Your search keyword '"Paper mill"' showing total 427 results

1. A hybrid process of electrocoagulation and electro-Fenton for treatment of paper wastewater.

Author

Mirzaei, M., Moazeni, K., Baghdadi, M., Aliasghar, A., and Mehrdadi, N.

Abstract

Wastewater treatment in the paper industries is of paramount importance in terms of the concentration and type of pollutants as well as the quantity of water used in the production process. In this study, wastewater from a company in Tehran province was treated through two consecutive processes: electrocoagulation and electro-Fenton, in which the effluent of the electrocoagulation unit entered the electro-Fenton unit. After performing initial tests and setting the appropriate range of parameters affecting both processes, experiments were designed using Box Behnken Design. The objective was to reduce Total Suspended Solids and Chemical Oxygen Demand and optimize the variables influencing the performance of both processes. The impact of different factors, such as time, current, hydrogen peroxide concentration, and pH was investigated. Chemical Oxygen Demand and Total Suspended Solids removal of 55% and 96% were, respectively, achieved using EC conducted at pH 8.5, current of 1.049 A, and retention time of 32.4 min. The Chemical Oxygen Demand abatement efficiency of the electro-Fenton process was found as 66.2% within 46.2 min, hydrogen peroxide concentration of 1077 mg/L and current of 0.036 A. The initial Chemical Oxygen Demand of the untreated wastewater was 1080 mg/L, and after treatment, using the hybrid process it reached 175 mg/L. The result showed that the hybrid processes used less energy than single electrocoagulation or electro-Fenton. [ABSTRACT FROM AUTHOR]

Published

2024

2. Metadata analysis of retracted fake papers in Naunyn-Schmiedeberg's Archives of Pharmacology.

Author

Wittau, Jonathan and Seifert, Roland

Subjects

METADATA, PHARMACOLOGY, PAPER mills, ARCHIVES, SCIENTIFIC community

Abstract

An increasing fake paper problem is a cause for concern in the scientific community. These papers look scientific but contain manipulated data or are completely fictitious. So-called paper mills produce fake papers on a large scale and publish them in the name of people who buy authorship. The aim of this study was to learn more about the characteristics of fake papers at the metadata level. We also investigated whether some of these characteristics could be used to detect fake papers. For that purpose, we examined metadata of 12 fake papers that were retracted by Naunyn-Schmiedeberg's Archives of Pharmacology (NSAP) in recent years. We also compared many of these metadata with those of a reference group of 733 articles published by NSAP. It turned out that in many characteristics the fake papers we examined did not differ substantially from the other articles. It was only noticeable that the fake papers came almost exclusively from a certain country, used non-institutional email addresses more often than average, and referenced dubious literature significantly more often. However, these three features are only of limited use in identifying fake papers. We were also able to show that fake papers not only contaminate the scientific record while they are unidentified but also continue to do so even after retraction. Our results indicate that fake papers are well made and resemble honest papers even at the metadata level. Because they contaminate the scientific record in the long term and this cannot be fully contained even by their retraction, it is particularly important to identify them before publication. Further research on the topic of fake papers is therefore urgently needed. [ABSTRACT FROM AUTHOR]

Published

2024

3. Fake paper identification in the pool of withdrawn and rejected manuscripts submitted to Naunyn–Schmiedeberg's Archives of Pharmacology.

Author

Wittau, Jonathan, Celik, Serkan, Kacprowski, Tim, Deserno, Thomas M., and Seifert, Roland

Subjects

ACQUISITION of manuscripts, PHARMACOLOGY, PAPER mills, ARCHIVES, FRAUD in science

Abstract

Honesty of publications is fundamental in science. Unfortunately, science has an increasing fake paper problem with multiple cases having surfaced in recent years, even in renowned journals. There are companies, the so-called paper mills, which professionally fake research data and papers. However, there is no easy way to systematically identify these papers. Here, we show that scanning for exchanged authors in resubmissions is a simple approach to detect potential fake papers. We investigated 2056 withdrawn or rejected submissions to Naunyn–Schmiedeberg's Archives of Pharmacology (NSAP), 952 of which were subsequently published in other journals. In six cases, the stated authors of the final publications differed by more than two thirds from those named in the submission to NSAP. In four cases, they differed completely. Our results reveal that paper mills take advantage of the fact that journals are unaware of submissions to other journals. Consequently, papers can be submitted multiple times (even simultaneously), and authors can be replaced if they withdraw from their purchased authorship. We suggest that publishers collaborate with each other by sharing titles, authors, and abstracts of their submissions. Doing so would allow the detection of suspicious changes in the authorship of submitted and already published papers. Independently of such collaboration across publishers, every scientific journal can make an important contribution to the integrity of the scientific record by analyzing its own pool of withdrawn and rejected papers versus published papers according to the simple algorithm proposed in the present paper. [ABSTRACT FROM AUTHOR]

