Yang, Liwei Yao, and Lin Luo

Subjects

Chemistry (miscellaneous), Environmental Chemistry, Chemical Engineering (miscellaneous), Water Science and Technology

Published

2022

5. Challenges in environmental science and engineering

Author

Ho Kyong Shon, Veeriah Jegatheesan, Sherub Phuntsho, Taku Fujiwara, Yunchul Woo, and Binghua Yan

Subjects

Environmental Engineering, Strategic, Defence & Security Studies, General Chemical Engineering, Environmental Chemistry, Chemical Engineering, Safety, Risk, Reliability and Quality, 0102 Applied Mathematics, 0904 Chemical Engineering, 0911 Maritime Engineering, 0914 Resources Engineering and Extractive Metallurgy

Published

2022

6. Multi-channel acquisition and data processing based on Labview

Author

Maoyong Cao, Hao Wang, Hui Zhang, Fengying Ma, Binghua Yan, and Xiaoan Si

Published

2022

7. Ultrasonic transceiver circuit design

Author

Maoyong Cao, Binghua Yan, Hui Zhang, Fengying Ma, Hao Wang, and Xiaoan Si

Published

2022

8. Downhole robot positioning system based on UWB

Author

Hui Zhang, Shijie Lu, Zhiguo Zhou, Hao Wang, Binghua Yan, and Xiaoan Si

Published

2022

9. Design of reconfigurable transfer palletizing platform based on omnidirectional wheels

Author

Hui Zhang, Zhiguo Zhou, Shijie Lu, Hao Wang, Binghua Yan, and Xiaoan Si

Published

2022

10. Effect of water regime on the dynamics of free ammonia during high solid anaerobic digestion of pig manure

Author

Jian Su, Wenjuan Lv, Liheng Ren, Xiaoliang Kong, Lin Luo, Mukesh Kumar Awasthi, and Binghua Yan

Subjects

Environmental Engineering, Swine, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Water, General Medicine, General Chemistry, Pollution, Manure, Bioreactors, Ammonia, Environmental Chemistry, Animals, Anaerobiosis, Methane

Abstract

Free ammonia (FAN) inhibition is commonly encountered during high solid anaerobic digestion (HSAD) of pig manure. The performance of HSAD is highly related to its operational water regime; however, little information is available regarding the dynamics of free ammonia with varied water regimes. In this work, four treatments were set with equal amount of water supply but varied addition frequencies, i.e. add once but at different times in treatments T1 and T2, add twice in T3 while it was three times in treatment T4. Results showed that the whole methanogenic process ran smoothly with the average methane gas production rate maintaining at 191.1 LCH

Published

2022

11. Regulation of acidogenic fermentation through exogenous additives for promoting carbon conversion of food waste in two-phase anaerobic system

Author

Liwen Luo, Binghua Yan, Suyun Xu, Jun Zhou, Jialin Liang, Jun Zhao, R.D. Tyagi, and Jonathan W.C. Wong

Subjects

Butyrates, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Food, Fermentation, Bioengineering, General Medicine, Anaerobiosis, Waste Management and Disposal, Carbon, Refuse Disposal

Abstract

In this study, exogenous Megasphaera elsdenii inoculum and acetate supplementation were introduced at the acidogenic phase to regulate the acidogenic fermentation pathway and assess their effects on food waste (FW) carbon conversion in two-phase anaerobic digestion (AD) system. These two additives significantly accelerated organic removal efficiency and subsequently increased FW hydrolysis and acidogenesis by 16% and 35%, respectively. As expected, two exogenous additives promoted butyrate fermentation during FW acidogenesis. With regard to the role of exogenous additives, both hydrogen and butyrate yields increased by over 60%. This desired increment resulted in a 25% increase in methane production. The overall carbon conversion from FW in the integrated two-phase AD system was enhanced by biochemical additives, which was 1.3-fold higher than that in control without any additives. Collectively, findings demonstrate the feasibility of regulating acidogenic fermentation via exogenous biochemical additives and its benefits on FW carbon conversion during AD process.

Published

2022

12. Detoxification of typical nitrogenous heterocyclic compound from pharmaceutical wastewater by mixed microbial consortia

Author

Hongyu Jin, Zimeng Nie, Hongyu Niu, Ju Tan, Shuie Huang, Binghua Yan, Bozhi Cheng, and Haijun Yang

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, General Medicine, General Chemistry, Pollution

Published

2023

13. The patterns of marine microbial communities in composts with high lignocellulose content

Author

Wenxian Liu, Liting Xu, Jianxing Sun, Haina Cheng, Zhu Chen, Hongbo Zhou, Binghua Yan, and Yuguang Wang

Subjects

General Chemical Engineering, Environmental Chemistry, General Chemistry, Industrial and Manufacturing Engineering

Published

2023

14. Organic waste recycling for carbon smart circular bioeconomy and sustainable development: a review

Author

Mukesh Kumar Awasthi, Binghua Yan, Taner Sar, Ricardo Gómez-García, Liheng Ren, Pooja Sharma, Parameswaran Binod, Raveendran Sindhu, Vinod Kumar, Deepak Kumar, Badr A. Mohamed, Zengqiang Zhang, and Mohammad J. Taherzadeh

Subjects

Environmental Engineering, Renewable Energy, Sustainability and the Environment, Global warming, Low carbon, Bioengineering, General Medicine, Carbon, Carbon neutrality, Environmental impact, Waste Management, Sustainability, Biofuels, Recycling, Waste Management and Disposal, Biotechnology, Circular bioeconomy

Abstract

The development of sustainable and low carbon impact processes for a suitable management of waste and by-products coming from different factors of the industrial value chain like agricultural, forestry and food processing industries. Implementing this will helps to avoid the negative environmental impact and global warming. The application of the circular bioeconomy (CB) and the circular economic models have been shown to be a great opportunity for facing the waste and by-products issues by bringing sustainable processing systems which allow to the value chains be more responsible and resilient. In addition, biorefinery approach coupled to CB context could offer different solution and insights to conquer the current challenges related to decrease the fossil fuel dependency as well as increase efficiency of resource recovery and processing cost of the industrial residues. It is worth to remark the important role that the biotechnological processes such as fermentative, digestive and enzymatic conversions play for an effective waste management and carbon neutrality.

