Your search keyword '"High value-added"' showing total 18 results

1. Synergistic Extraction of Valuable Elements from High-Alumina Fly Ash via Carbochlorination

Author

Zhao, Xinxin, Wang, Long, Cheng, Tianhao, Liu, Yan, Zhang, Ting-an, and Zhao, Qiuyue

Published

2024

2. Improved Extraction of High Value-Added Polyphenols from Pomegranate Peel by Solid-State Fermentation.

Author

Buenrostro-Figueroa, José Juan, Nevárez-Moorillón, Guadalupe Virginia, Chávez-González, Mónica Lizeth, Sepúlveda, Leonardo, Ascacio-Valdés, Juan Alberto, Aguilar, Cristóbal Noé, Pedroza-Islas, Ruth, Huerta-Ochoa, Sergio, and Arely Prado-Barragán, Lilia

Subjects

POMEGRANATE, SOLID-state fermentation, POLYPHENOLS, CIRCULAR economy, DIVERSIFICATION in industry, ELLAGIC acid, COSMETICS industry

Abstract

Pomegranate peel is an important source of polyphenols of remarkable interest in the food, pharmaceutical and cosmetic industry. The improved extraction of total polyphenolic compounds (TPC) from pomegranate peel by solid-state fermentation (SSF) was achieved. The Box, Hunter and Hunter (BHH) followed by the central composite design (CCD) processes were performed to assess the effect of the process variables on TPC release. The statistical designs indicate that the best TPC extraction (234.85 mg GAE/gdm) by means of SSF occurs at 42 °C, 50% moisture, 5.0 pH, mineral solution (g/L): NaNO3 (3.83), KH2PO4 (1.52), MgSO4 (4.66) and KCl (1.52) at 36 h. Under the best fermentation conditions TPC (248.78 ± 1.24 mgGAE/gdm) increased 5.96-fold more than values previously reported and antioxidant activity (AA) increased 5.81-fold compared to the value obtained before the SSF optimization. High-value citric acid, α and β punicalin, α and β punicalagin, punigluconin, galloyl-HHDP hexoside and ellagic acid molecules were identified. The increased extraction of TPC by SSF provides a suitable alternative for the valorization of pomegranate peel through the recovery of molecules with high added value with potential use in the food, pharmacy and cosmetic industries; a diversification in the use of food agroindustry by-products is obtained as an approach to the circular economy model through biotechnological processes. [ABSTRACT FROM AUTHOR]

Published

2023

3. Surface layer reinforcement modification for wood with high strength and flame retardancy performances.

Author

Tan, Ke, Wang, Yong, Li, Xiazhen, Mou, Qunying, Deng, Layun, Peng, Jian, and Li, Xianjun

Subjects

*FIREPROOFING, *HEAT release rates, *SANDWICH construction (Materials), *WOOD, *TECHNOLOGICAL innovations, *MODULUS of elasticity, *FIRE resistant polymers

Abstract

The high-value utilization of low-value wood can effectively address the shortage of wood resource, while also contributing to the global green sustainable development and the implementation of "dual carbon" strategy. The present study employed an innovative technology to achieve controllable surface reinforcement modification of fast-growing poplar wood, resulting in improved strength and exceptional flame retardancy for structural applications. The achievement was realized through a three-step method, involving delignification, impregnation, and surface densification, while minimizing the loss of wood volume. The results demonstrated that surface functional densification can significantly improve the mechanical properties of fast-growing poplar wood, with the modulus of rupture (MOR) and modulus of elasticity (MOE) reaching 140.6 MPa and 11.8 GPa, respectively, representing a 3.4-fold and 2.5-fold increase compared to the control group (CK). The samples were found to possess thin surface-densified layers, while the core layer remained unaltered, thereby exhibiting a sandwich structure with significant disparity in density between the layers, reaching up to a factor of 2. The pores structure of the surface layers underwent significant densification, with a gradual deformation distributed throughout its thickness direction. A process optimized for surface densification involving a 2-hour delignification duration and a pressure of 3 MPa. The sample subjected to surface functional modification exhibited a 90-second delay in the peak of heat release compared with the CK. The heat release rate (HRR) experienced a significant deceleration, accompanied by notable reductions in total heat release (THR) and smoke production rate (SPR). The mechanisms underlying the enhancement of surface functionality were elucidated from the perspectives of physical mechanics, microstructure, and flame retardancy, providing a theoretical foundation for the efficient utilization of fast-growing wood. • The successful realization of structural utilization for fast-growing poplar wood was achieved. • A surface layer modification was achieved through a straightforward three-step treatment. • An optimized process was proposed for surface densification treatment. • The mechanisms of surface layer reinforcement was proposed. [ABSTRACT FROM AUTHOR]