Published

2024

4. How to fight fake papers: a review on important information sources and steps towards solution of the problem

Author

Wittau, Jonathan and Seifert, Roland

Published

2024

5. The paper mill crisis is a five-alarm fire for science: what can librarians do about it?

Author

Curtis Brundy and Joel B. Thornton

Subjects

paper mill, publishing integrity, scholarly publishing, academic libraries, open access, research integrity, Bibliography. Library science. Information resources

Abstract

The paper mill crisis, which is polluting the scholarly literature with fake papers, has led to record-breaking article retractions and continues to erode trust in science. While publishers and other scholarly publishing stakeholders have mobilized to address this grave threat to research and publishing integrity, action from the library community has been lacking. This article explores the ongoing impact of the paper mill crisis and its causes. It also reviews the steps being taken across the sector to address it. This includes actions taken by publishers, integrity sleuths and organizations like Retraction Watch, NISO and STM. Based on the severity of the crisis and the current response, this article recommends actions libraries can take to help address the crisis and clean up the mess paper mills have made in the scholarly literature. At a time of declining trust and growing threats facing society, it is critical that all scholarly publishing stakeholders, including librarians, help hold the line on publishing integrity and restore trust in science.

Published

2024

6. Exploring the application of the hybrid nano-bioreactor technology based on the developed polyethersulfone mixed-matrix membrane for industrial effluent treatment

Author

Mahmoud Ahmadi, Mehran Davallo, Vahid Kiarostami, Mohsen Jahanshahi, and Majid Peyravi

Subjects

Submerged membrane adsorption bioreactors (SMABR), Membrane bioreactor (MBR), Mixed-matrix membranes (MMMs), Paper mill, Effluent treatment, Powdered activated carbon (PAC), Chemistry, QD1-999

Abstract

Due to the high concentration of various contaminants in the paper mill effluent, it must undergo an efficient treatment process before being discharged to the environment or being reused in the production cycle. In the present study, the submerged membrane adsorption bioreactor (SMABR) system was used for the treatment of the paper mill effluent. The modified polyethersulfone PES/MoS2 membrane was fabricated by incorporating exfoliated MoS2 nanosheets prepared in the laboratory, into the PES matrix. This membrane along with the powdered activated carbon (PAC) were utilized in the SMABR system for the paper mill effluent treatment. After the acclimation of the sludge with the target effluent, the optimum values of food to microorganism (F/M), hydraulic retention time (HRT), and adsorbent dosage were determined separately to be 0.451, 18 h, and 3 g/L by considering the maximum values of chemical oxygen demand (COD) removal and mixed liquor suspended solid MLSS concentration in each stage. In the final stage, the MBR and SMABR systems (using the pristine and modified membranes, separately) were prepared to separately investigate the effect of the presence of the PAC adsorbent and modified membrane, on the output parameters. In all systems, the values of pH and dissolved oxygen (DO) were maintained in the normal range (pH: 6.2–6.7, DO>2) to provide favorable conditions for the growth of microorganisms. Most importantly, best performance in this study was related to the SMABR system consisting the PES/MoS2 membrane and PAC adsorbent, with the highest values of COD removal (96%), MLSS concentration (15620 mg/L), and membrane permeation flux (110 L/m2.h). It is worth mentioning that the functionalized membrane exhibited better hydrophilicity compared with the pristine membrane, resulting in high water permeation flux, which is in accordance with the performance results.

Published

2023

7. Chinese authors are overrepresented in medical articles retracted for fake peer review or paper mill

Author

Sebo, Paul

Published

2024

8. Impact of paper mill treated wastewater, sludge and sludge vermicompost on soil properties and Ragi yield (Eleusine coracana).