Published

2022

15. Evaluation of the synergistic effects of biochar and biogas residue on CO

Author

Xu, Lin, Nanyi, Wang, Fanghong, Li, Binghua, Yan, Junting, Pan, Shilin, Jiang, Hua, Peng, Anwei, Chen, Genyi, Wu, Jiachao, Zhang, Lihua, Zhang, Hongli, Huang, and Lin, Luo

Subjects

Soil, Biofuels, Charcoal, Composting, Nitrous Oxide, Carbon Dioxide, Methane

Abstract

This study examined the effects of biochar, biogas residue, and their combined amendments on CO

Published

2022

16. Effects of biochar and biogas residue amendments on N

Author

Nanyi, Wang, Mukesh Kumar, Awasthi, Junting, Pan, Shilin, Jiang, Fachun, Wan, Xu, Lin, Binghua, Yan, Jiachao, Zhang, Lihua, Zhang, Hongli, Huang, and Hui, Li

Subjects

Soil, Biofuels, Charcoal, Composting, Denitrification, Nitrous Oxide, Oryza, Nitrification

Abstract

This study was carried out to determine the response characteristics of N

Published

2022

17. Treatment of amoxicillin-containing wastewater by Trichoderma strains selected from activated sludge

Author

Yixiang Cai, Hong Yu, Liheng Ren, Yingjuan Ou, Shilin Jiang, Youzheng Chai, Anwei Chen, Binghua Yan, Jiachao Zhang, and Zhiyong Yan

Subjects

Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal

Published

2023

18. Caproic acid production from anaerobic fermentation of organic waste - Pathways and microbial perspective

Author

Wenjian Dong, Youli Yang, Chao Liu, Jiachao Zhang, Junting Pan, Lin Luo, Genyi Wu, Mukesh Kumar Awasthi, and Binghua Yan

Subjects

Renewable Energy, Sustainability and the Environment

Published

2023

19. Response characteristics of antibiotic resistance genes and bacterial communities during agricultural waste composting: Focusing on biogas residue combined with biochar amendments

Author

Yuewei He, Xiaowei Yin, Fanghong Li, Bo Wu, Ling Zhu, Dabing Ge, Nanyi Wang, Anwei Chen, Lihua Zhang, Binghua Yan, Hongli Huang, Lin Luo, Genyi Wu, and Jiachao Zhang

Subjects

Environmental Engineering, Renewable Energy, Sustainability and the Environment, Bioengineering, General Medicine, Waste Management and Disposal

Published

2023

20. Study on the Treatment of Amoxicillin Containing Wastewater by Trichoderma Species and the Mechanism of Amoxicillin Biodegradation

Author

Yixiang Cai, Hong Yu, Yingjuan Ou, Youzheng Chai, Jiachao Zhang, Anwei Chen, Binghua Yan, and Zhiyong Yan

Published

2022

21. Compost Mixture and Composting Technique Influence Compost Organic Matter Evolution

Author

Guixian Xie, Xiaoliang Kong, Gongwen Luo, Jiachao Zhang, Binghua Yan, Ning Su, Peng Zeng, Jialu Kang, and Yuping Zhang

Published

2022

22. Dissolved organic matter evolution can reflect the maturity of compost: Insight into common composting technology and material composition

Author

Xiaoliang, Kong, Gongwen, Luo, Binghua, Yan, Ning, Su, Peng, Zeng, Jialu, Kang, Yuping, Zhang, and Guixian, Xie

Subjects

Manure, Soil, Technology, Environmental Engineering, Swine, Struvite, Composting, Animals, General Medicine, Management, Monitoring, Policy and Law, Dissolved Organic Matter, Waste Management and Disposal, Humic Substances

Abstract

Dissolved organic matter (DOM) can clearly reflect composting components changes, thus it is supposed to indicate the humification process during composting. To demonstrate this, three compost mixtures and two techniques were arranged. DOM evolution was detected by three spectral techniques. X-ray diffraction (XRD) showed that the crystal structure substances decreased gradually during the composting, including cellulose, struvite, sylvine, quartz, and calcite; Specifically, the struvite was found, which was conducive to the fixation of nitrogen and phosphorus. Fourier transform infrared spectroscopy (FTIR) and three-dimensional fluorescence spectroscopy (3D-EEM) further showed that pig manure-based mixtures, added cabbage, and windrow composting are beneficial to sugar, protein, fulvic acid, and soluble microbial by-products decompose and humic acids produce. This process was closely related to the change of physical-chemical parameters (temperature; pH; moisture content; and NH

Published

2023

23. Characteristics of carbon, nitrogen, phosphorus and sulfur cycling genes, microbial community metabolism and key influencing factors during composting process supplemented with biochar and biogas residue

Author

Nanyi, Wang, Keqi, Zhao, Fanghong, Li, Hua, Peng, Yaoxiong, Lu, Lihua, Zhang, Junting, Pan, Shilin, Jiang, Anwei, Chen, Binghua, Yan, Lin, Luo, Hongli, Huang, Hui, Li, Genyi, Wu, and Jiachao, Zhang