Published

2024

4. Recyclable structured toxic industrial nickel-containing sludge for efficient anionic contaminant adsorption.

Author

Tian, Qiong, Lin, Zhipeng, Qiu, Fengxian, Li, Zhangdi, Guo, Qing, and Zhang, Tao

Subjects

POISONS, HAZARDOUS wastes, INDUSTRIAL wastes, WASTEWATER treatment, ADSORPTION (Chemistry)

Abstract

Safe, efficient, and simultaneous treatment of toxic industrial sludge and anionic contaminant crisis in one route still remains a persistent global challenge. Herein, we proposed a facile waste-control-waste conceptual design strategy to develop low-cost and high-performance sludge-based adsorbent for not only recycling of toxic waste nickel-containing sludge (NCS) but for the efficient removal of anionic contaminants in wastewater. The as-designed Ni–Al layered double oxides/calcined NCS (Ni–Al LDOs/CNCS) (216.96 m2/g, 0.44 cm3/g) with hierarchical porous structure possessed a larger specific surface area and well-developed porosity compared with raw NCS (60.52 m2/g, 0.26 cm3/g). It was proved that a higher hydrothermal temperature (180 °C) and a longer hydrothermal time (24 h) both promote the in situ assembly of LDHs nanosheets on CNCS surface. Significantly, the sludge-based adsorbent displayed high adsorption capacity towards five representative anions including F− (~ 31.1 mg/g), SO42− (~ 37.7 mg/g), NO3− (~ 21.8 mg/g), Cl− (~ 28.0 mg/g), and H2PO4− (~ 35.8 mg/g). Furthermore, the adsorbent maintained desirable adsorption capacity even after 6 adsorption/desorption cycles. Therefore, this study could be potentially extended toward design of other industrial waste sludge–derived high value-added advanced materials and for wastewater treatment applications. [ABSTRACT FROM AUTHOR]

Published

2022

5. Pulp and paper mill wastes: utilizations and prospects for high value-added biomaterials

Author

Adane Haile, Gemeda Gebino Gelebo, Tamrat Tesfaye, Wassie Mengie, Million Ayele Mebrate, Amare Abuhay, and Derseh Yilie Limeneh

Subjects

Paper mill, Biorefinery, Pulping waste, Biomass, Biomaterials, High value-added, Technology, Chemical technology, TP1-1185, Biotechnology, TP248.13-248.65

Abstract

Abstract A wide variety of biomass is available all around the world. Most of the biomass exists as a by-product from manufacturing industries. Pulp and paper mills contribute to a higher amount of these biomasses mostly discarded in the landfills creating an environmental burden. Biomasses from other sources have been used to produce different kinds and grades of biomaterials such as those used in industrial and medical applications. The present review aims to investigate the availability of biomass from pulp and paper mills and show sustainable routes for the production of high value-added biomaterials. The study reveals that using conventional and integrated biorefinery technology the ample variety and quantity of waste generated from pulp and paper mills can be converted into wealth. As per the findings of the current review, it is shown that high-performance carbon fiber and bioplastic can be manufactured from black liquor of pulping waste; the cellulosic waste from sawdust and sludge can be utilized for the synthesis of CNC and regenerated fibers such as viscose rayon and acetate; the mineral-based pulping wastes and fly ash can be used for manufacturing of different kinds of biocomposites. The different biomaterials obtained from the pulp and paper mill biomass can be used for versatile applications including conventional, high performance, and smart materials. Through customization and optimization of the conversion techniques and product manufacturing schemes, a variety of engineering materials can be obtained from pulp and paper mill wastes realizing the current global waste to wealth developmental approach.