Author

Ramaswamy, Jayashree, Kathirvel, Suganya, Muthunalliappan, Maheswari, Nagappan, Sathiyabama, and Eswaran, Rajeshkumar

Subjects

SEWAGE disposal plants, SEWAGE sludge, SOIL enzymology, MICROIRRIGATION, RAGI

Abstract

The experiment was conducted near a paper mill industry to evaluate the influence of combining treated wastewater and sludge from paper mills on soil quality and productivity of Ragi (Eleusine coracana) also known as finger millet. The study examined soil microbiota, soil enzymes, and yield characteristics of Ragi across different treatments. Among the treatments, the application of effluent treatment plant (ETP) sludge vermicompost at 5 t ha-1 with drip irrigation using treated effluent (T8) resulted in a notable increase in bacterial, fungal and actinomycetes populations (29.49 × 106, 15.50 × 104 and 9.75 × 10² colony-forming units (CFU) ml-1, respectively) at harvest stage. Enzymatic activities in the post-harvest soil, including amylase and invertase (0.99 and 1.49 mg reducing sugars g-1 soil 24 h-1, respectively), cellulose (38.50 µg reducing sugars g-1 soil 24 h-1), phosphatase (18.93 µg phenols g-1 soil 24 h-1) and dehydrogenase (48.19 µg triphenyl formazan g-1 soil 24 h-1) were also significantly higher in the T8 treatment. Plant height, number of tillers, grain and straw yields were all notably higher in T8. The addition of vermicompost sludge enhanced soil microbial activity, thereby stimulating soil enzyme production. As a result, applying ETP sludge vermicompost at 5 t ha-1, along with treated effluent through drip irrigation, significantly enhanced soil health and ragi yield. [ABSTRACT FROM AUTHOR]

Published

2023

9. Phycoremediation of water of Ellenga beel polluted with paper mill effluent using Chlorella ellipsoidea and Desmodesmus opoliensis.

Author

Sharma, Abhinav, Das, Susmita, Bora, Ajitabh, Mondal, Subham C., Gogoi, Nirmali, and Dwivedi, Sanjai K

Subjects

*PAPER mills, *CHLORELLA, *BIOCHEMICAL oxygen demand, *CHEMICAL oxygen demand, *POLLUTANTS

Abstract

The present study investigated the phycoremediation efficacy of two freshwater green microalgae Chlorella ellipsoidea and Desmodesmus opoliensis for treatment of water of Ellenga beel, a wetland located in the vicinity of Nagaon paper mill and into which effluents of the paper mill are drained-off. After inoculation of water samples with the two freshwater green microalgae, the culture medium were analyzed for various physicochemical parameters such as pH, electrical conductivity, total dissolved solids, phosphate, nitrate, potassium, chloride, phenol, cyanide, biological oxygen demand, chemical oxygen demand and heavy metals at every seven days interval for a period of 42 days. A reduction of phosphate (85%), sulfate (96%), nitrate (76%) and chloride (48%) was observed after 42 days of incubation in the tested beel water. The micro algal incubation also resulted in decrease of heavy metal such as Pb (54%), Zn (98%), Cr (59%), and Cu (61%). Comparison of Fourier transform infrared spectra of beel water samples (control) with those inoculated with the test micro algal species showed presence of binding sites for certain functional groups like phosphate, amide, carbohydrate and alkyl halides in inoculated samples. D. opoliensis exhibited higher phycoremediation efficiency than C. ellipsoidea in removal of pollutants from the beel water samples. [ABSTRACT FROM AUTHOR]

Published

2023

10. A critique of Rajendran et al.'s "A critical and recent developments on adsorption technique for removal of heavy metals from wastewater - A review".

Author

Chu KH and Bollinger JC

Abstract

This critique examines a review article in this journal on adsorption techniques for removing metal ions from wastewater. The article is marred by several flaws, including tortured phrases, unsubstantiated quotes, incoherent statements, and factual inaccuracies. These problems weaken the article's clarity and reliability, raising doubts about the authors' understanding of the subject. As a result, the review's credibility is compromised, limiting its value as a reliable resource for researchers. This critique highlights these issues, stressing the importance of accuracy and rigor in scientific writing., Competing Interests: Declaration of Competing Interest ☒ The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

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

Author

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

Subjects

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

Abstract

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

Published

2021

12. Geochemical fractionation of iron in paper industry and municipal landfill soils: Ecological and health risks insights.