Subjects

Environmental Engineering, Bacteria, Nitrogen, Renewable Energy, Sustainability and the Environment, Composting, Microbiota, Phosphorus, Bioengineering, General Medicine, Carbon, Soil, Biofuels, Charcoal, Waste Management and Disposal, Sulfur

Abstract

Carbon (C), nitrogen (N), phosphorus (P), and sulfur (S) cycling functional genes and bacterial and fungal communities during composting with biochar and biogas residue amendments were studied. Correlations between microbial community structure, functional genes and physicochemical properties were investigated by network analysis and redundancy analysis. It was shown that the gene of acsA abundance accounted for about 50% of the C-related genes. Biogas residue significantly decreased the abundance of denitrification gene nirK. Biogas residues can better promote the diversity of bacteria and fungi during composting. Biochar significantly increased the abundance of Humicola. Redundancy analysis indicated that pile temperature, pH, EC were the main physicochemical factors affecting the microbial community. WSC and NO

Published

2022

24. Valorization of waste biomass through fungal technology: Advances, challenges, and prospects

Author

Youzheng Chai, Ma Bai, Anwei Chen, Liang Peng, Jihai Shao, Si Luo, Yaocheng Deng, Binghua Yan, and Cheng Peng

Subjects

Agronomy and Crop Science

Published

2022

25. Highly selective butyric acid production by coupled acidogenesis and ion substitution electrodialysis

Author

Wenyan, Zhao, Binghua, Yan, Zhiyong Jason, Ren, Shanquan, Wang, Yang, Zhang, and Heqing, Jiang

Subjects

Bioreactors, Environmental Engineering, Ecological Modeling, Fermentation, Butyric Acid, Hydrogen-Ion Concentration, Pollution, Waste Management and Disposal, Carbon, Acetic Acid, Water Science and Technology, Civil and Structural Engineering

Abstract

Selective production of carboxylic acids (CAs) from mixed culture fermentation remains a difficult task in organic waste valorization. Herein, we developed a facile and sustainable carbon loop strategy to regulate the fermentation micro-environment and steer acidogenesis towards selective butyric acid production. This new ion substitution electrodialysis-anaerobic membrane bioreactor (ISED-AnMBR) integrated system demonstrated a high butyric acid production at 11.19 g/L with a mass fraction of 76.05%. In comparison, only 1.04 g/L with a mass fraction of 30.56% was observed in the uncoupled control reactor. The carbon recovery reached a maximum of 96.09% with the assistance of ISED. Inorganic carbon assimilation was believed to be an important contributor, which was verified by

Published

2022

26. Response of bacterial community to iron oxide nanoparticles during agricultural waste composting and driving factors analysis

Author

Lihua Zhang, Yunlong Hu, Hongli Huang, Liheng Ren, Jiachao Zhang, Binghua Yan, Lin Luo, Jun Liu, and Sijia Gu

Subjects

Soil, Environmental Engineering, Bacteria, Renewable Energy, Sustainability and the Environment, Composting, Bioengineering, Agriculture, Magnetic Iron Oxide Nanoparticles, General Medicine, Waste Management and Disposal

Abstract

The succession of bacterial communities and their function, and the core microorganisms for water soluble organic carbon (WSC) and organic matter (OM) changes during agricultural waste composting with addition of iron oxide nanomaterials (FeONPs, Fe

Published

2021

27. Accelerated humification and alteration of microbial communities by distillers' grains addition during rice straw composting

Author

Lihua Zhang, Jiachao Zhang, Liheng Ren, Hongli Huang, Lin Luo, Mukesh Kumar Awasthi, and Binghua Yan

Subjects

chemistry.chemical_classification, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Composting, Microbiota, Amendment, food and beverages, Bioengineering, Oryza, General Medicine, complex mixtures, Distillers grains, Humus, Manure, chemistry.chemical_compound, Soil, chemistry, Microbial population biology, Nitrate, Dissolved organic carbon, Organic matter, Ammonium, Food science, Waste Management and Disposal

Abstract

This research explored the influence of distillers' grains amendment on the humification performance and microbial communities during rice straw composting. The composition of dissolved organic matter and maturity index were analyzed by the fluorescence excitation emission matrix spectroscopy and parallel factor analysis. High-throughput sequencing and redundancy analysis were employed for revealing the structure dynamics for microbial community and their shaping factors, respectively. Results indicated that addition of distillers' grains effectively increased the microbial activity, which was beneficial to the organic matter degradation and nitrogen conservation. Microbial community structures were significantly changed with different amendment strategies. Nitrate, water soluble carbon, organic matter, ammonium were the key parameters influencing the variation of bacterial community in different treatments. Water soluble carbon significantly affected the dominant fungal community dynamics. These results showed that addition of distillers' grains effectively improved the nutritional status and changed the microbial communities during rice straw composting.

