Adsorbent materials from paper industry waste materials and their use in Cu(II) removal from water

The paper considers the main components and products of wood processing, agricultural waste, pulp and paper industry waste and qualifies them as sources of pentose-containing resource-renewable domestic raw materials. The article describes in detail the structural components of wood as a natural polymer, which contains aromatic and carbohydrate parts. It is noted that these poly-mers are promising as raw materials for the production of useful chemical products. The role of lignin, cellolose and hemicellulose in the design of mechanical and structural properties of wood is considered. The article considers the features of the sulfonation reactions of the lignin monomer unit depending on the pH of the medium: acidic, neutral and alkaline. There are three main reac-tions that occur simultaneously with lignin in the process of wood delignification during sulfite cooking, such as the sulfonation reaction, the hydrolytic destruction reaction, and the condensation reaction. It is shown that the lignin-hemicellulose matrix contains three types of interconnected mesh structures: the lignin itself; a network of covalent bonds of lignin with hemicelluloses, and a network whose structure is obtained due to the hydrogen bond and the forces of the physical inter-action of lignin and hemicelluloses. The features of chemical transformations of the monomeric aromatic link of lignosulfonate – phenylpropane unit in the processes of wood delignification, the main chemical reactions of wood raw material delignification under the conditions of sulfite and neutral-sulfite brews are shown. The method of quantitative determination of monosaccharides in the composition of the carbohydrate part is proposed.

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Renewable Energy: Myths, Legends, and Reality

ASME 2005 Power Conference ◽

10.1115/pwr2005-50044 ◽

2005 ◽

Author(s):

Charles A. Powell ◽

Thomas W. Johnson

Keyword(s):

Renewable Energy ◽

Power Plants ◽

High Efficiency ◽

Renewable Energy Sources ◽

Paper Industry ◽

Electricity Production ◽

Electricity Pricing ◽

Department Of Agriculture ◽

Industry Waste ◽

The Us

With many States setting goals in the 2010–2020 timeframe for increased U.S. electricity production from renewable energy sources totaling nearly 100,000 MW nationwide, innovative solutions are required; as well as the suspension of several myths of conventional wisdom concerning renewable energy. Since Wind, Hydro and Solar are “opportunity” energy supplies not necessarily available when electricity demands are high; there is a great need for a renewable, “dispatchable” energy source that would be available anytime. Building on the experience of the Pulp and Paper Industry, waste-wood fueled IGCC units of 100MW size are practical today; and new gasification technologies being developed for power plants promise high efficiency, and competitive electricity pricing. With these new IGCC technologies, the US Department of Agriculture estimates there is more than enough wood waste to meet the renewable energy goals currently being considered, cost-competitively and environmentally responsibly.

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Vermiconversion of paper industry waste for recycling the nutrients usig earthworm eudrilus eugeniae kingberg on growth of cluster bean (cymopsis tetragonoloba)

International Journal of Biological Research ◽

10.14419/ijbr.v4i2.6280 ◽

2016 ◽

Vol 4 (2) ◽

pp. 88

Author(s):

P. Sivakumar ◽

R. Chithra

Keyword(s):

Growth Parameters ◽

Paper Industry ◽

Dry Weight ◽

High Yield ◽

Eudrilus Eugeniae ◽

Chemical Parameters ◽

Biochemical Characteristics ◽

Cluster Bean ◽

Industry Waste ◽

Physico Chemical

Objective: To preparation of vermicompost from paper industry waste for recycling the nutrients using earthworm Eudrilus eugeniae kingberg. To analyze the physico chemical parameters of vermicompost, vermiwash and vermicompost extract, enumeration of microorganism from vermicompost, growth parameters and biochemical characteristics of Cluster bean (Cymopsis tetragonoloba) were studied.Methods: The paper industry wastes washed for two times with preparing the predecompost and it kept in 30 days. For preparing the vermicompost, the predecomposition was directly mixed with cowdung in the ratio of 1:2 on dry weight basis in same tank. Seventy number of healthy, clitellate Eudrilus eugeniae kingberg were introduced in the same tank. After 45 days the trial tank compost were sieved and collected for paper industry waste vermicompost.Results: The physico chemical parameters of vermicompost vermiwash and vermicompost extract were studied, the growth parameters and biochemical characteristics were higher in treatments 5 and 6 of Cluster bean were using various concentration of vermicompost, vermiwash and vermicompost extract.Conclusion: Present study was concluded that the Eudrilus eugeniae kingberg is more efficient in bioconversion of paper industry waste vermicompost, vermiwash and vermicompost extract were using various concentration of pot culture study of brinjal was higher growth and high yield and vermicompost act as an excellent biofertilizer of crop plants.

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Sugarcane Industry Waste Recovery: A Case Study Using Thermochemical Conversion Technologies to Increase Sustainability

Applied Sciences ◽

10.3390/app10186481 ◽

2020 ◽

Vol 10 (18) ◽

pp. 6481 ◽

Cited By ~ 2

Author(s):

Leonel J. R. Nunes ◽

Liliana M. E. F. Loureiro ◽

Letícia C. R. Sá ◽

Hugo F. C. Silva

Keyword(s):

Energy Content ◽

Paper Industry ◽

Value Added ◽

Biomass Energy ◽

High Mass ◽

Thermochemical Conversion ◽

Industry Waste ◽

High Mass Loss ◽

Conversion Technologies ◽

Sugarcane Industry

The sugarcane industry has assumed an increasingly important role at a global level, with countries such as Brazil and India dominating the field. However, this causes environmental problems, since the industry produces large amounts of waste, such as sugarcane bagasse. This by-product, which is energetically partially recovered in sugar mills and in the pulp and paper industry, can make a significant contribution to the general use of biomass energy, if the usual disadvantages associated with products with low density and a high moisture content are overcome. From this perspective, thermochemical conversion technologies, especially torrefaction, are assumed to be capable of improving the fuel properties of this material, making it more appealing for potential export and use in far-off destinations. In this work, sugarcane samples were acquired, and the process of obtaining bagasse was simulated. Subsequently, the bagasse was dried and heat-treated at 200 and 300 °C to simulate the over-drying and torrefaction process. Afterward, product characterization was performed, including thermogravimetric analysis, elemental analysis, calorimetry, and energy densification. The results showed significant improvements in the energy content, from 18.17 to 33.36 MJ·kg−1 from dried bagasse to torrefied bagasse at 300 °C, showing that despite high mass loss, there is potential for a future value added chain for this waste form, since the increment in energy density could enhance its transportation and use in locations far off the production site.

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