Author

Borah, Pallabi, Mitra, Sudip, and Reang, Demsai

Subjects

*ENVIRONMENTAL health, *PAPER industry, *IRON industry, *LANDFILLS, *LAND management, *ANALYSIS of river sediments

Abstract

Industrial processes and municipal wastes largely contribute to the fluctuations in iron (Fe) content in soils. Fe, when present in unfavorable amount, causes harmful effects on human, flora, and fauna. The present study is an attempt to evaluate the composition of Fe in surface soils from paper mill and municipal landfill sites and assess their potential ecological and human health risks. Geochemical fractionation was conducted to explore the chemical bonding of Fe across different fractions, i.e., water-soluble (F1) to residual (F6). Different contamination factors and pollution indices were evaluated to comprehend Fe contamination extent across the study area. Results indicated the preference for less mobile forms in the paper mill and landfill, with 26.66% and 43.46% of Fe associated with the Fe–Mn oxide bound fraction (F4), and 57.22% and 24.78% in the residual fraction (F6). Maximum mobility factor (MF) of 30.65% was observed in the paper mill, and 80.37% in the landfill. The enrichment factor (EF) varied within the range of 20 < EF < 40, signifying a high level of enrichment in the soil. The individual contamination factor (ICF) ranged from 0 to >6, highlighting low to high contamination. Adults were found to be more vulnerable towards Fe associated health risks compared to children. The Hazard Quotient (HQ) index showed the highest risk potential pathways as dermal contact > ingestion > inhalation. The study offers insights into potential Fe contamination risks in comparable environments, underscoring the crucial role of thorough soil assessments in shaping land use and waste management policies. [Display omitted] • Geochemical fractionation unveils less bioavailable Fe in contaminated soil. • EF, ICF, and I geo indicate high Fe contamination. • Adults are more susceptible to potential health risks from surplus Fe exposure. • HQ analysis pinpoints dermal contact as the primary pathway for Fe exposure risks. [ABSTRACT FROM AUTHOR]

Published

2024

13. Investigation of cyanobacteria blooms in paper mill wastewaters and assessment of zinc as a control agent.

Author

Burger, H., Dickson, S., Awad, J., Marzouk, J., and van Leeuwen, John

Subjects

PAPER mills, MICROCYSTIS aeruginosa, INDUSTRIAL wastes, CYANOBACTERIAL blooms, ZINC, WIND speed, AQUATIC organisms

Abstract

At a paper manufacturing mill (PML) that had been previously part of an integrated pulp (bisulphite) and paper mills industry, cyanobacterial blooms were observed in the mill's aerated stabilization basin (ASB) ponds at about 3 years after pulping had been discontinued. This study aimed to determine the factors that led to bloom occurrences and potential control strategies applicable to the paper manufacturing mill's, aerated stabilization basin system that discharges wastewaters into a coastal lake. Following discontinuation of pulping, the colour of the wastewaters reduced to low levels (~ 10 Hazen units or less), while the levels of nutrient remained potentially supportive of cyanobacteria growth with total phosphorus at ~ 0.1 mg/L and total nitrogen at > 2.5 mg/L. Incidences of blooms in the ABS were associated with preceding average monthly rainfalls and wind speeds being less (~ 44% and ~ 7%, respectively) and average direct sunlight hours being greater (~ 9%) than the long-term average values. Zinc was investigated for control of cyanobacteria as this metal is less toxic to aquatic organisms and microflora than copper algaecides. In laboratory culture trials, zinc was found to inhibit growth of M. aeruginosa (strain MIC338) and Pseudanabaena sp. when dosed at ~ 2.5 mg/L. The inhibition of cyanobacteria by zinc was found to vary between ASB pond samples which had different in situ chlorophyll a levels. This study found that the PML wastewaters investigated can be supportive of cyanobacterial growth to bloom levels after discontinuation of pulping processes and that zinc has potential as a cyanobacteria control agent. [ABSTRACT FROM AUTHOR]

Published

2022

14. Improvement in biodegradability of paper mill wastewater by anatase TiO2 predominant in {001} facet in the batch and packed bed photoreactor (PBPR).

