Integrated Hemicellulose Extraction and Papermaking Fiber Production from Agro-Waste Biomass
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E. Drăgoi | A. Puițel | G. Ailiesei | M. Nechita | C. Balan
[1] N. Karak,et al. Sustainable green composite of yam and agricultural waste corn stalk fiber with good mechanical, thermal, optical, aging performance and excellent biodegradability , 2023, Composites Science and Technology.
[2] M. Hasanin,et al. Enzymatic valorization of cellulosic and hemicellulosic-based biomasses via the production of antioxidant water-soluble hydrolyzate of maize stalks and the green bio-deinking of mixed office waste paper , 2023, Biomass Conversion and Biorefinery.
[3] Hairui Ji,et al. Corncob Fractionations Toward Two Purposes: Furfural Production and Papermaking , 2023, BioEnergy Research.
[4] Razia Sultana Popy,et al. Tissue paper from corn stalk pulp in biorefinery concept , 2023, Biomass Conversion and Biorefinery.
[5] T. Tesfaye,et al. Multiple Utilization Ways of Corn By-Products for Biomaterial Production with Bio-Refinery Concept; a Review , 2023, Materials Circular Economy.
[6] Xuhai Zhu,et al. Biodegradable, Colorless, and Odorless PLA/PBAT Bioplastics Incorporated with Corn Stover , 2023, ACS Sustainable Chemistry & Engineering.
[7] I. Anastopoulos,et al. Recent progress on corn (Zea mays L.)-based materials as raw, chemically modified, carbonaceous, and composite adsorbents for aquatic pollutants: A review , 2023, Journal of Analytical and Applied Pyrolysis.
[8] M. Thantsha,et al. Recovery of xylan from Acacia mearnsii using ultrasound‐assisted alkaline extraction , 2023, Biofuels, Bioproducts and Biorefining.
[9] M. Awasthi,et al. Towards the sustainable conversion of corn stover into bioenergy and bioproducts through biochemical route: Technical, economic and strategic perspectives , 2023, Journal of Cleaner Production.
[10] K. Hájková,et al. Chemical pulp from corn stalks , 2023, Biotechnology reports.
[11] Y. Çöpür,et al. Integrated biorefinery for production of biodegradable film, bioethanol, and soda pulp from corn stalks , 2023, BioResources.
[12] Jomin Thomas,et al. The Road to Sustainable Tire Materials: Current State-of-the-Art and Future Prospectives. , 2023, Environmental science & technology.
[13] Zhaojiang Wang,et al. Production of hemicelluloses sugars, cellulose pulp, and lignosulfonate surfactant using corn stalk by prehydrolysis and alkaline sulfite cooking , 2023, Industrial Crops and Products.
[14] M. Danu,et al. Optimization of Alkaline Extraction of Xylan-Based Hemicelluloses from Wheat Straws: Effects of Microwave, Ultrasound, and Freeze–Thaw Cycles , 2023, Polymers.
[15] V. Thakur,et al. Microbial meat: A sustainable vegan protein source produced from agri-waste to feed the world. , 2023, Food research international.
[16] J. Hallett,et al. Influence of Pretreatment Severity Factor and Hammett Acidity on Softwood Fractionation by an Acidic Protic Ionic Liquid , 2023, ACS sustainable chemistry & engineering.
[17] Á. L. Santana,et al. Valorization of Cereal Byproducts with Supercritical Technology: The Case of Corn , 2023, Processes.
[18] Xin Gao,et al. Facile preparation of all cellulose composite with excellent mechanical and antibacterial properties via partial dissolution of corn-stalk biomass. , 2022, International journal of biological macromolecules.
[19] Yuxuan Zhang,et al. A multi-product strategy for the fractionation of corn stover based on peracetic acid and maleic acid processing , 2022, Journal of Environmental Chemical Engineering.
[20] Yang Liu,et al. Self-extracted corn-stalk cellulose/epoxy resin composites , 2022, Scientific Reports.
[21] M. Messori,et al. Use of different kind of waste in the construction of new polymer composites: Review , 2022, Materials Today Sustainability.
[22] Shibo Yang,et al. A green pretreatment approach of corn stalk wastes for obtaining micro/nano-cellulose fibers, monosaccharides and lignin fractions , 2022, Renewable Energy.
[23] M. Danu,et al. An Experimental Study on the Hot Alkali Extraction of Xylan-Based Hemicelluloses from Wheat Straw and Corn Stalks and Optimization Methods , 2022, Polymers.
[24] Weili Wu,et al. Derived from corn straw cellulose: modified used tire rubber powder composites , 2022, Cellulose.
[25] A. S. Panwar,et al. Integrated farming system approaches to achieve food and nutritional security for enhancing profitability, employment, and climate resilience in India , 2022, Food and Energy Security.