Published

2021

6. Improved Extraction of High Value-Added Polyphenols from Pomegranate Peel by Solid-State Fermentation

Author

José Juan Buenrostro-Figueroa, Guadalupe Virginia Nevárez-Moorillón, Mónica Lizeth Chávez-González, Leonardo Sepúlveda, Juan Alberto Ascacio-Valdés, Cristóbal Noé Aguilar, Ruth Pedroza-Islas, Sergio Huerta-Ochoa, and Lilia Arely Prado-Barragán

Subjects

pomegranate peel, polyphenols, improved extraction, high value-added, molecules identification, solid-state fermentation, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Pomegranate peel is an important source of polyphenols of remarkable interest in the food, pharmaceutical and cosmetic industry. The improved extraction of total polyphenolic compounds (TPC) from pomegranate peel by solid-state fermentation (SSF) was achieved. The Box, Hunter and Hunter (BHH) followed by the central composite design (CCD) processes were performed to assess the effect of the process variables on TPC release. The statistical designs indicate that the best TPC extraction (234.85 mg GAE/gdm) by means of SSF occurs at 42 °C, 50% moisture, 5.0 pH, mineral solution (g/L): NaNO3 (3.83), KH2PO4 (1.52), MgSO4 (4.66) and KCl (1.52) at 36 h. Under the best fermentation conditions TPC (248.78 ± 1.24 mgGAE/gdm) increased 5.96-fold more than values previously reported and antioxidant activity (AA) increased 5.81-fold compared to the value obtained before the SSF optimization. High-value citric acid, α and β punicalin, α and β punicalagin, punigluconin, galloyl-HHDP hexoside and ellagic acid molecules were identified. The increased extraction of TPC by SSF provides a suitable alternative for the valorization of pomegranate peel through the recovery of molecules with high added value with potential use in the food, pharmacy and cosmetic industries; a diversification in the use of food agroindustry by-products is obtained as an approach to the circular economy model through biotechnological processes.

Published

2023

7. Ultra‐low degree of polymerization polyvinyl alcohol products prepared by oxidative chain scission: Method and mechanism.

Author

Song, Xianni, Deng, Jianguo, and Zhang, Junhua

Subjects

CHAIN scission, DEGREE of polymerization, ELECTRON paramagnetic resonance spectroscopy, ELECTRON paramagnetic resonance, POLYVINYL alcohol, SODIUM hypochlorite, HYDROXYL group

Abstract

In this paper, the high value‐added (ultra‐low degree of polymerization [ULDP]) polyvinyl alcohol (PVA) product was successfully prepared by oxidative chain scission method with sodium hypochlorite as an oxidant. When the molar ratio of PVA to NaClO is not less than 1:1.8, the reaction is stirred for several hours (≥2 h) at a temperature not exceeding 50°C. After precipitation and washing in methanol, PVA with polymerization degree of 38–150 can be obtained after drying. The infrared spectrum (IR) and nuclear magnetic hydrogen spectrum (1H‐NMR) test proved that the product obtained by this method is indeed PVA. The results of 1H‐NMR also showed that the chain broken has no selectivity and the stereoregularity of hydroxyl group did not change significantly. Through radical quenching experiment and electron paramagnetic resonance (EPR) analysis, it is proved that OCl− is the main active oxide, ·Cl makes the oxidative chain scission process can be realized quickly, and ·OH is an indispensable factor for obtaining ULDP PVA. Under the combined action of these three, high value‐added PVA with ULDP was successfully prepared. Additionally, the sodium hypochlorite oxidized the ·OH captured by 5,5‐dimethyl‐1‐pyrroline‐n‐oxide (DMPO‐OH) to 2‐hydroxy‐5,s‐dimethyl‐1‐pyrroline‐N‐oxide (HDMPO‐OH) in an alkaline environment. [ABSTRACT FROM AUTHOR]

