Showing total 2,926 results

1. Rapid, Simple and Inexpensive Fabrication of Paper-based Analytical Devices by Parafilm® Hot Pressing

Author

Surasak Kasetsirikul, Kimberley Clack, Muhammad J. A. Shiddiky, and Nam-Trung Nguyen

Subjects

analytical_chemistry, Mechanical Engineering, 010401 analytical chemistry, 02 engineering and technology, paperfluidics, paper-based analytical devices, 021001 nanoscience & nanotechnology, 01 natural sciences, parafilm, Article, 0104 chemical sciences, Control and Systems Engineering, TJ1-1570, Mechanical engineering and machinery, Electrical and Electronic Engineering, 0210 nano-technology

Abstract

Paper-based analytical devices have been substantially developed in recent decades. Many fabrication techniques for paper-based analytical devices have been demonstrated and reported. Herein, we report a relatively rapid, simple, and inexpensive method for fabricating paper-based analytical devices using parafilm hot pressing. We studied and optimized the effect of the key fabrication parameters, namely pressure, temperature, and pressing time. We discerned the optimal conditions, including a pressure of 3.8 MPa, temperature of 80 °C, and 3 min of pressing time, with the smallest hydrophobic barrier size (821 µm) being governed by laminate mask and parafilm dispersal from pressure and heat. Physical and biochemical properties were evaluated to substantiate the paper functionality for analytical devices. The wicking speed in the fabricated paper strips was slightly lower than that of non-processed paper, resulting from a reduced paper pore size after hot pressing. A colorimetric immunological assay was performed to demonstrate the protein binding capacity of the paper-based device after exposure to pressure and heat from the fabrication. Moreover, mixing in a two-dimensional paper-based device and flowing in a three-dimensional counterpart were thoroughly investigated, demonstrating that the paper devices from this fabrication process are potentially applicable as analytical devices for biomolecule detection. Fast, easy, and inexpensive parafilm hot press fabrication presents an opportunity for researchers to develop paper-based analytical devices in resource-limited environments.

Published

2021

2. Insights and Interpretation of the Trends for in ovo Sexing Technologies in Papers and Patents

Author

Corion, Matthias, Santos, Simao, Ketelaere, Bart De, Spasic, Dragana, Hertog, Maarten, and Lammertyn, Jeroen

Subjects

biotechnology

Abstract

Numerous researchers and institutions have been developing in ovo sexing technologies to improve animal welfare by identifying male embryos in an early embryonic stage and disposing of them before pain perception. This review gives a complete overview of the technological approaches reported in papers and patents by performing a thorough search using Web of Science and Patstat databases for papers and patents, respectively. Based on a total of 45 papers and 100 patent families up until 2021 reported worldwide, 11 technology categories were defined: six non-optical and five optical techniques. Every category was described for its characteristics while assessing its potential for application. Next, the dynamics of the publications of in ovo sexing techniques in both paper and patent fields were described through growth curves, and the interest or actual status was visualized using the number of paper citations and the actual legal status of the patents. When comparing the reported technologies in papers to those in patents, scientific gaps were observed, as some of the patented technologies were not reported in the scientific literature, e.g., ion mobility and mass spectrometry approaches. Generally, more diverse approaches in all categories were found in patents, although they do require more scientific evidence through papers or industrial adoption to prove their robustness. Moreover, although there is a recent trend for non-invasive techniques, invasive methods like analyzing DNA through PCR or hormones through immunosensing are still being reported (and might continue to be) in papers and patents. It was also observed that none of the technologies complies with all the industry requirements. Thus, more research and harmony between consumers, industry, and governments is necessary.

Published

2023

3. A Paper-based Immunofluorescent Device for the Detection of SARS-CoV-2 Humanized Antibody

Author

Kamalalayam Rajan Sreejith, Muhammad J. A. Shiddiky, Nam-Trung Nguyen, Surasak Kasetsirikul, Narshone Soda, and Muhammad Umer

Subjects

analytical_chemistry, medicine.diagnostic_test, business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), fungi, medicine, Paper based, Immunofluorescence, Humanized antibody, business, Virology

Abstract

We report on an immunofluorescent paper-based assay for the detection of severe acute respiratory symptom coronavirus 2 (SARS-CoV-2) humanized antibody. The paper-based device was fabricated by using lamination technique for easy and optimized handling. Our approach utilises a two-step strategy that involves (i) initial coating of the paper-electrode with recombinant SARS-CoV-2 nucleocapsid antigen to capture the target SARS-CoV-2 specific antibodies, and (ii) subsequent detection of SARS-CoV-2 antibodies using fluorophore-conjugated IgG antibody. The fluorescence readout was observed with fluorescence microscopy. The images were processed and quantified using a MATLAB program. The assay can selectively detect SARS-CoV-2 humanized antibodies spiked in PBS and healthy human serum samples with the relative standard deviation of approximately 6.4% (for n = 3). It has broad dynamic ranges (1 ng to 50 ng/µL in PBS and 5 to 100 ng/µL in human serum samples) for SARS-CoV-2 humanized antibodies with the detection limits of 2 ng/µL (0.025 IU/mL) and 10 ng/µL (0.125 IU/mL) in PBS and human serum samples, respectively. We believe that our assay has the potential to be used as a simple, rapid, and inexpensive paper-based diagnostic device with a portable fluorescent reader to provide point-of-care diagnosis. This assay can be used for rapid examination of a large batch of samples toward clinical screening of SARS-CoV-2 specific antibodies as a confirmed infected active case or to evaluate the immune response to a SARS-CoV-2 vaccine.

Published

2021

4. Reuse of Barley Straw for Handmade Paper Production

Author

Cerecedo Saenz E, Vargas M Ak, Eleazar Salinas-Rodríguez, Hernandez Avila J, and Román Gutiérrez Add

Subjects

Computer science, Paper production, Agricultural engineering, Reuse, Straw, biomaterials

Abstract

Usually in the manufacture of beer by fermentation of barley, in both industrialized and developing countries significant amounts of organic solid waste are produced from barley straw. These possibly have an impact on the carbon footprint with an effect on global warming. According to this, it is important to reduce environmental impact of these solid residues, and an adequate way is the recycling using them as raw material for the elaboration of handmade paper. Therefore, it is required to manage this type of waste by analyzing the environmental impact, and thus be able to identify sustainable practices for the treatment of this food waste, evaluating its life cycle, which is a useful methodology to estimate said environmental impacts. It is because of this work shows the main results obtained using the life cycle analysis (LCA) methodology, to evaluate the possible environmental impacts during the waste treatment of a brewery located in the state of Hidalgo, Mexico. The residues evaluated were barley straw, malt residues and spent grain, and at the end, barley straw was selected to determine in detail its environmental impact and its reuse, the sheets analyzed presented a grammage that varies from 66 g/m2 and 143 g/m2, resistance to burst was 117 to 145 kpa, with a crystallinity of 34.4% to 37.1%.

Published

2021

5. Horticulture Research In Central Asia: A review of Papers from Scopus Database Published for The Period of 2000-2020

Author

Rajametov, Sherzod and Abdullaev, Sadulla

Subjects

agricultural_sciences_agronomy

Abstract

Horticulture crops (fruit trees) had been grown and cultivated from ancient times in Central Asia. Few researchers have addressed the problem of this profitable sector in the former Great Silk Road, which was at the crossroads of trading avenues. Horticulture has received much attention in the last twenty years. To investigate the current state of research activity of horticulture in Central Asia, we downloaded 4205 English papers from the Scopus database between 2000-2020. We identified a total of 50 papers, and the last four years have witnessed significant growth in publication number, an average of 5 articles per year. Acta Horticulturea was one of the most productive journal. Institute of Plant Biology and Biotechnology (Almaty) and the Academy of Sciences of the Republic of Uzbekistan have worked productively to study high issues. United States Department of Agriculture and Swiss National Science Foundation with Karl Popper Foundation have supported scientific activity in the region. Top 15 highly cited articles were published within the framework of funded projects with international researchers. Researchers of Central Asia focused on walnut, grape and apple, studied on molecular level and cryopreservation of wild relatives for future use. Cherry, apricot, almond and pomegranate crops were less studied by researchers.

Published

2022

6. White Paper on the Biologization of Materials Research

Author

Christof M. Niemeyer, Martin Bastmeyer, Joerg Lahann, Christof Woell, and Stefan Bräse

Subjects

Engineering, White paper, business.industry, Compartmentalization (fire protection), business, Data science, Biofabrication, biomaterials

Abstract

The recommendations of the panel of experts on the further development of the ‘High-Tech Strategy’ of the Government of the Federal Republic of Germany designate the biologization of economic processes along with digitization as the central driver of societal change. Various fields such as the 'biologization of materials research' were then defined in the 'Bio-Agenda' in order to walk the path from biology to innovation. In view of this perspective, we describe how the use of biological materials and mechanisms can lead to resource conservation, the production of intelligent materials and new technological and medical applications. Our strategy, based on research on ‘Biointerfaces in Technology and Medicine’, aims at the development of modular biohybrid systems that could be used as 'biofactories of the future' for sustainable production processes. To achieve this goal, in a first phase already known technologies have to be further refined and integrated in order to obtain and apply compartmentalized reaction systems on different length and time scales. In a second phase, the resulting functional units will be employed to develop dissipative systems useful for biomedical applications and advanced production processes. From a technical point of view, future success in creating 'something entirely new' will depend crucially on robust and complementary research capabilities. Since the close connection of engineering and life sciences at KIT provides an excellent basis for this endeavor, we consider the above perspectives to be feasible.