Published

2021

28. Anion exchange membrane organic fouling and mitigation in salt valorization process from high salinity textile wastewater by bipolar membrane electrodialysis

Author

Shaoping Kuang, Debin Mao, Lang Qiaolin, Li Shu, Binghua Yan, Yifru Waktole Berkessa, and Yang Zhang

Subjects

Ion exchange, Fouling, Chemistry, Mechanical Engineering, General Chemical Engineering, Membrane fouling, General Chemistry, Electrodialysis, Remazol Brilliant Blue R, Desalination, chemistry.chemical_compound, Membrane, Chemical engineering, Sodium sulfate, General Materials Science, Water Science and Technology

Abstract

To achieve a cleaner production, textile wastewater with high organic and salt content can be treated by using Bipolar Membrane Electrodialysis (BMED) to minimize acid and base consumption in a dyeing process. While the dye molecules may foul the ion exchange membranes and strongly affect the desalination process. This work aimed to investigate the performance and fouling mechanisms of BMED during desalination of sodium sulfate from Remazol Brilliant Blue R (RBBR). Results showed that maintaining the zeta potential of RBBR above −25 mV may mitigate fouling of AEM during the BMED process. This confirms that, zeta potential of charged foulants (RBBR) plays a key role in terms of controlling membrane fouling. Accordingly, a new parameter “critical salt concentration” was introduced to control membrane fouling. Furthermore, energy dispersive X-ray spectroscopy (EDS), FT-IR and electrochemical analysis confirmed that fouling of anion exchange membrane by RBBR was due to electrostatic interaction. Finally, it was calculated that 72.02% of sodium and 66.9% of sulfate in the feed were converted to NaOH and H2SO4, respectively. This study proves that BMED process may be an alternative way treating textile wastewater with high salinity and the presence of dye molecules.

Published

2019

29. Isolation and characterization of Aeromonas sp. TXBc10 capable of high-efficiency degradation of octylphenol polyethoxylate from tannery wastewater

Author

Haijun Yang, Binghua Yan, and Lin Luo

Subjects

Chromatography, Aeromonas sp, biology, Chemistry, 0208 environmental biotechnology, 02 engineering and technology, General Medicine, 010501 environmental sciences, Biodegradation, Isolation (microbiology), biology.organism_classification, 01 natural sciences, 020801 environmental engineering, Wastewater, Environmental Chemistry, Degradation (geology), Waste Management and Disposal, Bacteria, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Octylphenol polyethoxylate (OP n EO) is a potential endocrine-disrupting chemical. Biodegradation of OP n EO was investigated using the bacterium Aeromonas sp. TXBc10 isolated from the influent of ...

Published

2019

30. Cu@C core-shell nanoparticles modified polydimethylsiloxane -based coatings with improved static antifouling performance

Author

Chao Liu, Binghua Yan, Jiawen Sun, Xucheng Dong, Jiyong Zheng, Jizhou Duan, and Baorong Hou

Subjects

General Chemical Engineering, Organic Chemistry, Materials Chemistry, Surfaces, Coatings and Films

Published

2022

31. Recent trends and advances in composting and vermicomposting technologies: A review

Author

Yuwen Zhou, Ran Xiao, Thomas Klammsteiner, Xiaoliang Kong, Binghua Yan, Florin-Constantin Mihai, Tao Liu, Zengqiang Zhang, and Mukesh Kumar Awasthi

Subjects

Soil, Environmental Engineering, Waste Management, Artificial Intelligence, Renewable Energy, Sustainability and the Environment, Composting, Animals, Bioengineering, General Medicine, Oligochaeta, Waste Management and Disposal

Abstract

Composting technologies have come a long way, developing from static heaps and windrow composting to smart, artificial intelligence-assisted reactor composting. While in previous years, much attention has been paid to identifying ideal organic waste streams and suitable co-composting candidates, more recent efforts tried to determine novel process-enhancing supplements. These include various single and mixed microbial cultures, additives, bulking agents, or combinations thereof. However, there is still ample need to fine-tune the composting process in order to reduce its impact on the environment and streamline it with circular economy goals. In this review, we highlight recent advances in integrating mathematical modelling, novel supplements, and reactor designs with (vermi-) composting practices and provide an outlook for future developments. These results should serve as reference point to target adjusting screws for process improvement and provide a guideline for waste management officials and stakeholders.

Published

2022

32. Solid Waste Management Practices in India and China

Author

Kurian Joseph, Binghua Yan, A. Ramachandran, Kandasamy Palanivelu, Obuli P. Karthikeyan, and S. Sri Shalini

Subjects

Solid waste management, Waste management, Business, China

Published

2021

33. Direct production of 2, 5-Furandicarboxylicacid from raw biomass by manganese dioxide catalysis cooperated with ultrasonic-assisted diluted acid pretreatment

Author

Pufeng Qin, Cheng Peng, Ma Bai, Danyang Zhao, Binghua Yan, Haochuan Yang, Xueqin Wang, Liang Peng, Youzheng Chai, and Anwei Chen

Subjects

0106 biological sciences, Reaction mechanism, Environmental Engineering, chemistry.chemical_element, Biomass, Lignocellulosic biomass, Bioengineering, Manganese, 010501 environmental sciences, 01 natural sciences, Catalysis, chemistry.chemical_compound, 010608 biotechnology, Dicarboxylic Acids, Furaldehyde, Ultrasonics, 2,5-Furandicarboxylic acid, Furans, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Oxides, General Medicine, Lewis acid catalysis, chemistry, Chemical engineering, Manganese Compounds, Yield (chemistry)

Abstract

In recent years, 2, 5-furandicarboxylic acid (FDCA) has attracted much attention as the precursor of bio-polyester materials. A coupled process of ultrasonic-assisted dilute acid pretreatment and MnO2 was designed in this study to directly produce FDCA from lignocellulosic biomass, which is different from the traditional preparation process. Moreover, the critical parameters in the process were analyzed and optimized by the response surface method. The yield of FDCA could reach 52.1% under the optimal conditions. The reaction mechanism indicated that heavy metal elements in lignocellulosic biomass could play the role of the Lewis acid catalyst to promote the formation of FDCA to a certain extent. With the increase of temperature, the heavy metals transfer in biomass from the solid phase to the liquid phase increased, but most of them remain in the former. Therefore, further purification and treatment measures are worthy of attention.