Published

2021

8. Oxygen-rich microporous carbon derived from humic acid extracted from lignite for high-performance supercapacitors.

Author

Zhang, Runhu, Liu, Hongwei, Cui, Zhenming, Zhang, Yanlan, and Wang, Yongzhen

Subjects

*HUMIC acid, *LIGNITE, *CARBON-based materials, *SUPERCAPACITORS, *ENERGY density, *CARBON electrodes, *SURFACE diffusion

Abstract

• Transform lignite into high added-value HA-based oxygen-rich microporous carbon electrode material. • OMC-2 exhibits a micropore-specific surface area of 860 m2 g−1 (S mic /S BET = 98 %). • OMC-2 electrode displays the fastest reaction kinetics due to its high oxygen functional group content. • The specific capacitance of OMC-2 measured at 0.5 A g−1 is 326 F g−1. • High energy density of 15.9 Wh kg−1 (at 275 W kg−1) in the symmetric supercapacitor. Transforming lignite into functional carbon material with high value-added is a promising work. In this work, an oxygen-rich microporous carbon (OMC) was prepared by humic acid as a carbon precursor extracted from a low-rank lignite and catalytic assisted pyrolysis with potassium oxalate (K 2 C 2 O 4) activator. Furthermore, OMC-2 demonstrates a higher specific capacitance (326 F g−1 at 0.5 A g−1) and energy density (15.9 Wh kg−1 at 275 W kg−1) than lignite-based microporous carbon (LMC) when utilized as electrode material for supercapacitors. The outstanding performance of OMC-2 is ascribed to its larger specific surface area (860 m2 g−1) and volume of micropores (0.4 cm3 g−1), coupled with the highest oxygen doping (14.46 %), which high micropore content produces a higher electric double-layer response, and the highest oxygen doping amount improves the hydrophilicity of the surface of carbon materials, enhance the diffusion kinetics, facilitates the mass transfer of electrons/ions, and furnishes partial pseudo capacitance. At a high current density of 10 A g−1, 6000 cycles were executed, and the capacitance retention of OMC-2 exceeded 69 %. This study proposes an effective way to solve the added value problem of lignite and creates a feasible carbon material for practical application. [ABSTRACT FROM AUTHOR]

Published

2024

9. Kinetic Modeling, Operational Conditions, and Biorefinery Products from Hemicellulose: Depolymerization and Solubilization During Hydrothermal Processing

Author

Zanuso, Elisa, Lara-Flores, Anely A., Aguilar, Daniela L., Velazquez-Lucio, Jesús, Aguilar, Cristóbal N., Rodríguez-Jasso, Rosa M., Ruiz, Héctor A., Ruiz, Héctor A., editor, Hedegaard Thomsen, Mette, editor, and Trajano, Heather L., editor

Published

2017

10. Pulp and paper mill wastes: utilizations and prospects for high value-added biomaterials.

Author

Haile, Adane, Gelebo, Gemeda Gebino, Tesfaye, Tamrat, Mengie, Wassie, Mebrate, Million Ayele, Abuhay, Amare, and Limeneh, Derseh Yilie

Subjects

PAPER mill waste, PULP mills, PAPER pulp, WASTE recycling, PAPER mills, BIOMATERIALS, SMART materials