Published

2018

7. A Survey Paper for Parsing of English Sentences Using Context-Free Grammar

Author

Harsh Dhabekar, Chetanya Rathi, Harshit Mundhra, Pushkar Helge, and Kartik Rajput

Subjects

TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, computational_mathematics

Abstract

The objective of parsing is to transform a natural language sentence it in to a standard order. and in a same way a sentence is tokenized with an appropriate format. There are certain English grammar evaluation rules and the parsing approach which is to be followed for the proper formation of a particular sentence syntactically and semantically using the parsing approach. A sentence in English language is the main element in the semantic parser, which creates a parse tree with the help of applying semantic dating technique to a number of phrases. A parser divides a token into smaller components by applying sets of guidelines that characterize and a series of the tokens to determine its structure of the language, which specified by grammar. The illustration provides easy records on grammatical connections, which can simply know and put into practice with those who have no prior knowledge of the language, such as those who need to obtain textual family members. The semantic family members represent the relationships of a number of the words in the sentence. We advocate utilizing our parser to acquire the tagged sets as well as a context-free layout grammatical representation for the source form. All pronouns, adverbs, singular, plural, nouns, verbs, people, adjectives, tenses and other words are kept in a database.

Published

2022

8. Synthesis and Characterization of Slow-Release Fertilizer Hydrogels Based on Hydroxy Propyl Methyl Cellulose, Polyvinyl Alcohol, Glycerol and Blended Paper as Second Layer

Author

Idayatu Dare, Patrick D Onoja, Esther F Adebayo, Semiu A. Kareem, Daniel T. Gungula, Abdullahi M. Saddiq, Japari Joseph, Vadlya T. Tame, Kefas Mavakumba Haruna, and Fartisincha P. Andrew

Subjects

chemical_engineering, Chemistry, technology, industry, and agriculture, engineering.material, Polyvinyl alcohol, complex mixtures, chemistry.chemical_compound, Self-healing hydrogels, Hydroxypropylmethyl cellulose, engineering, Glycerol, Fertilizer, Layer (electronics), Nuclear chemistry

Abstract

In this study, a slow-release urea fertilizer hydrogel was synthesized from hydroxyl propyl methyl cellulose, polyvinyl alcohol and glycerol blends with paper (blended paper) as second layer. The fertilizer hydrogel was characterized by SEM, XRD and FTIR. Its retention in sandy soil, swelling behavior in distilled and tap water as well as slow-release behavior to urea were investigated. The results indicated that the fertilizer had good slow-release properties and ability to retain water in soil. However, the addition of blended paper as a second layer matrix was found to help improve the release properties of the fertilizer. The swelling kinetic of the hydrogel followed the Schott’s Second order model. The release kinetics of urea in water was best described by the Zero order model signifying that the release behavior was independent of fertilizer concentration

Published

2021

9. Application of Computational Intelligence Methods for the Automated Identification of Paper-Ink Samples Based on LIBS

Author

Ozal Yildirim, Tomasz Łojewski, Paweł Pławiak, Krzysztof Rzecki, Tomasz Sośnicki, Małgorzata Król, U. Rajendra Acharya, Mateusz Baran, and Michał Niedźwiecki

Subjects

Computer science, Decision tree, Computational intelligence, 02 engineering and technology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Spectral line, Article, Analytical Chemistry, computational intelligence methods, Probabilistic neural network, 0202 electrical engineering, electronic engineering, information engineering, Preprocessor, artificial_intelligence_robotics, lcsh:TP1-1185, Electrical and Electronic Engineering, Spectroscopy, Instrumentation, LIBS, Artificial neural network, business.industry, 010401 analytical chemistry, Pattern recognition, paper-ink analysis, Perceptron, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Random forest, Support vector machine, machine learning, classification, discrimination power, 020201 artificial intelligence & image processing, Artificial intelligence, business

Abstract

Laser-induced breakdown spectroscopy (LIBS) is an important analysis technique with applications in many industrial branches and fields of scientific research. Nowadays, the advantages of LIBS are impaired by the main drawback in the interpretation of obtained spectra and identification of observed spectral lines. This procedure is highly time-consuming since it is essentially based on the comparison of lines present in the spectrum with the literature database. This paper proposes the use of various computational intelligence methods to develop a reliable and fast classification of quasi-destructively acquired LIBS spectra into a set of predefined classes. We focus on a specific problem of classification of paper-ink samples into 30 separate, predefined classes. For each of 30 classes (10 pens of each of 5 ink types combined with 10 sheets of 5 paper types plus empty pages), 100 LIBS spectra are collected. Four variants of preprocessing, seven classifiers (decision trees, random forest, k-nearest neighbor, support vector machine, probabilistic neural network, multi-layer perceptron, and generalized regression neural network), 5-fold stratified cross-validation, and a test on an independent set (for methods evaluation) scenarios are employed. Our developed system yielded an accuracy of 99.08%, obtained using the random forest classifier. Our results clearly demonstrates that machine learning methods can be used to identify the paper-ink samples based on LIBS reliably at a faster rate.

Published

2018

10. Machine Learning for Paper Grammage Prediction Based on Sensor Measurements in Paper Mills

Author

Hosny A. Abbas

Subjects

FOS: Computer and information sciences, Grammage, Computer Science - Machine Learning, Interface (Java), Generalization, business.industry, Computer science, Process (computing), Machine learning, computer.software_genre, Automation, Machine Learning (cs.LG), Control system, Production (economics), Mill, artificial_intelligence_robotics, Artificial intelligence, business, computer

Abstract

Automation is at the core of modern industry. It aims to increase production rates, decrease production costs, and reduce human intervention in order to avoid human mistakes and time delays during manufacturing. On the other hand, human assistance is usually required to customize products and reconfigure control systems through a special process interface called Human Machine Interface (HMI). Machine Learning (ML) algorithms can effectively be used to resolve this tradeoff between full automation and human assistance.This paper provides an example of the industrial application of ML algorithms to help human operators save their mental effort and avoid time delays and unintended mistakes for the sake of high production rates. Based on real-time sensor measurements, several ML algorithms have been tried to classify paper rolls according to paper grammage in a white paper mill. The performance evaluation shows that the AdaBoost algorithm is the best ML algorithm for this application with classification accuracy (CA), precision, and recall of 97.1%. The generalization of the proposed approach for achieving cost-effective mills construction will be the subject of our future research., 9 pages

Published

2019

11. Carbon Dioxide Sequestered Concrete: A Review Paper

Author

Kamal, Nur Liyana Mohd, Itam, Zarina, Sivaganese, Yuovendra, and Razak, Norizham Abdul

Subjects

civil_engineering

Abstract

Carbon dioxide, CO2 accounts for most of the emission from all the types of greenhouse gasses in the world. The ability of CO2 to remain longer than other greenhouse gases and the convenience of producing CO2 has resulted in its high projection in a yearly manner. The prime factor for the emission of CO2 are from the actions of human beings. One such human act is the concrete industry. Total emissions from the concrete industry could therefore contribute as much as 8% of global CO2 emissions. Sequestered CO2 in concrete can provide an impact on reducing the carbon footprint and is also able to improve the compressive strength of concrete. During this process, the sequestered carbon dioxide chemically reacts with cement to produce a mineral, trapping carbon dioxide gas in the concrete. Hence, sequestering carbon dioxide gas in concrete does not only on a bigger scale reduces carbon footprint, but it also reduces the impact the construction industry has on the environment. This paper presents a detailed review on the chemical reaction that takes place during the sequestration of carbon dioxide and the research published on the effects of carbon dioxide sequestered concrete on its properties. The impact this process has on the concrete industry and the environment is discussed in this paper.

Published

2020

12. Major Concerns on the Identification of Bat Coronavirus Strain RaTG13 and Quality of Related Nature Paper

Author

lin, xiaoxu and Chen, Shizhong

Subjects

microbiology

Abstract

A recent manuscript (Zhou, P. et al. “A pneumonia outbreak associated with a new coronavirus of probable bat origin”, Nature 579, 270–273 (2020). https://doi.org/10.1038/s41586-020-2012-7) from Wuhan Institute of Virology claimed the identification of a bat coronavirus, RaTG13, which showed 96.2% genome homology with SARS-CoV-2. In this paper, we raise the puzzling observations surrounding the identification, characterization, unique genome features of this RaTG13 strain, as well as its 100% nucleotide identity in partial RdRp gene with another bat coronavirus strain BtCoV/4991. And the paper presented premature hypothesis of potential bat origin of SARS-CoV-2 while RaTG13 strain was not successfully isolated. We also present the concerns on the methodology, data quality and experiment procedures described in this paper. We call for the authors to provide additional data, to share related samples to be verified and further characterized by other scientists.