[26] K. Laatikainen,et al. Study on spinnability of arabinoxylan extracted from barley husks , 2022, Cellulose.
[27] K. Moraczewski,et al. Influence of the Size of the Fiber Filler of Corn Stalks in the Polylactide Matrix Composite on the Mechanical and Thermomechanical Properties , 2021, Materials.
[28] I. Volf,et al. Vegetable Oil-Based Resins Reinforced with Spruce Bark Powder and with Its Hydrochar Lignocellulosic Biomass , 2021, Applied Sciences.
[29] N. Brosse,et al. Steam Explosion Pretreatment of Lignocellulosic Biomass: A Mini-Review of Theorical and Experimental Approaches , 2021, Frontiers in Chemistry.
[30] Zhaojiang Wang,et al. Full fractionation of cellulose, hemicellulose, and lignin in pith-leaf containing corn stover by one-step treatment using aqueous formic acid , 2021, Industrial Crops and Products.
[31] W. Bai,et al. Effects of Corn Stalks and Urea on N2O Production from Corn Field Soil , 2021, Agronomy.
[32] Q. Peng,et al. An integrated method to produce fermented liquid feed and biologically modified biochar as cadmium adsorbents using corn stalks. , 2021, Waste management.
[33] Hugo de Vries,et al. Critical success and risk factors for circular business models valorising agricultural waste and by-products , 2021, Resources, Conservation and Recycling.
[34] M. Donner,et al. How to innovate business models for a circular bio‐economy? , 2021, Business Strategy and the Environment.
[35] Idiano D’Adamo,et al. Zero waste approach towards a sustainable waste management , 2021, Resources, Environment and Sustainability.
[36] Sandeep Kumar,et al. Production of levulinic acid and biocarbon electrode material from corn stover through an integrated biorefinery process , 2020 .
[37] Shengxin An,et al. Effect of removing hemicellulose and lignin synchronously under mild conditions on enzymatic hydrolysis of corn stover , 2020 .
[38] V. S. Moholkar,et al. Acacia Xylan as a Substitute for Commercially Available Xylan and Its Application in the Production of Xylooligosaccharides , 2020, ACS omega.
[39] Cheng Zhong,et al. Fractionation of corn stover by two-step pretreatment for production of ethanol, furfural, and lignin , 2020 .
[40] S. Zhai,et al. An integrated biorefinery process to produce butanol and pulp from corn straw , 2019, Industrial Crops and Products.
[41] D. Danielewicz,et al. Comparison of Some Properties of Selected Non-Wood Plants and Wood Species and Unbleached Kraft Pulps from These Materials , 2019 .
[42] Vijay Singh,et al. Improving ethanol yields with deacetylated and two-stage pretreated corn stover and sugarcane bagasse by blending commercial xylose-fermenting and wild type Saccharomyces yeast. , 2019, Bioresource technology.
[43] A. Halilović,et al. Mechanisms of strength and stiffness improvement of paper after PFI refining with a focus on the effect of fines , 2019, Cellulose.
[44] Liang Yu,et al. Effect on anaerobic digestion performance of corn stover by freezing–thawing with ammonia pretreatment , 2019, Chinese Journal of Chemical Engineering.
[45] D. Cai,et al. Co-generation of ethanol and l-lactic acid from corn stalk under a hybrid process , 2018, Biotechnology for Biofuels.
[46] Yun Ji,et al. Influence of the hemicellulose content on the fiber properties, strength, and formability of handsheets , 2018, BioResources.
[47] L. Lucia,et al. Synthesis of Cationic Xylan Derivatives and Application as Strengthening Agents in Papermaking , 2018 .
[48] W. Farhat,et al. Hemicellulose extraction and characterization for applications in paper coatings and adhesives , 2017 .
[49] M. Hekkert,et al. Conceptualizing the Circular Economy: An Analysis of 114 Definitions , 2017 .
[50] Natália Pietzsch,et al. Benefits, challenges and critical factors of success for Zero Waste: A systematic literature review. , 2017, Waste management.
[51] Yucai He,et al. Mild alkaline presoaking and organosolv pretreatment of corn stover and their impacts on corn stover composition, structure, and digestibility. , 2017, Bioresource technology.
[52] T. Kim,et al. Effects of Low Moisture Anhydrous Ammonia (LMAA) Pretreatment at Controlled Ammoniation Temperatures on Enzymatic Hydrolysis of Corn Stover , 2017, Applied Biochemistry and Biotechnology.
[53] K. Winans,et al. The history and current applications of the circular economy concept , 2017 .
[54] Huiling Li,et al. Characterization of hemicelluloses from Neolamarckia cadamba (Rubiaceae) during xylogenesis. , 2017, Carbohydrate polymers.