Published

2021

34. Biofuels Production From Lignocellulosic Materials

Author

Mukesh Kumar Awasthi, Sindhu Raveendran, Balasubramani Ravindran, Binghua Yan, Mukesh Kumar Awasthi, Sindhu Raveendran, Balasubramani Ravindran, and Binghua Yan

Abstract

Biofuels Production from Lignocellulosic Materials presents the latest scientific and technical advances in the bioprocessing of lignocellulosic materials for disposal, resource recovery, and biofuel and bioenergy production. The book emphasizes the main chemical and biological properties of lignocellulosic materials, its pre-treatment, emerging nutrient recovery technologies, the role of microbial biotechnology in lignocellulosic materials management, and the sustainable use of biofuel for anthropogenic activities to fulfil energy demand. Lignocellulose biorefinery outcomes are examined from multiple perspectives, including applied chemical, mechanical, and enzymatic pre-treatments technologies, and cost-effective and energy-efficient options for developing high value-added products. This is a valuable reference for scientists, researchers, engineers, and industrial practitioners, as well as graduate and postgraduate students working on the utilization of lignocellulosic materials. - Explores sustainable resource recovery and utilization of lignocellulosic materials for technology development within organic waste recycling and disposal - Critically discusses the development of industrial sustainable bioprocessing of lignocellulosic materials and market demand of bioenergy and biofuel production - Examines industrial applications of biological and thermochemical lignocellulosic materials recycling towards emerging nutrient recovery technologies

Published

2024

35. Effect of nano-TiO

Author

Longzao, Luo, Shuang, Luo, Huimin, Wang, Kexin, Hu, Xiaoai, Lin, Linhai, Liu, and Binghua, Yan

Subjects

Titanium, Nitrogen, Swine, Biofuels, Microalgae, Animals, Phosphorus, Biomass, Humic Substances

Abstract

Resource recovery from piggery biogas slurry has become an inevitable demand for sustainable development of pig industry. Microalgae show great potential in recovering nitrogen and phosphorus from piggery slurry, but struggle to utilize organic pollutants, as most of them are inert components (e.g., humic acids, HAs). In this study, nano-TiO

Published

2021

36. Pyrolysis and Gasification of Food Waste

Author

Liwen Luo, Peiru Zhu, Binghua Yan, Gaihong Wang, Mengyao Wang, Jun Zhou, and Jonathan W C Wong

Subjects

Reaction rate, Pollutant, Food waste, Waste management, Biochar, Environmental science, Control parameters, Pyrolysis, Resource recovery

Abstract

Pyrolysis and gasification of food waste has been identified as a potential emerging waste-to-energy technology. This chapter presented an overview on pyrolysis and gasification of food waste. The characteristics of various pyrolysis and gasification reactors and the parameters such as moisture content, temperature, and copyrolysis are summarized in this chapter. The characteristics and utilization of gas, liquid, and biochar produced during pyrolysis and gasification are discussed. The main factors that affect the pyrolysis and gasification of food waste are the proportion of various materials, the pyrolysis and gasification temperatures, the type of reactor, and the operating parameters. Furthermore, improvements in pyrolysis and gasification of food waste are proposed. To improve resource recovery, it is necessary to optimize the control parameters, increase the reaction rate, promote the high value of the target product, inhibit the formation of other products and pollutants, and investigate the mechanism of the operation parameters so as to produce more useful products toward zero discharge in the further study.

Published

2021

37. Emerging Technologies for the Treatment of Food Waste

Author

Binghua Yan, Yangyang Sun, Jonathan W C Wong, and Suyun Xu

Subjects

Anaerobic digestion, Food waste, Energy recovery, Waste management, Wastewater, Emerging technologies, food and beverages, Environmental science, Volume reduction, Biodrying, Sewage treatment

Abstract

The aim of this chapter is to provide a comprehensive review of the emerging technologies applied in food waste (FW) treatment from the aspect of cascade utilization, i.e., various high-value products derived from FW, fast volume reduction by biodrying, and energy recovery by comanagement of FW and domestic wastewater. Various value-added products can be selectively extracted from the FW matrix through combined biochemical, chemical, or thermal/physical approaches, including biomolecules (sugars, peptides, amino acids, etc.) and calcium-based and carbon-based absorbent materials. The biodrying process can be a promising alternative to treat humid FW at a large volume and high-quality refuse-derived fuel can be harvested. Anaerobic digestion processes often encounter difficulties such as frequent process failure and long retention time of the substrate, thus the feasibility of incorporating FW into domestic wastewater treatment plants via different scenarios is discussed.

Published

2021

38. Contributors

Author

K. Abeliotis, Min Addy, Avanthi Althuri, Jeyakumar Rajesh Banu, E.M. Barampouti, Kim Bolton, Pedro Brancoli, Debkumar Chakraborty, Sulogna Chatterjee, Dongjie Chen, Paul Chen, Pengfei Cheng, Yanling Cheng, C. Chroni, Kirk Cobb, Jeff Cooper, Mattias Eriksson, Shuhao Huo, Petchi Muthu K. Ilamathi, Guneet Kaur, Yukesh Khanna, Katia Lasaridi, Kun Li, Chao Liu, Junzhi Liu, Yuhuan Liu, M. Loizidou, null Lukitawesa, Liwen Luo, Yiwei Ma, S. Mai, D. Malamis, T. Manios, S. Venkata Mohan, K. Moustakas, Kumarasamy Murugesan, V. Panaretou, Kowsalya Paramasivam, Kamran Rousta, Roger Ruan, Charles Schiappacasse, Ammaiyappan Selvam, Kaarmukhilnilavan R. Srinivasan, Yangyang Sun, Mohammad Taherzadeh, Ch. Tsouti, Muthulingam Udayakumar, Kristiadi Uisan, Steven Wainaina, Gaihong Wang, Lu Wang, Mengyao Wang, Xuan Wang, Yunpu Wang, Jonathan Wong, Suyun Xu, Binghua Yan, Jiachao Zhang, Jun Zhou, and Peiru Zhu