Published

2020

13. Whole Virus Detection using Paper Potentiometry

Author

Massood Tabib-Azar and Subhashish Dolai

Subjects

Text mining, Computer science, business.industry, Aptamer, electrical_electronic_engineering, Computational biology, business, Virus detection

Abstract

Paper-based sensors, microfluidic platforms and electronic devices have attracted attention in the past couple of decades because they are flexible, can be recycled easily, environmentally friendly, and inexpensive. Here we report a paper aptamer-based potentiometric sensor to detect the whole Zika virus for the first time with a minimum sensitivity of 2.6 nV/Zika and the minimum detectable signal (MDS) of 0.8x1e6 Zika. Our paper sensor works very similar to a P-N junction where a junction is formed between two different wet regions with different electrochemical potentials near each other on the paper. These two regions with slightly different ionic contents, ionic species and concentrations, produce a potential difference given by the Nernst equation. Our paper sensor consisted of a 2-3 mm x 10 mm segments of a paper with a conducting silver paint contact patches on its two ends. The paper is soaked in a buffer solution containing aptamers designed to bind to the capsid proteins on Zika. Atomic force microscopy studies were carried out to show both the aptamer and Zika become immobilized in the paper. We then added the Zika (in its own buffer or simulant Urine) to the region close to one of the silver-paint contacts. The Zika virus (40 nm diameter with 43 kDa or 7.1x10-20 gm weight), became immobilized in the paper’s pores and bonded with the resident aptamers creating a concentration gradient. The potential measured between the two silver paint contacts reproducibly became more negative as upon adding the Zika. We also showed that an LCD powered by the sensor, can be used to detect the sensor output.

Published

2020

14. Climate-Smart Agricultural Practices in Ethiopia: Implications of Mitigation of Greenhouse Gas Emissions: A Review Paper

Author

Wakshum Shiferaw

Subjects

Agriculture, business.industry, Environmental protection, Greenhouse gas, Conservation agriculture, Environmental science, biochemistry, business

Abstract

This paper aimed to assess climate-smart agricultural practices in Ethiopia, discuss the contribution of climate-smart agricultural practices for mitigation of greenhouse gas emissions, and examine determinant factors of climate-smart agricultural practices in mitigation of greenhouse gas emissions. Conservation agriculture, integrated soil fertility management, agroforestry, crop diversification, and improved livestock feed and feeding practices are among the best climate-smart agricultural practices in Ethiopia. Combination of the adoption of climate-smart agricultural practices such as no-tillage increased crop diversity and retaining crop residue on-farm have a mitigation potential of increased SOC in non-flooded crops that change in a significant ton of CO2e ha-1 year-1. In addition, a mitigation potential of CH4 in reduced irrigation of paddy rice farms was also changed in ton CO2e ha-1 year-1. It was found that productivity enhancing interventions in the tropics could reduce emission intensity in dairy systems by up to 0.9 t CO2e per milk. Agroforestry practices and the addition of organic fertilizers on the farm increased mitigation potential of 784093 t CO2e and 193050 t CO2e biomass of carbon and SOC per year respectively. Adoptions of climate-smart agricultural practices are affected by different factors such as farming factors, technology inaccessibility, environmental factors, policy design and social expertise, negative attitudes and motivations of farmers, farmers’ socio-demographic factors, and farmers' socioeconomic factors. To reverse the situation, preparation of targeted climate-smart agricultural practices to areas that are likely to provide the greatest GHG reduction potential and demonstration of these practices to other areas should be encouraged so that other farmers will learn for similar agro-ecologies.

Published

2020

15. Survey Paper About Quality Assurance In Cloud Computing

Author

Shahzad, Sidra, Hanif, Iqra, and Shafique, Rabail

Subjects

general_engineering

Abstract

—as the complexity in the cloud services increases day by day the role of brokers used in the cloud gain more importance. Here we basically resolve this issue by discussing preference based cloud service recommender that support MCDM approach.[24] The implementation and specifications details are properly discussed in a unified way to deal with the problem. SC3 is a tool that compromises capabilities of the quality assurance dimension of CSB and also it strengthen the flexibility of cloud services. The anxieties between definition procedure and implementation procedure are separated by service completeness compliance checker (SC3). Now a days companies use cloud computing for their economic benefits and market competitions that increase the demand of “cloud computing”. So for the calculation of critical success factor of “cloud computing” we focus on plan do check act strategy.

Published

2020

16. A Review Paper on Simulation Based Six Sigma Approach in Quality Assurance

Author

Mehreen Sirshar, Sidra Shahzad, Muneeza Khalid, and Iqra Hanif

Subjects

business.industry, Computer science, DMAIC, Six Sigma, Lean Six Sigma, business, Simulation based, Quality assurance, engineering_other, Manufacturing engineering, Agile software development

Abstract

The main purpose of this research is to use “DMAIC” and “DMADV” framework of six sigma to reduce cost of projects, increase yields, improve performance and reduce defects. This study conclude that the sigma level of cement bag production in four production lines is “4.7 DPMO” values of 710 and the possibility of defects per unit of 11 possibilities this situation was handled by using six sigma. Any business or industry run only to satisfy customer and increase their profits, this can be attained as development of quality product..For the ranking of newly established universities the certification of those institutes is very important and also a critical process. For this process we used Lean six sigma approach that can identify the wastes that affect this process.Six sigma can be applied to any work field such as education, power optimization and other types of industries Six sigma “DMAIC” approach is also used for the testing of EDA tools that occurs due to the complex coding or configurations, flows and platforms they support. To improve the process quality of SDLC it’s necessary to remove the defects of system in advance along with thorough valuation of size and it also makes project accordant with real time environment

Published

2019

17. Synthesis Polymer Styrene Butadiene Hybrid Latex with Laponite Organoclay as Filler via Emulsion Polymerization Technique for Application in Paper Coating

Author

Puke Mi, Zheng Zhongwu, Johannes Chanra, and Bambang Soegijono

Subjects

chemistry.chemical_classification, Filler (packaging), Materials science, Styrene-butadiene, nanotechnology, Emulsion polymerization, Polymer, engineering.material, complex mixtures, chemistry.chemical_compound, Coating, chemistry, Chemical engineering, engineering, Organoclay

Abstract

Synthesis of styrene butadiene hybrid latex was performed via emulsion polymerization technique using various amount of laponite clay as filler. Laponite clay was modified with cationic surfactant methyl triphenylphosphonium bromide (MTPB) with ion exchange technique prior to polymerization process. The main objective of the modification is to render the surface of the clay layers to more organophilic. Emulsion polymerization was performed under semi batch process using 2 L laboratory stainless steel reactor with temperature 85°C to 90°C for 8 hours. Polymer hybrid styrene butadiene latex was characterized for its physical and chemical properties with standard ASTM Methods. Characterization of its binding and printing properties were carried out with standard testing method (TAPPI Methods) using single coating formulation on 80 gsm woodfree paper. Polymer hybrid latex based on styrene and butadiene monomers with laponite clay enhanced binding and printing properties of coated paper, addition of laponite clay to 6.0 wt % increased the binding resistance of the coated paper two times higher than pure latex. Reducing binder level become possible for cost saving.

Published

2019

18. Preprint: Data on Peer Reviewed Papers about Recreational Disturbance of Coastal Avifauna

Author

S.S. Marasinghe, Priyan Perera, Greg D. Simpson, and David Newsome

Subjects

environmental_sciences, Geography, geography.geographical_feature_category, Disturbance (geology), business.industry, Ecotourism, Environmental resource management, Recreation ecology, Wetland, Preprint, business, Recreation

Abstract

This data descriptor summarizes the process applied to identify, screen, select and gather data from the content of 142 peer-reviewed papers/sources that report on the sources and impacts of recreational disturbance on coastal avifauna. While populations of resident and migratory coastal avifauna are under threat and diminishing rapidly across the planet, and particularly in association with Asian flyways, many governments are leveraging booming global demand for coastal recreation and tourism in order to deliver economic development to regional communities. The summary data shared via this data description was extracted from papers collected in a systematic literature review that was designed to explore the global literature on the recreational disturbance of coastal avifauna in order to elucidate the state of the global knowledge regarding this issue and to identify management strategies that could be applied at tropical Asian destinations to minimize the impacts of recreational disturbance and thus enhance the ecological sustainability of coastal recreation and tourism across the region. The data shared via the Excel worksheet associated with this data descriptor was extracted from peer-reviewed articles published in English between 1 January 2000 and the 31 December 2018 with the full text of the article available online. These articles were found by searching several online indexing several databases including Scopus, Web of Science, ProQuest and Google Scholar.

Published

2019

19. Zircon 95. Preprints of papers presented at the conference held 10-12 May 1995 in Munich, Germany.

Author

Intertech Conferences; Industrial Minerals Information Ltd. and Intertech Conferences; Industrial Minerals Information Ltd.