[55] S. Boufi,et al. Easy production of cellulose nanofibrils from corn stalk by a conventional high speed blender , 2016 .
[56] Lujia Han,et al. Integrated chemical and multi-scale structural analyses for the processes of acid pretreatment and enzymatic hydrolysis of corn stover. , 2016, Carbohydrate polymers.
[57] Mohammad Jawaid,et al. A Review on Natural Fiber Reinforced Polymer Composite and Its Applications , 2015 .
[58] Atiq Uz Zaman,et al. A comprehensive review of the development of zero waste management: lessons learned and guidelines , 2015 .
[59] H. Pereira,et al. Characterisation and hydrothermal processing of corn straw towards the selective fractionation of hemicelluloses , 2013 .
[60] M. Jahan,et al. Effect of pre-hydrolysis on the soda-anthraquinone pulping of corn stalks and Saccharum spontaneum (kash) , 2012 .
[61] J. Kennedy,et al. Isolation of hemicelluloses from sugarcane bagasse at different temperatures: Structure and properties , 2012 .
[62] Steffen Lehmann,et al. Challenges and Opportunities in Transforming a City into a “Zero Waste City” , 2011 .
[63] R. Venditti,et al. Incorporation of carboxyl groups into xylan for improved absorbency , 2011 .
[64] Anne S Meyer,et al. Lignocellulose pretreatment severity - relating pH to biomatrix opening. , 2010, New biotechnology.
[65] D. Evtuguin,et al. Structural characterization of the acetylated heteroxylan from the natural hybrid Paulownia elongata/Paulownia fortunei. , 2008, Carbohydrate research.
[66] Hannu Paulapuro,et al. Interfiber bonding and fiber segment activation in paper , 2007, BioResources.
[67] Christiane Laine,et al. Structures of hemicelluloses and pectins in wood and pulp , 2005 .
[68] M. Tenkanen,et al. Characterization of O-acetyl-(4-O-methylglucurono)xylan isolated from birch and beech. , 2002, Carbohydrate research.
[69] A. Leake. The development of integrated crop management in agricultural crops: comparisons with conventional methods. , 2000 .
[70] R. Overend,et al. Fractionation of lignocellulosics by steam-aqueous pretreatments , 1987, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[71] K. P. Mohapatra,et al. Designing an energy efficient, economically feasible, and environmentally robust integrated farming system model for sustainable food production in the Indian Himalayas , 2023, Sustainable Food Technology.
[72] Jiajun Fan,et al. An integrated process for the valorization of corn stover promoted by NaCl in GVL/H2O system , 2022, Green Chemistry.
[73] J. Korhonen,et al. Circular Economy: The Concept and its Limitations , 2018 .
[74] M. Schmer,et al. Corn Residue Use by Livestock in the United States , 2017 .
[75] Jian Liu,et al. Enzymatic hydrolysis of hemicelluloses from Miscanthus to monosaccharides or xylo-oligosaccharides by recombinant hemicellulases , 2016 .
[76] Xiaofeng He,et al. Economic, environmental and social assessment of briquette fuel from agricultural residues in China – A study on flat die briquetting using corn stalk , 2014 .
[77] R. Sun,et al. ISOLATION AND FRACTIONATION OF HEMICELLULOSES FROM SALIX PSAMMOPHILA , 2012 .
[78] A. J. Latibari,et al. APPLICATION OF ALKALINE SULFITE PULPING ON CORN STALKS , 2011 .
[79] A. Heiningen,et al. INFLUENCE OF HEMICELLULOSES PRE-EXTRACTION AND RE-ADSORPTION ON PULP PHYSICAL STRENGTH II . BEATABILITY AND STRENGTH STUDY , 2011 .
[80] Shri Ramaswamy,et al. Process modeling and analysis of pulp mill-based integrated biorefinery with hemicellulose pre-extraction for ethanol production: a comparative study. , 2010, Bioresource technology.
[81] R. Ruiz,et al. Determination of Sugars, Byproducts, and Degradation Products in Liquid Fraction Process Samples , 2008 .
[82] Y. Y. Lee,et al. Fractionation of corn stover by hot-water and aqueous ammonia treatment. , 2006, Bioresource technology.
[83] R. Elander,et al. Optimization of dilute-acid pretreatment of corn stover using a high-solids percolation reactor , 2005, Applied biochemistry and biotechnology.
[84] Amie D. Sluiter,et al. Determination of Structural Carbohydrates and Lignin in Biomass , 2004 .
[85] H. Keulen,et al. Integrated crop management: An approach to sustainable agricultural development , 1996 .
[86] T. E. Timell,et al. The number‐average molecular weight of native hardwood xylans , 1965 .