Published

2021

39. Bioconversion Technologies: Anaerobic Digestion of Food Waste

Author

Binghua Yan, Jonathan W C Wong, Suyun Xu, Chao Liu, Jiachao Zhang, and Jun Zhou

Subjects

Anaerobic digestion, Food waste, Microbial fuel cell, Volatile fatty acids, Bioconversion, Microbial electrosynthesis, Environmental science, Electrodialysis, Pulp and paper industry, Resource recovery

Abstract

Anaerobic digestion has been recognized as an economical and effective way for food waste treatment and resource recovery. This chapter presented an overview on the researches about anaerobic digestion of food waste. Biochemical parameters and synergistic effect together with possible inhibition factors are analyzed to characterize the microbial catalyzed bioelectrochemical process. Phased anaerobic digestion (AD) and emerging AD-based bioelectrochemical systems including microbial fuel cell, microbial electrodialysis cell, and microbial electrosynthesis are introduced and evaluated. Resource recovery from AD of food waste in terms of CH4, H2, CH4, and H2 and volatile fatty acids are summarized. For the promotion of resource recovery, more attention should be paid to integrated technologies that can produce more useful products toward zero discharge. Furthermore a technological route for food waste conversion based on anaerobic digestion was proposed.

Published

2021

40. Electron transfer and mechanism of energy production among syntrophic bacteria during acidogenic fermentation: A review

Author

Binghua Yan, Mukesh Kumar Awasthi, Chao Liu, Liheng Ren, Jiachao Zhang, and Lin Luo

Subjects

0106 biological sciences, Acidogenesis, Environmental Engineering, Bioengineering, Electrons, 010501 environmental sciences, 01 natural sciences, Electron transfer, Volatile fatty acids, Bioreactors, 010608 biotechnology, Food science, Anaerobiosis, Waste Management and Disposal, 0105 earth and related environmental sciences, biology, Bacteria, Renewable Energy, Sustainability and the Environment, Mechanism (biology), Chemistry, General Medicine, biology.organism_classification, Fatty Acids, Volatile, Metabolic pathway, Anaerobic digestion, Fermentation, Methane

Abstract

Volatile fatty acids (VFAs) production plays an important role in the process of anaerobic digestion (AD), which is often the critical factor determining the metabolic pathways and energy recovery efficiency. Fermenting bacteria and acetogenic bacteria are in syntrophic relations during AD. Thus, clear elucidation of the interspecies electron transfer and energetic mechanisms among syntrophic bacteria is essential for optimization of acidogenic. This review aims to discuss the electron transfer and energetic mechanism in syntrophic processes between fermenting bacteria and acetogenic bacteria during VFAs production. Homoacetogenesis also plays a role in the syntrophic system by converting H2 and CO2 to acetate. Potential applications of these syntrophic activities in bioelectrochemical system and value-added product recovery from AD of organic wastes are also discussed. The study of acidogenic syntrophic relations is in its early stages, and additional investigation is required to better understand the mechanism of syntrophic relations.

Published

2020

41. Agricultural waste biorefinery development towards circular bioeconomy

Author

Mukesh Kumar Awasthi, Raveendran Sindhu, Ranjna Sirohi, Vinod Kumar, Vivek Ahluwalia, Parameswaran Binod, Ankita Juneja, Deepak Kumar, Binghua Yan, Surendra Sarsaiya, Zengqiang Zhang, Ashok Pandey, and Mohammad J. Taherzadeh

Subjects

Renewable Energy, Sustainability and the Environment

Published

2022

42. Enhanced removal of humic acid from piggery digestate by combined microalgae and electric field

Author

Longzao Luo, Miao Li, Shuang Luo, Mukesh Kumar Awasthi, Xiaoai Lin, Xing Liao, Changsheng Peng, and Binghua Yan

Subjects

Environmental Engineering, Nitrogen, Renewable Energy, Sustainability and the Environment, Microalgae, Phosphorus, Bioengineering, Biomass, General Medicine, Wastewater, Waste Management and Disposal, Humic Substances

Abstract

Microalgae technology is a promising method for treating piggery digestate, while its removal ability of humic acids (HAs) is poor. Here, an electric field-microalgae system (EFMS) was used to improve the removal of HAs from the piggery digestate. Results indicated that the removal of HAs by EFMS relied on the initial concentration of HAs, electrical intensity, the initial inoculation concentration of microalgae and pH. Values of these parameters were optimized as electrical intensity of 1.2 V/cm, microalgae initial inoculation concentration of 0.1 g/L and pH 5.0. The HAs removal efficiency by EFMS (55.38%) was 13% and 38% higher than that by single electric field and microalgal technology. It was observed that oxidation, coagulation and assimilation contributed to the removal of HAs, suggesting that EFMS could serve as an attractive and cost-effective technique for the removal of HAs from the piggery digestate.