Abstract

Papers presented are: Keynote address - overview of the global zircon industry 1980-2000, by Moore D.E., 23pp., 7 refs.; Commercial zircon sands of the world, by Garnar T.E., 12pp.; Metamict zircon - is its importance understood?, by Hawkins K.D., Aral H. and Sparrow G., 17pp., 36 refs.; The addition of zircon to high density alumina grinding media bodies, by Thompson P., 15pp.; Zircon in investment casting, by Bertuletti G., 23pp.; Use of zirconia in steelmaking refractories, by Leistner H., 11pp.; Factors leading to substitution of zircon in Japanese steelmaking, by Bell D., 11pp.; The use of zircon in refractories for glassmaking, by Urffer D., 12pp.; Outlook for fused zirconia, by MacDonald A., 7pp.; Zirconia based colours - what will the future growth be?, by Brown T. and Winbow H., 16pp.; Review of world baddeleyite production and future outlook, by Skidmore C., 16pp.; Regulatory implications of radioactivity in zircon, by Simmons C.T., 14pp., 4 refs.; Commercial view of zircon sand for glass refractories, by Chapman F.D., 14pp.; Zirconia overview - 1980 to 2000, by Mitchell V., 12pp.; and The strategic outlook for zircon beyond 2000, by Moore D.E. and Taylor R.K.A., 21pp., 5 refs., Papers presented are: Keynote address - overview of the global zircon industry 1980-2000, by Moore D.E., 23pp., 7 refs.; Commercial zircon sands of the world, by Garnar T.E., 12pp.; Metamict zircon - is its importance understood?, by Hawkins K.D., Aral H. and Sparrow G., 17pp., 36 refs.; The addition of zircon to high density alumina grinding media bodies, by Thompson P., 15pp.; Zircon in investment casting, by Bertuletti G., 23pp.; Use of zirconia in steelmaking refractories, by Leistner H., 11pp.; Factors leading to substitution of zircon in Japanese steelmaking, by Bell D., 11pp.; The use of zircon in refractories for glassmaking, by Urffer D., 12pp.; Outlook for fused zirconia, by MacDonald A., 7pp.; Zirconia based colours - what will the future growth be?, by Brown T. and Winbow H., 16pp.; Review of world baddeleyite production and future outlook, by Skidmore C., 16pp.; Regulatory implications of radioactivity in zircon, by Simmons C.T., 14pp., 4 refs.; Commercial view of zircon sand for glass refractories, by Chapman F.D., 14pp.; Zirconia overview - 1980 to 2000, by Mitchell V., 12pp.; and The strategic outlook for zircon beyond 2000, by Moore D.E. and Taylor R.K.A., 21pp., 5 refs.

Published

1995

20. A Tribute to Lewis Wolpert on the 50th Anniversary of the Publication of His Paper ‘Positional Information and the Spatial Pattern of Differentiation’. Evidence for a Timing Mechanism for Setting Up the Vertebrate Anterior-Posterior (A-P) Axis

Author

Antony Durston

Subjects

cell_developmental_biology, Mechanism (biology), biology.animal, Limb development, Vertebrate, Anterior posterior, Biology, Hox gene, Neuroscience

Abstract

This article is a tribute to Lewis Wolpert on the occasion of the recent 50th anniversary of the publication of his article ‘Positional Information and the Spatial Pattern of Differentiation’. This tribute relates to another of his ideas: his early ‘Progress Zone’ timing model for limb development. Recent evidence is reviewed that a mechanism sharing features with this model patterns the main body axis in early vertebrate development. This tribute celebrates the golden era of Developmental Biology.

Published

2019

21. An Ontology to Standardize Nutritional Epidemiologic Research Output: From Paper-Based Standards to Linked Content

Author

Yang, Chen, Ambayo, Henry, Baets, Bernard De, Kolsteren, Patrick, Thanintorn, Nattapon, Hawwash, Dana, Bouwman, Jildau, Bronselaer, Antoon, Pattyn, Filip, and Lachat, Carl

Subjects

nutrition

Abstract

1) Background: The use of linked data in Semantic Web are promising approaches to add value to nutrition research. An ontology, which defines the logical relationships between well-defined taxonomic terms, enables linking and harmonizing research output. To enable the description of domain-specific output in nutritional epidemiology, we propose the Ontology for Nutritional Epidemiology (ONE) according to authoritative guidance for nutritional epidemiologic research; 2) Methods: First, a scoping review was conducted to identify existing ontology terms for reuse in ONE. Second, existing data standards and manuscript reporting guidelines for nutritional epidemiology were converted into ontology, and the terms used in the standards were summarized and listed separately in a taxonomic hierarchy. Third, the ontologies of the nutritional epidemiologic standards, reporting guidelines and the core concepts were gathered in ONE. Three case studies were illustrated for its potential applications. (i) annotation of existing manuscripts and data, (ii) ontology-based inference, and (iii) estimation of reporting completeness in a sample of nine manuscripts; 3) Results: Ontologies for “food and nutrition” (n=33), “disease and special population” (n=86), “data description” (n=21), “research description” (n=32) and “supplementary (meta) data description” (n=44) were reviewed and listed. ONE consists of 339 classes (79 new classes to describe nutrition data and 24 new classes to describe the content of nutrition manuscripts). The case studies demonstrated the application of ONE. 4) Conclusion: ONE is a resource to automate data integration, searching and browsing, and can be used to assess reporting completeness in nutritional epidemiology.

Published

2019

22. A Green Procedure to Manufacture Nanoparticle Decorated Paper Substrates

Author

Nikša Krstulović, Walter Goessler, Damjan Blažeka, Tomislava Vukušić, Gregor Filipič, Wolfgang Bauer, Andrea Jurov, Stefan Spirk, Werner Schlemmer, Wolfgang Johann Fischer, and Armin Zankel

Subjects

Materials science, nanotechnology, Nanoparticle, Nanotechnology, Silver nanoparticle

Abstract

A paper impregnated with silver nanoparticles (AgNPs) has been prepared. For the preparation of the substrates, aqueous suspensions of pulp fines, a side product from the paper production, have been mixed with Ag nanoparticles (AgNP) suspensions. The nanoparticle synthesis thereof was carried out via laser ablation of pure Ag in water. After the sheet formation process, the leaching of the AgNPs was determined to be low while the sheets exhibited antimicrobial activity towards E. Coli.

Published

2018

23. A Review Paper on “Graphene Field Emission for Electron Microscopy”

Author

Xiuyuan Shao and Anjam Khursheed

Subjects

Materials science, nanotechnology, business.industry, Graphene, Scanning electron microscope, Physics::Optics, Electron, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Cathode, law.invention, 0104 chemical sciences, Field electron emission, law, Transmission electron microscopy, Scanning transmission electron microscopy, Optoelectronics, Physics::Accelerator Physics, Electron microscope, business, 0210 nano-technology

Abstract

Although good field emission from graphene has been demonstrated from a wide variety of different micro-fabricated structures, very few of them can be used to improve the design of cold field emitters for electron microscopy applications. Most of them consist of densely packed nano-emitters, which produce a large array of defocused overlapping electron beams, and therefore cannot be subsequently defocused down to a single nano-meter electron probe. This paper reviews the kind of single-tip cathode structures suitable in cold field emission guns for instruments such as the Scanning Electron Microscopy, Transmission Electron Microscope or the Scanning Transmission Electron Microscopy, and reviews progress in fabricating them from graphene based materials.

Published

2018

24. Troodos 87: Ophiolites and oceanic lithosphere. Abstracts of papers accepted for oral and poster presentation, Nicosia, Cyprus, 4-10 October 1987.

Author

Geological Survey of Cyprus and Geological Survey of Cyprus

Abstract

The purpose of the conference was to discuss current research on Troodos and to use the expertise gained from this study to understand the processes of oceanic lithosphere formation, the origin of other ophiolites and the associated metallogenesis. The papers are divided into five groups: Troodos ophiolite, Tethyan ophiolites, other ophiolites and related topics, oceanic crust, and hydrothermal alteration and metallogeny,., The purpose of the conference was to discuss current research on Troodos and to use the expertise gained from this study to understand the processes of oceanic lithosphere formation, the origin of other ophiolites and the associated metallogenesis. The papers are divided into five groups: Troodos ophiolite, Tethyan ophiolites, other ophiolites and related topics, oceanic crust, and hydrothermal alteration and metallogeny,.

Published

1987

25. Development trends in the alumina production. Paper presented at the demonstration workshop on laboratory and pilot scale bauxite processing, Kingston, Jamaica, 28 June-6 July 1985.

Author

Zambo J., UNIDO, Zambo J., and UNIDO

Published

1985

26. Design of the Jamaica Institute Bayer process pilot plant. Paper presented at the demonstration workshop on laboratory and pilot scale bauxite processing, Kingston, Jamaica, 28 June-6 July 1985.

Author

McGaw D.R., UNIDO, McGaw D.R., and UNIDO

Abstract

The plant, which has significant built-in operational flexibility, allows for the evaluation of the processing characteristics of a wide range of bauxite ores as well as process research studies on all of the unit operations in the Bayer process., The plant, which has significant built-in operational flexibility, allows for the evaluation of the processing characteristics of a wide range of bauxite ores as well as process research studies on all of the unit operations in the Bayer process.

Published

1985

27. Papers on the origin and distribution of manganese nodules in the Pacific and prospects for exploration. An international symposium organised by the Valdivia Manganese Exploration Group and the Hawaii Institute of Geophysics, Honolulu, Hawaii, 23-25 July 1973.

Author

Morgenstein M., ed., Morgenstein M., and ed.