Abstract

A wide variety of biomass is available all around the world. Most of the biomass exists as a by-product from manufacturing industries. Pulp and paper mills contribute to a higher amount of these biomasses mostly discarded in the landfills creating an environmental burden. Biomasses from other sources have been used to produce different kinds and grades of biomaterials such as those used in industrial and medical applications. The present review aims to investigate the availability of biomass from pulp and paper mills and show sustainable routes for the production of high value-added biomaterials. The study reveals that using conventional and integrated biorefinery technology the ample variety and quantity of waste generated from pulp and paper mills can be converted into wealth. As per the findings of the current review, it is shown that high-performance carbon fiber and bioplastic can be manufactured from black liquor of pulping waste; the cellulosic waste from sawdust and sludge can be utilized for the synthesis of CNC and regenerated fibers such as viscose rayon and acetate; the mineral-based pulping wastes and fly ash can be used for manufacturing of different kinds of biocomposites. The different biomaterials obtained from the pulp and paper mill biomass can be used for versatile applications including conventional, high performance, and smart materials. Through customization and optimization of the conversion techniques and product manufacturing schemes, a variety of engineering materials can be obtained from pulp and paper mill wastes realizing the current global waste to wealth developmental approach. [ABSTRACT FROM AUTHOR]

Published

2021

11. Assessing the Impact of Human Capital's Structure on High Value-Added Economic Sectors in European Countries: Illustration of Mining Industry.

Author

JURGELEVICIUS, Arturas and TVARONAVICIENE, Manuela

Subjects

*HUMAN capital, *CAPITAL structure, *ECONOMIC sectors, *MINERAL industries, *ECONOMETRIC models, *TECHNOLOGICAL innovations

Abstract

The aim of the research was to assess the impact of a new structure of human capital on high value-added economic sectors in European countries. The conducted theoretical and empirical research has shown that the proposed new concept of human capital has a place to be. Three dimensions of human capital, such as quality, quantity and value, have different impacts on different sectors of European economies. Based on empirical data, the multiple linear regression model was chosen as a method that the best-fit structure of the data collected. The proposed econometric model revealed that the value of human capital is the most important component among three having very close statistical interconnections with qualitative dimensions. It was researched that Scandinavian countries scored the highest level of value dimension of human capital as well as high value-added in the economy. Open, trusted, tolerant, culturally diverse societies create preconditions for a rise for creative culture, which is a source for the formation of technological innovations and adaptation in high value-added economic sectors. Moreover, because of this value-added chain, technological innovations penetrate traditional industries as mining brings the reduction of cost, the increase in productivity and value-added, safety, and shared value in society through environmental issues. [ABSTRACT FROM AUTHOR]

Published

2021

12. Agro-processing Industries in the South AfricaN Economy

Author

Chitonge, Horman, Oqubay, Arkebe, book editor, Tregenna, Fiona, book editor, and Valodia, Imraan, book editor

Published

2021

13. Deep insight into green remediation and hazard-free disposal of electrolytic manganese residue-based cementitious material.

Author

Wang, Fan, Long, Guangcheng, and Zhou, John L.

Published

2023

14. Pulp and paper mill wastes: utilizations and prospects for high value-added biomaterials

Author

Wassie Mengie, Amare Abuhay, Gemeda Gebino Gelebo, Derseh Yilie Limeneh, Adane Haile, Million Ayele Mebrate, and Tamrat Tesfaye

Subjects

Technology, 020209 energy, Biomedical Engineering, Biomass, 02 engineering and technology, TP1-1185, 010501 environmental sciences, engineering.material, 01 natural sciences, Bioplastic, Biomaterials, 0202 electrical engineering, electronic engineering, information engineering, Viscose, 0105 earth and related environmental sciences, Pulping waste, Renewable Energy, Sustainability and the Environment, business.industry, Pulp (paper), Chemical technology, Paper mill, Biorefinery, Pulp and paper industry, Cellulosic ethanol, engineering, Environmental science, business, High value-added, Black liquor, TP248.13-248.65, Food Science, Biotechnology