Published

2022

43. Activities of functional enzymes involved in C, N, and P conversion and their stoichiometry during agricultural waste composting with biochar and biogas residue amendments

Author

Nanyi, Wang, Liheng, Ren, Jiachao, Zhang, Mukesh, Kumar Awasthi, Binghua, Yan, Lihua, Zhang, Fachun, Wan, Lin, Luo, Hongli, Huang, and Keqi, Zhao

Subjects

Soil, Environmental Engineering, Nitrogen, Renewable Energy, Sustainability and the Environment, Biofuels, Charcoal, Composting, Bioengineering, General Medicine, Waste Management and Disposal

Abstract

This experiment was carried out to explore the effects of biochar, biogas residue and their combination amendment on enzyme activities and their stoichiometry during agricultural waste composting. A comprehensive analysis of the variation in, and stoichiometric correlations between, β-glucosidase (BG), N-acetylglucosaminidase (NAG), leucine aminopeptidase (LAP), and alkaline phosphatase (AKP) were determined. The results showed that biochar, biogas residue, and their combined addition significantly increased those enzyme activities. The potential C:P and N:P acquisition activities represented by ln(BG): ln(AKP) and ln(LAP + NAG): ln(AKP), were significantly decreased with biogas residue addition. BG, NAG and LAP were significantly negatively correlated with temperature, organic matter and water-soluble carbon. Redundancy analysis also showed that moisture and water-soluble carbon were significantly related to the variations of enzyme activities. Biochar and biogas residue changed the characteristics of the composting substrate, thus affecting the activity and stoichiometry of functional enzymes involved in C, N and P cycling.

Published

2022

44. Oriented conversion of agricultural bio-waste to value-added products - A schematic review towards key nutrient circulation

Author

Liheng, Ren, Xiaoliang, Kong, Jian, Su, Danyang, Zhao, Wenjian, Dong, Chunmiao, Liu, Chao, Liu, Lin, Luo, and Binghua, Yan

Subjects

Soil, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Charcoal, Composting, Agriculture, Bioengineering, Anaerobiosis, Nutrients, General Medicine, Waste Management and Disposal, Carbon

Abstract

Agriculture bio-waste is one of the largest sectors for nutrient circulation and resource recovery. This review intends to summarize the possible scheme through coupling chemical conversion of crop straws to biochar and biological conversion of livestock waste to value-added products thus reaching key nutrient circulation. Chemical conversion of crop straws to biochar was reviewed through summarizing the preparation methods and functional modification of biochar. Then, high-solid two-phase anaerobic conversion of agriculture bio-waste to value-added products and improved performance of bio-conversion through byproduct gases reuse and biochar supplementation were reviewed. Finally, high quality compost production through amendment of biochar and residual digestate was proposed with analysis of reduced nitrogen emission and carbon balance. The biological mechanism of synergistic regulation of carbon and nitrogen loss during bio-conversion with biochar was also reviewed. This will provide a model for synergistic conversion of agricultural wastes to value added products pursuing key nutrient circulation.

Published

2022

45. Waste Conversion and Resource Recovery from Wastewater by Ion Exchange Membranes: State-of-the-Art and Perspective

Author

Wenyan Zhao, Miaomiao Zhou, Tongwen Xu, Binghua Yan, Xiaohan Sun, Yaoming Wang, Yang Zhang, and Yang Liu

Subjects

Waste management, Ion exchange, General Chemical Engineering, 02 engineering and technology, General Chemistry, 010501 environmental sciences, 021001 nanoscience & nanotechnology, 01 natural sciences, Industrial and Manufacturing Engineering, Wastewater, Environmental science, Energy transformation, Sewage treatment, Ion-exchange membranes, 0210 nano-technology, Effluent, 0105 earth and related environmental sciences, Resource recovery

Abstract

Wastewater treatment is in a dilemma: more energy and efforts have to be put forth to obtain an effluent with better quality, while a significant amount of sludge is generated and the treatment or disposal expenses are high. Even if the sludge is disposed of properly, the components can be released and pollute the environment again. Therefore, conversion and recovery of the contaminants to resources is the way out of the dilemma. An ion exchange membrane (IEM) is a special type of membrane, which allows charged solutes to pass through it while retaining uncharged components. Attributed to this character, IEMs are taking more important roles in separation and conversion processes recently. They act as key elements in many resource recovery systems, such as in separation and concentration, salt valorization, energy conversion, and even in microbial systems. This review summarizes the important processes for waste conversion and resource recovery from wastewaters by using IEMs. Drawbacks and perspectives are...

Published

2018

46. Novel anaerobic membrane bioreactor (AnMBR) design for wastewater treatment at long HRT and high solid concentration

Author

Ming Tan, Binghua Yan, Heqing Jiang, Zonglian She, Veeriah Jegatheesan, Tengfei Li, Yifru Waktole Berkessa, and Yang Zhang

Subjects

Environmental Engineering, Hydraulic retention time, 0208 environmental biotechnology, Bioengineering, 02 engineering and technology, Wastewater, 010501 environmental sciences, Waste Disposal, Fluid, 01 natural sciences, Bioreactors, Biogas, Anaerobiosis, Waste Management and Disposal, Effluent, 0105 earth and related environmental sciences, Chromatography, Sewage, Fouling, Renewable Energy, Sustainability and the Environment, Chemistry, Membrane fouling, Chemical oxygen demand, Membranes, Artificial, General Medicine, 020801 environmental engineering, Membrane, Sewage treatment

Abstract

Performance of two novel designed anaerobic membrane bioreactor (AnMBRs) for wastewater treatment at long hydraulic retention time (HRT, 47 days) and high sludge concentration (22 g·L−1) was investigated. Results showed steady chemical oxygen demand (COD) removal (> 98%) and mean biogas generation of 0.29 LCH4·g−1COD. Average permeates flux of 58.70 L·m−2·h−1 and 54.00 L·m−2·h−1 were achieved for reactors A and B, respectively. On top of reactor configuration, long HRT caused biofilm reduction by heterotrophic bacteria Chloroflexi resulting in high membrane flux. Mean total membrane resistances (2.23 × 109 m−1) and fouling rates (4.00 × 108 m−1·day−1) of both reactors were low suggesting better membrane fouling control ability of both AnMBRs. Effluent quality analysis showed the effluent soluble microbial products (SMP) were dominated by proteins compared to carbohydrates, and specific ultraviolet absorbance (SUVA) analysis revealed effluent from both reactors had low aromaticity with SUVA < 1 (L·mg−1·m−1) except for the first ten days.