Published

1973

28. Assessing the Economic Viability of the Plastic Biorefinery and Its Contribution to a More Circular Plastic Sector

Author

Cristiano Varrone and Megan Roux

Subjects

chemistry.chemical_compound, Materials science, Economic viability, chemistry, Polyethylene terephthalate, Polytrimethylene terephthalate, biomedical_chemical_engineering, Biorefinery, Pulp and paper industry

Abstract

It is widely accepted that plastic waste is one of our most urgent environmental concerns the world is currently facing. Plastic has contributed greatly to innovation in all fields, but the raw material for its production (fossil fuels), as well as the linear economy in which it is currently produced and used, makes the material problematic from a sustainability and human health perspectives. The emergence of bio-based plastics provides an opportunity to reduce dependency on fossil fuels and transition to a more circular plastics economy. For polyethylene terephthalate (PET), one of the most prevalent plastics in packaging and textiles, there exist two bio-based alternatives that are similar or superior in material property and recyclability. These are polyethylene furanoate (PEF) and polytrimethylene terephthalate (PTT). The overarching aim of this study was to examine the transition from fossil-based to renewable plastics, through the lens of PET upcycling into PEF and PTT. The process for the production of PEF and PTT from three feed streams (post-consumer PET waste, lignocellulosic biomass-derived cellulose and biodiesel-derived crude glycerol) was developed in the software SuperPro Designer and the economic viability assessed via a discounted cumulative cash flow (DCCF) analysis. This study represents a conceptual case study of the valorisation of existing plastic waste into new, recyclable bio-based plastics, for a more sustainable plastics production. A techno-economic analysis of the designed process revealed that the minimum selling price (MSP) of second generation-derived PEF and PTT is 3.13 USD/kg, and that utilities and the feedstock used for the production of 2,5-furandicarboxylic acid (FDCA) needed in PEF synthesis contributed the most to the process operating costs. The effect of recycling PEF and PTT through the process at three recycling rates (42%, 50% and 55%) was investigated and revealed that increased recycling could reduce the MSP of the 2G bio-plastics (by 48.5%) to 1.61 USD/kg. This demonstrates that increasing recycling rates would have a beneficial effect on the economic viability of the plastic biorefinery.

Published

2021

29. Sustainable Oil Adsorption from Produced Water using Cane Papyrus as Natural Biosorbent

Author

Mohammed Jaafar Ali Alatabe

Subjects

chemical_engineering, Adsorption, biology, Papyrus, engineering, Environmental science, Cane, engineering.material, biology.organism_classification, Pulp and paper industry, Produced water, Natural (archaeology)

Abstract

High quantities of wastewater produced from producing natural gas and oil from the aquifer, which called produced water. The produced water was comprised of dissolved solids, suspended solids, emulsified oil, and organic and inorganic compounds. That should be treated it's before disposal because it causes harm to the environment. This study takes the produced water from the southern Iraqi oilfield drilling company to adsorption by the Cane papyrus as natural and low-cost adsorbent. The analysis completed by using Fourier transforms infrared spectroscopy, EDX spectra and Scanning Electron Microscopic (SEM) for Cane papyrus. Investigating the effect of many parameters such as adsorbent dosage, temperature, solution pH, mixer speed and contact time. The Langmuir, Freundlich, Temkin and Harkins-Henderson isotherm models were tested, the results were 0.998,0.966, 0.931 and 0.966 respectively. The Langmuir model was more suitable described the adsorption process than the other models. The kinetics results were, 0.984 for Pseudo-first-order, 0.938 for Pseudo-second order is, 0.979 for Intra particle diffusion study and 0.912 for the Elovich model, the Pseudo-first-order kinetic equation best described the kinetics of the reaction. The thermodynamics study effect temperature changes on the thermodynamic parameters such as standard free energy change (∆G°), standard enthalpy change (∆H°) and standard entropy change (∆S°). The experimental data obtained demonstrated that Cane papyrus is a suitable adsorbent for removing oil from produced water.

Published

2021

30. Effect of Co-Surfactants and Pasteurization for Preservation of Natural Rubber

Author

Rungsarit Koonawoot, Sakdiphon Thiansem, Sittiporn Punyanity, Somchai Thamsutiwat, Surapattapong Kulltham, Anucha Raksanti, and Tiwasawat Sirisoam

Subjects

polymers_plastics, Natural rubber, biology, law, Chemistry, visual_art, Microorganism, visual_art.visual_art_medium, Pasteurization, Hevea brasiliensis, biology.organism_classification, Pulp and paper industry, law.invention

Abstract

This research was a study of the effect of addition linear alkylbenzene sulfonates (LAS), NaHCO3, and NaCl and pasteurization on the preservation of natural rubber (NR). The samples were collected from rubber plantations of Chiang Rai province which were added with three surfactants in samples already. Physical and chemical properties were evaluated using pH, deterioration, viscosity, color, and odor. Then, the samples were stored at 28-30°C periods times of 0, 15, 30, 45, and 60 days. The experiment found that the color, viscosity, odor, and texture of NR samples were not spoiled after being preserved for 30 days but after 45 and 60 days found some coagulation of NR. In the case of non-preserved NR was found that spoiled NR in every period time range of 15-60 days. The pH testing found that increasing period times affect decreased pH value and increased viscosity due to salt of sulfate, carbonate, chloride, and thermal treatment of pasteurization which kill microorganisms and evaporated water. It concluded that the reagents were the process of cosurfactants with heat and frozen for increased effectiveness of anti-acid-producing bacteria and can use as short and long-term preservation of NR under the planting area condition of Thailand.

Published

2021

31. An Experimental Investigation on the Performance, Combustion and Emission Characteristics of CI Diesel Engine at Various Compression Ratio With Different Ethanol-biodiesel Blends

Author

B.Durga Prasad, B. Sidda Reddy, and Subramanyam Pavuluri

Subjects

chemistry.chemical_compound, Biodiesel, Ethanol, Materials science, chemistry, Compression ratio, mechanical_engineering, Diesel engine, Pulp and paper industry, Combustion

Abstract

In the present scenario of increased industrialization and transportation in the world leads to increased consumption of fossil fuels which in turns leads to depletion of fossil fuels at a faster rate. Fossil fuels combustion is the dominant source for greenhouse gases and global warming. In view of energy crisis raised in 1970’s and environmental concern, many researches are directed towards search of alternative fuels which can replace consumption of fossil fuels as well as reduce pollution. In developing countries like India which is agriculture land the best alternative fuels are biodiesel and ethanol as they are produced from renewable feedstocks like sugarcane, corn etc. and they are also less hazardous to environment because of lower emission property. Ethanol blends results in significant reduction of emissions of hydrocarbon (HC), carbon monoxide (CO) and particulates matter but increase in nitrogen oxides (NOx). The main purpose of ethanol addition is to reduce the viscosity of biodiesel blends. This paper represents significance of Compression Ratio(CR) on performance, combustion and emission of single cylinder four stroke CI diesel engine by using various compression ratios such as 17.5:1, 18.5:1 and 19.5:1. Experimental research has been conducted with four types of ethanol blends, namely E10, E20, E30 and E40. Ethanol-biodiesel mixture mixed with 2% emulsifier 1% diethyl carbonate and 1% ethyl acetate to maintain similarity and to avoid phase separation. Ethanol subjected to high compression ratio has been used to increase brake thermal efficiency (BTE). The compression ratio has been increased to improve the combustion and performance of the diesel engine.

Published

2020

32. Direct Ink Writing Glass: A Preliminary Step for Optical Application

Author

Ryszard Buczynski, José M.F. Ferreira, Bo Nan, P. Gołębiewski, and Francisco J. Galindo-Rosales

Subjects

Materials science, Scanning electron microscope, general_materials_science, Sintering, lcsh:Technology, Differential scanning calorimetry, Rheology, Phase (matter), General Materials Science, Composite material, Porosity, lcsh:Microscopy, direct ink writing, glass, lcsh:QC120-168.85, lcsh:QH201-278.5, Inkwell, Borosilicate glass, lcsh:T, business.industry, Concept Paper, Microstructure, lcsh:TA1-2040, Optoelectronics, rheology, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:Engineering (General). Civil engineering (General), business, lcsh:TK1-9971, Frit

Abstract

In this paper, we present a preliminary study and conceptual idea concerning 3D printing water-sensitive glass, using a borosilicate glass with high alkali and alkaline oxide contents as an example in direct ink writing. The investigated material was prepared in the form of a glass frit, which was further ground in order to obtain a fine powder of desired particle size distribution. In a following step, inks were prepared by mixing the fine glass powder with Pluoronic F-127 hydrogel. The acquired pastes were rheologically characterized and printed using a Robocasting device. Differential scanning calorimetry (DSC) experiments were performed for base materials and the obtained green bodies. After sintering, scanning electron microscope (SEM) and X-ray diffraction (XRD) analyses were carried out in order to examine microstructure and the eventual presence of crystalline phase inclusions. The results confirmed that the as obtained inks exhibit stable rheological properties despite the propensity of glass to undergo hydrolysis and could be adjusted to desirable values for 3D printing. No additional phase was observed, supporting the suitability of the designed technology for the production of water sensitive glass inks. SEM micrographs of the sintered samples revealed the presence of closed porosity, which may be the main reason of light scattering.