Abstract

A wide variety of biomass is available all around the world. Most of the biomass exists as a by-product from manufacturing industries. Pulp and paper mills contribute to a higher amount of these biomasses mostly discarded in the landfills creating an environmental burden. Biomasses from other sources have been used to produce different kinds and grades of biomaterials such as those used in industrial and medical applications. The present review aims to investigate the availability of biomass from pulp and paper mills and show sustainable routes for the production of high value-added biomaterials. The study reveals that using conventional and integrated biorefinery technology the ample variety and quantity of waste generated from pulp and paper mills can be converted into wealth. As per the findings of the current review, it is shown that high-performance carbon fiber and bioplastic can be manufactured from black liquor of pulping waste; the cellulosic waste from sawdust and sludge can be utilized for the synthesis of CNC and regenerated fibers such as viscose rayon and acetate; the mineral-based pulping wastes and fly ash can be used for manufacturing of different kinds of biocomposites. The different biomaterials obtained from the pulp and paper mill biomass can be used for versatile applications including conventional, high performance, and smart materials. Through customization and optimization of the conversion techniques and product manufacturing schemes, a variety of engineering materials can be obtained from pulp and paper mill wastes realizing the current global waste to wealth developmental approach.

Published

2021

15. 废旧聚酯纺织品循环利用技术的发展.

Author

钱军, 林世东, 邢喜全, 王方河, 秦丹, and 杜芳

Abstract

Copyright of China Textile Leader is the property of China Textile Information Center and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

16. 国内外聚酯产业链发展及趋势.

Author

周华堂, 许贤文, and 舒伟

Abstract

Copyright of China Textile Leader is the property of China Textile Information Center and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

17. Solid-state fermentation of agro-industrial wastes to produce bioorganic fertilizer for the biocontrol of Fusarium wilt of cucumber in continuously cropped soil

Author

Chen, Lihua, Yang, Xingming, Raza, Waseem, Luo, Jia, Zhang, Fengge, and Shen, Qirong

Subjects

*SOLID-state fermentation, *INDUSTRIAL wastes, *AGRICULTURAL wastes, *BIOORGANIC chemistry, *FERTILIZERS, *PHYSIOLOGICAL control systems, *WILT diseases, *FUSARIOSIS

Abstract

Abstract: Agro-industrial wastes of cattle dung, vinegar-production residue and rice straw were solid-state fermented by inoculation with Trichoderma harzianum SQR-T037 (SQR-T037) for production of bioorganic fertilizers containing SQR-T037 and 6-pentyl-α-pyrone (6PAP) to control Fusarium wilt of cucumber in a continuously cropped soil. Fermentation days, temperature, inoculum and vinegar-production residue demonstrated significant effects on the SQR-T037 biomass and the yield of 6PAP, based on fractional factorial design. Three optimum conditions for producing the maximum SQR-T037 biomass and 6PAP yield were predicted by central composite design and validated. Bioorganic fertilizer containing 8.46log10 ITS copies g−1 dry weight of SQR-T037 and 1291.73mgkg−1 dry weight of 6PAP, and having the highest (p <0.05) biocontrol efficacy, was achieved at 36.7 fermentation days, 25.9°C temperature, 7.6% inoculum content, 41.0% vinegar-production residue, 20.0% rice straw and 39.0% cattle dung. This is a way to offer a high value-added use for agro-industrial wastes. [ABSTRACT FROM AUTHOR]

Published

2011

18. Sustainable Utilization of Steel Slag from Traditional Industry and Agriculture to Catalysis.

Author

Gao, Di, Wang, Fu-Ping, Wang, Yi-Tong, and Zeng, Ya-Nan

Abstract

Steel slag is a large amount of residual material produced in the process of steel manufacturing. With the requirements of sustainable development in China, the utilization of steel slag has become a hot issue. Through an in-depth study on steel slag, it is apparent that it has been widely used in various fields in recent years. The resource utilization of steel slag is not only conducive to resource conservation, but also conducive to sustainable production and environmental protection. In this paper, the common ways of resource utilization of steel slag in construction, agriculture, industry, and catalysis are reviewed. Steel slag as a solid waste with great development potential and large output is expected to be widely developed into high value-added products such as catalytic material in the future. [ABSTRACT FROM AUTHOR]

Published

2020