Published

2018

47. Enhanced volatile fatty acids production from anaerobic fermentation of food waste: A mini-review focusing on acidogenic metabolic pathways

Author

Miaomiao Zhou, Yang Zhang, Binghua Yan, and Jonathan W C Wong

Subjects

Acidogenesis, Environmental Engineering, 020209 energy, Bioengineering, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Bioreactors, 0202 electrical engineering, electronic engineering, information engineering, Bioreactor, Anaerobiosis, Waste Management and Disposal, 0105 earth and related environmental sciences, Resource recovery, Waste management, Renewable Energy, Sustainability and the Environment, Chemistry, General Medicine, Fatty Acids, Volatile, Pulp and paper industry, Anaerobic digestion, Food waste, Metabolic pathway, Food, Fermentation, Acids, Metabolic Networks and Pathways, Waste disposal

Abstract

Recently, efficient disposal of food waste (FW) with potential resource recovery has attracted great attentions. Due to its easily biodegradable nature, rich nutrient availability and high moisture content, FW is regarded as favorable substrate for anaerobic digestion (AD). Both waste disposal and energy recovery can be fulfilled during AD of FW. Volatile fatty acids (VFAs) which are the products of the first-two stages of AD, are widely applied in chemical industry as platform chemicals recently. Concentration and distribution of VFAs is the result of acidogenic metabolic pathways, which can be affected by the micro-environment (e.g. pH) in the digester. Hence, the clear elucidation of the acidogenic metabolic pathways is essential for optimization of acidogenic process for efficient product recovery. This review summarizes major acidogenic metabolic pathways and regulating strategies for enhancing VFAs recovery during acidogenic fermentation of FW.

Published

2018

48. Effect of nano-TiO2 on humic acid utilization from piggery biogas slurry by microalgae

Author

Binghua Yan, Linhai Liu, Huimin Wang, Kexin Hu, Shuang Luo, Longzao Luo, and Xiaoai Lin

Subjects

0106 biological sciences, chemistry.chemical_classification, Pollutant, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Phosphorus, chemistry.chemical_element, Bioengineering, General Medicine, 010501 environmental sciences, Pulp and paper industry, 01 natural sciences, Nitrogen, Light intensity, chemistry, Biogas, 010608 biotechnology, Slurry, Humic acid, Waste Management and Disposal, 0105 earth and related environmental sciences, Resource recovery

Abstract

Resource recovery from piggery biogas slurry has become an inevitable demand for sustainable development of pig industry. Microalgae show great potential in recovering nitrogen and phosphorus from piggery slurry, but struggle to utilize organic pollutants, as most of them are inert components (e.g., humic acids, HAs). In this study, nano-TiO2 was used to enhance the utilization of HAs by microalgae from piggery biogas slurry. Results showed that the optimal conditions for microalgal growth and HAs removal by the microalgae-TiO2 coupling system were TiO2 dosage of 0.30 g/L, microalgal inoculation concentration of 0.40 g/L, light intensity of 360 µmol photon/(m2·s) and temperature of 30 °C, with the microalgal chlorophyll concentration of 6.51 mg/L and HAs removal efficiency of 50.14%. Analysis of HAs composition variations in the piggery biogas slurry indicated that the decrease of HAs was caused by their decomposition into small molecules under the photocatalytic reactions of TiO2.

Published

2021

49. Mitigation of acidogenic product inhibition and elevated mass transfer by biochar during anaerobic digestion of food waste

Author

Danyang Zhao, Fan Wu, Yaoyu Zhou, Bin Yao, Lichao Liu, Binghua Yan, Chao Liu, Yang Yang, and Lin Luo

Subjects

Acidogenesis, Environmental Engineering, Municipal solid waste, Waste management, Renewable Energy, Sustainability and the Environment, Bioengineering, General Medicine, Biodegradable waste, Refuse Disposal, Food waste, Anaerobic digestion, Bioreactors, Food, Charcoal, Biochar, Environmental science, Anaerobiosis, Methane, Waste Management and Disposal, Resource recovery, Waste disposal

Abstract

Anaerobic digestion (AD) of food waste is widely accepted as a promising technology for both waste disposal and resource recovery. With the advancing of AD technology, to exploit the capacity of organic waste for maximum energy/resource recovery becomes the new focus and hence, improve the viability of this technology for practical application. Product inhibition and mass transfer are the common limitations encountered during AD of putrescible organic waste. Biochar materials have been widely used to promote AD process in recent years. This review summarizes the mechanism and regulation strategies of biochar and its modified derivatives in promoting AD of solid waste (mainly food waste) from the three aspects of hydrolysis, syntrophic acetogenesis, and methane production. At the same time, the relationship between carbon materials and electron transfer among anaerobic microbes is summarized from the perspective of microbial community. In addition, the market application of this technology was evaluated.

Published

2021

50. Isolation and characterization of

Author

Binghua, Yan, Lin, Luo, and Haijun, Yang

Subjects

China, Biodegradation, Environmental, Phenols, Aeromonas, Wastewater

Abstract

Octylphenol polyethoxylate (OP

Published

2019