Published

2020

33. Design of Tunnel Drier for the Non-centrifugal Sugar Industry

Author

Sunkara Prudhvi Raj, B Sravya, K.S. Reddy, and Morapakala Srinivas

Subjects

Sugar industry, Environmental science, mechanical_engineering, Pulp and paper industry

Abstract

The quality and shelf-life of NCS (Non-centrifugal sugar) mainly depend on the moisture content present in it. NCS formed by the current practice of open sun drying contains moisture substantially greater than the acceptable level of 3%. This paper presents the work taken up to design a tunnel dryer to attain require moisture content in granular NCS for various load conditions. Initially, an experimental investigation had been carried out on a laboratory scale dryer to achieve required moisture content (< 3%) for various load conditions. This experimental data was used for validating two drying models and found that one of the models is best suitable for designing an industrial-scale dryer. For various load conditions on each tray and dryer exit temperature, nine different cases were arrived at. The number of trucks, trays, drying time and energy requirements were computed using the suitable theoretical model. Tunnel dryer with a length of 18 m, a height of 1.2 m, a width of 1 m, number of trucks of 18 and 24 number of trays on each truck was found to be the suitable dryer to dry 1 tone of NCS based on the minimum energy requirement of 176.49 MJ, and a minimum drying time of 68 minutes.

Published

2020

34. Mathematical Modelling of Pyrolysis of Hardwood (Acacia)

Author

Alok Dhaundiyal, Istvan Bacskai, and Suraj B. Singh

Subjects

Materials science, Agriculture (General), 0211 other engineering and technologies, Acacia, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, S1-972, heat transfer, Hardwood, mechanical_engineering, 021108 energy, Waste Management and Disposal, 0105 earth and related environmental sciences, biology, Mechanical Engineering, wood chips, pyrolysis, biology.organism_classification, Pulp and paper industry, kinetics, Heat transfer, Environmental science, Agronomy and Crop Science, Pyrolysis, physical structure

Abstract

This paper emphasises on the analogous modelling of hardwood (Acacia) pyrolysis. The effect of physical characteristics of hardwood chips on the pyrolysis is examined through the conservation of solid mass fraction of biomass. The chip size of G30 and G50 are used in the pyrolysis reactor. In the analogous situation, the fixed bed is assumed to be a wooden slab with a porosity equivalent to the voidage of bed. The bulk density, the length of the bed and the porosity are some of the physical attributes of a fixed bed used to determine the variation of solid mass of the hardwood across the fixed bed. The four-temperature sensors separated from each other by 80 mm are used to determine the temperature along the length of the pyrolysis unit. The heating element of 2 kWe is used to initiate the pyrolysis of biomass. The experiments are conducted in three different stages. The ONORM standard chips, G30 and G50, and the combination of them are separately pyrolysis to determine the validity of a model for different sizes of chips. The proposed model is also used to establish the relationship between the kinetics of pyrolysis and decomposition of the hardwood.

Published

2020

35. Medical Peat Waste Upcycling to Carbonized Solid Fuel in the Torrefaction Process

Author

Andrzej Białowiec, Małgorzata Leśniak, and Kacper Świechowski

Subjects

Technology, Control and Optimization, Materials science, Peat, Energy Engineering and Power Technology, Thermal treatment, Electrical and Electronic Engineering, peloids, Engineering (miscellaneous), kinetics lifetime prediction, energy_fuel_technology, waste to energy, waste to carbon, Energy recovery, Renewable Energy, Sustainability and the Environment, Carbonization, circular economy, Pulp and paper industry, Torrefaction, Solid fuel, energy balance, Incineration, fuel properties, Heat of combustion, mass balance, Energy (miscellaneous), torrefied biomass

Abstract

Peat is the main type of peloid used in Polish cosmetic/healing spa facilities. Depending on treatment and origin, peat waste can be contaminated microbiologically, and as a result, it must be incinerated in medical waste incineration plants without energy recovery (local law). Such a situation leads to peat waste management costs increase. Therefore, in this work, we checked the possibility of peat waste upcycling to carbonized solid fuel (CSF) using torrefaction. Torrefaction is a thermal treatment process that removes microbiological contamination and improves the fuel properties of peat waste. In this work, the torrefaction conditions (temperature and time) on CSF quality were tested. Parallelly, peat decomposition kinetics using TGA and torrefaction kinetics with lifetime prediction using macro-TGA were determined. Furthermore, torrefaction theoretical mass and energy balance were determined. The results were compared with reference material (wood), and as a result, obtained data can be used to adjust currently used wood torrefaction technologies for peat torrefaction. The results show that torrefaction improves the high heating value of peat waste from 19.0 to 21.3 MJ × kg−1, peat main decomposition takes place at 200–550 °C following second reaction order (n = 2), with an activation energy of 33.34 kJ × mol−1, and pre-exponential factor of 4.40 × 10−1 s−1. Moreover, differential scanning calorimetry analysis revealed that peat torrefaction required slightly more energy than wood torrefaction, and macro-TGA showed that peat torrefaction has lower torrefaction constant reaction rates (k) than wood 1.05 × 10−5–3.15 × 10−5 vs. 1.43 × 10−5–7.25 × 10−5 s−1.

Published

2021

36. Tree Resin as the Most Macroergic Constituent of Conifers – A Possible Means to Mitigate Global Warming and Climate Change

Author

Ján Machava and Jaroslav Demko

Subjects

Environmental protection, Pulp (paper), Global warming, engineering, Tree resin, accounting, Climate change, Environmental science, engineering.material, Carbon sequestration

Abstract

Tree resin, which in addition to its widespread use in industry is also a macroergic component which has not yet been used for energy purposes. The main goal of this work is to determine the energy content of the resin of spruce, pine and larch and wood components – pulp and turpentine. The combustion heats of resin (MJ/kg) from each timber was determined calorimetrically. The energy values of tree resin (>38.0 MJ.kg-1) were 2.2 and 2.4 times higher than that of bleached and unbleached cellulose, the highest value was recorded for the turpentine (>39.0 MJ.kg-1). The best way of resin tapping is the America method, providing 5 kg resin ha-1 yr-1. The resin quantity tapped was raised at least 3 times applying stimulant, its production cost compared to other feedstocks was the cheapest. The tree resin can be applied as a good means to mitigate global warming and consequently dampen climate change. One tonne of tree resin burned instead of coal spares the atmosphere by 5.0 Mt CO2 since it is environmentally neutral. As resin heating values approach to the lower end of ones of liquid hydrocarbon fuels, greater efforts are needed to examine the most efficient energy use of resin.

Published

2021

37. Co-digestion of Extended Aeration Sewage Sludge With Whey, Grease and Septage: Experimental and Modelling Determination

Author

Jonathan Outin, Hervé Boileau, and Gérard Merlin

Subjects

Sewage sludge, Biogas, Grease, Environmental science, Extended aeration, Co digestion, Pulp and paper industry, automotive_engineering, Septage

Abstract

Potential of co-digestion mixing thickened secondary sludge (TS) from extended aeration wastewater treatment plant and locally available substrates (whey, grease and septage) has been studied using three steps. The first step was a batch test to determine biological methane potential (BMP) of different mixtures of the three co-substrates with TS. The second step has been carried out with lab-scale reactors (20 L) simulating anaerobic continuous stirred tank reactors fed by three mixtures of co-substrates determined according to previous step results. Modelling using ADM1 as a mechanistic model was applied in the third step to help understanding the co-digestion process. According to BMP step, septage used as co-substrate has a negative effect on performance and addition of 10 to 30% grease or 10% whey would lead to a higher production of biogas and with an increase of the methane content. The results from the reactor showed less evi-dence of the positive effects observed with the BMP assay. Protein and lipid fractions of particu-late biodegradable COD are important variables for digester stability and methane production as predicted by modelling. Results of simulations with ADM1 model adapted to co-digestion confirmed that this model is a powerful tool to optimize the process of biogas production.

Published

2021

38. Organic Dyes Versus Adsorption Processing

Author

Francisco José Alguacil, Félix A. López, and CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI)

Subjects

analytical_chemistry, Chemistry, Pharmaceutical Science, Organic chemistry, Organic dyes, Review, Environment, Pulp and paper industry, Analytical Chemistry, Wastewaters, Adsorption, QD241-441, Chemistry (miscellaneous), Environmental chemistry, Drug Discovery, Molecular Medicine, Physical and Theoretical Chemistry, Removal

Abstract

Even in the first quarter of the XXI century, the presence of organic dyes in wastewaters was a normal occurrence in a series of countries. As these compounds are toxic, their removal from these waters is a necessity. Among the separation technologies, adsorption processing appeared as one of the most widely used to reach this goal. The present work reviewed the most recent approaches (first half of the 2021 year) regarding the use of a variety of adsorbents in the removal of a variety of organic dyes of different natures., We acknowledge support towards the publication fee by the CSIC Open Access Publication Support Initiative through its Unit of Information Resources for Research (URICI).

Published

2021

39. Process Analysis of Main Organic Compounds Dissolved in Aqueous Phase by Hydrothermal Processing of Açaí (Euterpe oleraceae, Mart.) Seeds: Influence of Process Temperature and Biomass-to-Water Ratio

Author

Nélio Machado, Conceição de Maria Sales da Silva, Marcelo Costa Santo, Maja Schultze, Hélio da Silva Almeida, Thomas Hofmann, Douglas Alberto Rocha de Castro, and Ulf Lüder

Subjects

Euterpe, biology, Chemistry, Aqueous two-phase system, Biomass, biology.organism_classification, Furfural, Pulp and paper industry, Hydrothermal circulation, Acetic acid, chemistry.chemical_compound, Hydrothermal carbonization, Scientific method, automotive_engineering

Abstract

This work aims to investigate systematically the influence of process temperature and biomass-to-water ration on the chemical composition of aqueous and gaseous phases and mass production of chemical by hydrothermal processing of Açaí (Euterpe Oleraceae, Mart.) seeds. The hydrothermal carbonization carried out at 175, 200, 225, and 250 °C, 2 °C/min, biomass-to-water ratio of 1:10, and at 250 °C, 2 °C/min, and biomass-to-water ratios of 1:10, 1:15, and 1:20, in technical scale. The chemical composition of aqueous phase determined by GC and HPLC and the volumetric composition of gaseous phase by using an infrared gas analyzer. For constant biomass-to-water ratio of 1:10, the yields of solid, liquid, and gaseous phases varied between 53.39 and 37.01% (wt.), 46.61 and 59.19% (wt.), and 0.00 and 3.80% (wt.), respectively. The yield of solids shows a smooth exponential decay with temperature, while that of liquid and gaseous phases a smooth growth. By variation of biomass-to-water ratios, the yields of solid, liquid, and gaseous reaction products varied between 53.39 and 32.09% (wt.), 46.61 and 67.28% (wt.), and 0.00 and 0.634% (wt.), respectively. The yield of solids decreases exponentially with increasing water-to-biomass ratio and that of liquid phase increases in a sigmoid fashion. For constant biomass-to-water ratio, the concentrations of Furfural and HMF decrease drastically with temperature, reaching a minimum at 250 °C, while that of phenols increases. In addition, the concentrations of CH3COOH and total carboxylic acids increase, reaching a maximum at 250 °C. For constant process temperature, the concentrations of aromatics vary smoothly with the temperature. The concentrations of furfural, HMF, and cathecol decrease with temperature, while that of phenols increases. The concentrations of CH3COOH and total carboxylic acids decrease exponentially with temperature. Finally, for the experiments with varying water-to-biomass ratios, the productions of chemicals (furfural, HMF, phenols, cathecol, and acetic acid) in the aqueous phase is highly dependent on the biomass-to-water ratio.

Published

2021

40. The Limonene Biorefinery: From Extractive Technologies to Its Catalytic Upgrading into p-Cymene

Author

Francesco Mauriello, Rosaria Ciriminna, Paolo S. Calabrò, Mario Pagliaro, Emilia Paone, Antonella Satira, and Claudia Espro

Subjects

analytical_chemistry, Monoterpene, lcsh:Chemical technology, 010402 general chemistry, Heterogeneous catalysis, 01 natural sciences, Essential oil, Catalysis, Citrus processing waste, Green extraction, Limonene, P-cymene, lcsh:Chemistry, chemistry.chemical_compound, Ingredient, Nutraceutical, lcsh:TP1-1185, Dehydrogenation, Physical and Theoretical Chemistry, 010405 organic chemistry, Biorefinery, Pulp and paper industry, 0104 chemical sciences, lcsh:QD1-999, chemistry

Abstract

Limonene is a renewable cyclic monoterpene that is easily obtainable from citrus peel and it is commonly used as a nutraceutical ingredient, antibacterial, biopesticide and green extraction solvent as well as additive in healthcare, fragrance and food and beverage industries for its characteristic lemon-like smell. Indeed, the lack of toxicity makes limonene a promising bio-alternative for the development of a wide range of effective products in modern biorefineries. As a consequence, industrial demand largely exceeds supply by now. Limonene can be also used as starting substrate for the preparation of building block chemicals, including p-cymene that is an important intermediate in several industrial catalytic processes. In this contribution, after reviewing recent advances in the recovery of limonene from citrus peel and residues with particular attention to benign-by-design extractive processes, we focus on the latest results in its dehydrogenation to p-cymene via heterogeneous catalysis. Indeed, the latest reports evidence that the selective production of p-cymene still remains a scientific and technological challenge since, in order to drive the isomerization and dehydrogenation of limonene, an optimal balance between the catalyst nature/content and the reaction conditions is needed.

Published

2021

41. Efficacy Advanced Chemical Oxidation Process (AOP) for Sustainable Pretreatment of Mixed Dairy and Poultry Wastewaters in Nablus, Palestine

Author

Rashed Al-Sa`ed and Saja Younes

Subjects

Fenton reaction, Chemistry, Oxidation process, Palestine, Pulp and paper industry, automotive_engineering

Abstract

This study investigated the efficacy of advanced oxidation process (AOP) for the reduction of pollution loads in mixed agro-food industrial wastewaters (dairy and slaughterhouse) in Nablus city, Palestine. Bench-scale Jar tests using an advanced oxidation process (AOP) were performed as a pretreatment stage. Initial results on direct applications of Fenton’s process on mixed agro-food wastewater (COD: 15400-18200 mg/l) were unsatisfactory. Hence, the performance of the Fenton process was applied on three mixed wastewater samples with different pre-treatment trials: (A) coagulant (FeCl3.6H2O) addition, (B) settling (2h), and use of flocculent (lime Ca(OH)2) in sample (C). Preceded with lime, Fenton`s process (Sample C) was most effective in the removal of organic carbon and nitrogen (89% COD; 80% TKN). The removal efficiency in inorganic loads (91% TSS; 62% TS) were achieved under H2O2/COD (w/w ratio 2:1), H2O2/Fe+2 (w/w ratio 10:1) and acidic conditions (pH = 3). The adoption of AOP technology by agro-food industries could ensure compliance with municipal by-laws and acquire connection permits to sewerage networks.

Published

2021

42. Evaluation of Advanced Chemical Oxidation Process for the Pretreatment of Mixed Agro-Food Industrial Wastewater in Nablus, Palestine

Author

Rashed Al-Sa`ed and Saja Younis

Subjects

Industrial wastewater treatment, Fenton reaction, Agro food, civil_engineering, Environmental science, Oxidation process, Palestine, Pulp and paper industry

Abstract

This study investigated the reduction of organic loads from mixed agro-food industrial wastewaters (dairy and slaughterhouse) of Nablus city using advanced oxidation process (AOP), a high- rate chemical oxidation reaction. Bench-scale Jar tests using an advanced oxidation process (AOP) were performed as a pretreatment stage. Direct applications of classical Fenton’s process on mixed raw agro-food wastewater samples (COD: 15400-18200 mg/l) revealed unsatisfactory results. The performance of the Fenton process was evaluated using three mixed samples with different pre-treatment trials: (A) coagulant (FeCl3.6H2O) addition, (B) settling (2h) allowed, and use of flocculent (lime Ca(OH)2) in sample (C). Compared with other partial treatments, sample (C), Fenton`s process lime preceded, was the most effective in the removal of organic (89% COD; 80% TKN) and inorganic loads (91% TSS; 62% TS) under H2O2/COD (w/w ratio 2:1), H2O2/Fe+2 (w/w ratio 10:1) and acidic conditions (pH =3). Obtained results comply with Nablus municipal by-law (COD below 2000 mg/l), which help decision-makers within the agro-food industries install pollution reduction systems. Investment in the Fenton-based peroxidation process, allow agro-food industries to obtain connection permits to sewage networks.

Published

2020

43. Potential Energy Production from Citrus Pulp and Olive Pomace: A Case Study in a Region of Mediterranean Basin

Author

Simona M.C. Porto, Paolo Lanteri, Claudia Arcidiacono, and Francesca Valenti

Subjects

Biogas, Pulp (paper), engineering, Pomace, Environmental science, engineering.material, Pulp and paper industry, Mediterranean Basin, energy_fuel_technology

Abstract

The necessity to investigate suitable alternatives to conventional fossil fuels has developed the interests in many renewable energy alternatives, especially biomass resources which are widely available and allow to reach both environmental and socio-economic improvements. Among the bioenergy solutions the anaerobic digestion technology makes it possible to produce biogas by reusing and valorising agricultural residues and by-products. In Southern Italy, to date, the development of biogas sector is still very limited, despite the importance of the agricultural sector, especially of citrus and olive cultivation. For this reason, in previous studies the availability of two by-products, i.e., citrus pulp and olive pomace, was analysed in order to choose the most suitable area for a sustainable development of new biogas plants according to the new Biogasdoneright concept. In this paper, after a resume of the multi-step methodology which allowed the computation of biogas production, it was demonstrated that 15.9 GWh-e electricity and 24.5 GWh-e heat per year could be generate by reusing only these two kind of by-products, and could satisfy approximate 17% of the total electricity demand of the agricultural sector (90.2 GWh-e/year) in Catania.

Published

2018

44. Leading Schools towards Sustainability. Fields of Action and Management Strategies for Principals

Author

Dawson R. Hancock, Ulrich Müller, and Armin Lude

Subjects

leadership, Process (engineering), Teaching staff, principals, Geography, Planning and Development, TJ807-830, ESD, schools, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, concept paper, Political science, management strategies, GE1-350, education_studies, School development, 0105 earth and related environmental sciences, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, 05 social sciences, Principal (computer security), education for sustainable development, 050301 education, Education for sustainable development, Environmental sciences, Work (electrical), Action (philosophy), Sustainability, Engineering ethics, 0503 education

Abstract

Education is expected to support the development of a more sustainable way of thinking, working, and living. Although there is a broad range of literature on Education for Sustainable Development (ESD), the role of principals in the implementation of sustainability and ESD in schools has rarely been taken into consideration. However, based on the results of school effectiveness research, one can assume that school principals exert a significant influence on ESD. Sustainability is a leadership issue. When a school aims at integrating sustainability and ESD, the principal plays a pivotal role. She or he has to support the endeavor wholeheartedly and credibly, organize a participative process of school development, emphasize sustainability and ESD in the daily life of the school, support teaching staff in the application of ESD, and offer students opportunities to launch their own initiatives. This article for the special issue on &ldquo, Sustainability in leadership and education&rdquo, is a theoretical concept paper based on a literature review and the authors&rsquo, conceptual work. It offers a model and seeks to support principals in leading their schools towards sustainability. Therefore, a framework of four stages of the integration of sustainability and ESD in a school is defined. For each of these stages, a number of practical actions and management strategies are suggested and explained in detail.

Published

2019

45. RKKY Interaction in Graphene at Finite Temperature

Author

Eugene Kogan

Subjects

Matsubara Green’s functions, RKKY interaction, Short paper, FOS: Physical sciences, 02 engineering and technology, Ultracold matter, condensed_matter_physics, 01 natural sciences, law.invention, lcsh:QD241-441, lcsh:Organic chemistry, law, Impurity, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 0103 physical sciences, Perturbation theory, Representation (mathematics), 010306 general physics, Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed matter physics, Graphene, graphene, General Medicine, 021001 nanoscience & nanotechnology, Thermodynamic potential, Formalism (philosophy of mathematics), Condensed Matter::Strongly Correlated Electrons, Zero temperature, 0210 nano-technology

Abstract

In our publication from 8 years ago (Phys. Rev. B {\bf 84}, 115119 (2011)) we calculated RKKY interaction between two magnetic impurities adsorbed on graphene at zero temperature. We show in this short paper that the approach based on Matsubara formalism and perturbation theory for the thermodynamic potential in the imaginary time and coordinate representation which was used then, can be easily generalized, and calculate RKKY interaction between the magnetic impurities at finite temperature., LaTex, 4 pages. arXiv admin note: text overlap with arXiv:1108.1306

Published

2019

46. Evaluation of Toxic Effects of Hexavalent Chromium on the Yield and Quality of Sorghum

Author

Praveen Kumar

Subjects

chemistry.chemical_compound, Chromium, Yield (engineering), biology, chemistry, chemistry.chemical_element, Biomass, food and beverages, biochemistry, Hexavalent chromium, Sorghum, biology.organism_classification, Pulp and paper industry

Abstract

Sorghum is a multipurpose crop, but Cr(VI) toxicity influenced the production of the crop and have established highlighted courtesy, due to robust toxicity and a comparatively less known mode of action. Many reports approve the negative impact of Cr(VI) on plants. Yet, it is not clear that, at what concentrations, Cr(VI) inhibits the growth and nutrient quality of Sorghum. In the present research, toxic effects appeared after 1ppm of Cr treatment. The plant growth decreased 15 – 20% and nutritional quality decreased 30 – 40% significantly with increasing concentration of Cr(VI). Toxic components increased 14 – 16% with increasing concentration of Cr(VI) in both the varieties (HJ 541 and SSG 59-3). Chromium was accumulated more in roots followed by shoots with increasing Cr(VI) treatments (0-4 ppm). Chromium at 4ppm level was becoming lethal to Sorghum. Sorghum cultivar SSG 59-3 was more tolerable to Cr toxicity than HJ 541. Chromium accumulated in Sorghum and increased HCN content and at higher doses adversely affects the nutritive values and growth making it toxic for animal consumption. These findings may be useful for scheming a mitigation strategy for chromium toxicity.

Published

2020

47. Water Resistance of Torrefied Wood Pellets Prepared by Two Methods

Author

Tetsuya Sano, Katsushi Kuroda, Daisuke Kamikawa, Yoshitaka Kubojima, Takashi Nomura, Takahiro Yoshida, Seiji Ohara, and Hiroki Watada

Subjects

Materials science, Water resistance, digestive, oral, and skin physiology, other, Pellets, Torrefaction, Pulp and paper industry, automotive_engineering

Abstract

To examine the hydrophobicity of torrefied wood fuel, the water resistances of torrefied pellets prepared by two different methods were evaluated using exposure tests under indoor and outdoor conditions. Torrefied pellets from the xylem of Japanese cedar (Sugi, Cryptomeria japonica) and oak (Konara, Quercus serrata) were prepared by two methods: the torrefaction of wood chips followed by pelletization and the pelletization of wood chips followed by torrefaction. It was found that the pellets prepared by pelletization followed by torrefaction had much lower moisture levels than those prepared by the other method and they showed almost no change in diameter after an outdoor weathering test. These characteristics are unique and indicate that the pellets can be applied not only for industrial use but also for residential and commercial purposes.

Published

2020

48. Omeg@Silica: In-Silica Stabilization of Sustainable Fish Oil

Author

Rosaria Ciriminna, Claudia Lino, and Mario Pagliaro

Subjects

biology, Chemistry, Anchovy, Fish oil, Pulp and paper industry, biology.organism_classification, biotechnology

Abstract

Fish oil rich in docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), vitamin D3 and natural astaxanthin sustainably extracted from anchovy fillet leftovers using biobased limonene only, can be conveniently stabilized by adsorption on periodic mesoporous silicas. The simplicity of the process, the high load of entrapped fish oil, and the biocompatible nature of silica support numerous forthcoming applications of this new class of “Omeg@Silica” materials.

Published

2020

49. Overview of Kaolin Outcomes from Vine to Wine: Cerceal White Variety Case Study

Author

Sílvia M. Rocha, Sara Bernardo, Carlos Correia, Lia-Tânia Dinis, Carina Pedrosa Costa, Carlos Matos, Sandra Alves, Rui Flores, Aureliano C. Malheiro, Ana Luzio, and José Moutinho-Pereira

Subjects

0106 biological sciences, acidity attributes, Berry, phenolic compounds, engineering.material, Photosynthesis, 01 natural sciences, lcsh:Agriculture, 03 medical and health sciences, chemistry.chemical_compound, agricultural_sciences_agronomy, hemic and lymphatic diseases, grapevine physiology, Cultivar, volatile compounds, Water-use efficiency, Sugar, 030304 developmental biology, 2. Zero hunger, Wine, 0303 health sciences, Chemistry, Pulp (paper), lcsh:S, food and beverages, 15. Life on land, Horticulture, engineering, Malic acid, fruit minerals, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Kaolin protective effect was assessed in a white grapevine cultivar &lsquo, Cerceal&rsquo, in &lsquo, Alentejo&rsquo, Region (southeast Portugal) where plants face extreme conditions during the summer season. We addressed the hypothesis that kaolin effects lead to several changes in leaves, fruits, and wine characteristics on the primary and secondary metabolism. Results showed that kaolin reduces leaf temperature which provokes an improvement in physiological parameters such as net photosynthesis and water use efficiency. This protection interferes with berry color, leaving them more yellowish, and an increase in phenolic compounds were observed in all fruit tissues (skin, seed, and pulp). Additionally, both berry and wine characteristics were strongly affected, with an increase of tartaric and malic acid and consequently high total acidity, while the sugar concentration decreased 8.9% in berries provoking a low wine alcohol level. Results also showed that kaolin induces high potassium, magnesium, and iron, and low copper and aluminum concentrations. Moreover, the control wine showed higher content of esters related with hostile notes whereas wine from kaolin treated vines presented higher content of esters associated with fruity notes. Overall, the results strengthen the promising nature of kaolin application as a summer stress mitigation strategy protecting grapevine plants and improving fruit quality and creating more balanced wines.

Published

2020

50. Process Optimisation of Low-caffeine Coffee Using Steam Treatment

Author

Ike Sitoresmi Mulyo Purbowati, Fransisca Wijaya, Ali Maksum, and Riyan Anggriawan

Subjects

Low caffeine coffee, Chemistry, Scientific method, Arabica coffee, other, food and beverages, Pulp and paper industry, complex mixtures, humanities

Abstract

In addition to being a source of freshener, coffee has an enormous possibility to be developed as a source of antioxidants for functional beverages. However, efforts to increase the value added of coffee as a health functional drink are still hindered by the presence of high level of caffeine, which is thought to have adverse effects on health, especially for coffee lovers who are vulnerable to caffeine. This study aims to optimise the steaming duration to produce low caffeine coffee while maintaining the sensory attributes and antioxidant compounds contained in it. Indonesian Arabica (Leksana variety) green coffee beans were steamed with multi-level steaming durations (0, 20, 40, 60 and 80 min) followed by roasting (medium-dark roast degree), grinding, and brewing (espresso method). The results indicate that caffeine content in the coffee was inversely proportional to the steaming duration. The lowest caffeine content was obtained from the treatment of 80 min steaming with a decrease of caffeine level up to 28.73%. However, the longer process of steaming caused a significant decrease in polyphenol content and antioxidant activity. The hedonic test shows that the steaming treatment of coffee can increase preferences of panellists. There were two driving attributes that influence the overall liking of coffee, namely: bitterness and aftertaste. Coffee obtained from the treatment of 60 min steaming was most preferred by panellists. The results of APLSR biplot mapping show that there was a big change in almost all attributes in the coffee samples after 40 min steaming.

Published

2020