Author

Esfandian, H., Beiramzadeh, Z., Shekarian, E., and Katal, Reza

Subjects

PAPER mills, TITANIUM dioxide, SEWAGE, PHOTODEGRADATION, PH effect

Abstract

In this study, the synthesis of the {001} facet of anatase TiO2 (T-{001}) was hydrothermally carried out by a two-step process (without using fluoride ions as capping agent); the synthesized T-{001} sample was characterized by XRD, FESEM and HRTEM. The T-{001} was used for improvement in biodegradability of paper mill wastewater in the batch and continuous system under UV light irradiation. The performance of T-{001} was compared to commercial TiO2 (P25). In the batch system, the effect of the pH, time and photocatalyst dosage on the COD removal were investigated. The results showed that alkaline condition enhanced photocatalytic degradation of COD. For batch system, biodegradability index (BOD5/COD ratio) improved from 0.12 to 0.71 by application of the T-{001}; whereas this improvement was 0.52 for P25 sample. For the continuous system, the TiO2 samples were immobilized on the glass media and utilized in a packed bed photoreactor (PBPR). The effect of different flowrates on the COD removal was investigated. To investigate the stability of the samples, the photocatalytic experiments were continuously carried out for 3 h; both samples showed considerable stability during this time. The final values of BOD5/COD ratio at flowrate of the 5.4 ml/min were 0.64 and 0.42 for CT-{001} and CP25, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

15. The 1-h fraud detection challenge.

Author

van der Heyden, Marcel A. G.

Subjects

FRAUD investigation, PAPER mills, FORGERY

Abstract

Publications baring falsified and fabricated images appear frequently in the primary literature. Industrialized forms of image forgery as practiced by the so-called paper mills worsen the current situation even further. Good education and awareness within the scientific society are essential to create an environment in which honesty and trust are the prime values in experimental research. Here I focus on the detection of publication fraud and provide some examples and advice. Finally, my views on the future of fraud detection and prevention are given. [ABSTRACT FROM AUTHOR]

Published

2021

16. Citations to a retracted psychometric assessment scale for interpersonal mindfulness applied to Iran.

Author

Teixeira da Silva, Jaime A.

Published

2024

17. Experimental and Analytical Study on Enhancing Efficiency of the Photovoltaic Panels Using Polyethylene-Glycol 600 (PEG 600) as a Phase Change Material

Author

M. Firoozzadeh, A. H. Shiravi, and M. Shafiee

Subjects

aerated lagoon, effluent quality standard, paper mill, physical-chemical treatment, wastewater, Environmental sciences, GE1-350

Abstract

Paper mill producing several type papers has a wastewater treatment plant with an aerated lagoon system to remove their pollutants. But the removal efficiency of this system is still low so that the effluent is still not complying with the Indonesian of effluent quality standards yet. It needs pre-treatment plant before aerated lagoon. In an effort to improve the performance of wastewater treatment plant, study of wastewater characteristics, wastewater treatment, the establishment of treatment systems and equipment design have been carried out. After construction of pre-treatment plant, the field trial of wastewater treatment plant using wastewater originated from several type of paper produced was conducted. Result of laboratory-scale experiment showed that the paper mill needs a wastewater treatment with physical-chemical system before aerated lagoon treatment. Field trial of wastewater treatment showed that the removal of suspended solids (TSS) of 97%, COD of 88%, BOD5 of 85%, and a pH of 6.2 to 7.7 could be obtained using 5 - 10 % NaOH solution at doses of 50-240 mg/L and 0.1% cationic polyelectrolyte (PE) solution as flocculants at dose of 1.0 to 1.5 mg/L. Application of physical-chemical treatment plant can lighten the load on an aerated lagoon treatment. Effluent quality of aerated lagoon discharged into environment has met the Indonesian of effluent quality standard.

Published

2019

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

Author

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

Subjects

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

Abstract

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

Published

2021

19. Sub-period division strategies combined with multiway principle component analysis for fault diagnosis on sequence batch reactor of wastewater treatment process in paper mill.

Author

Zhou, Jing, Huang, Feini, Shen, Wenhao, Liu, Zhang, Corriou, Jean-Pierre, and Seferlis, Panagiotis

Subjects

*FAULT diagnosis, *PAPER mills, *WASTEWATER treatment, *BATCH reactors, *SEQUENCING batch reactor process, *PRINCIPAL components analysis

Abstract

• Two sub-period division strategies with MPCA are evaluated in SBR process. • Correlations between the different stages of SBR process are considered. • Four SBR parameters of field data from paper mill are utilized for fault diagnosis. • Sub-period division strategy based on similarity principle demonstrates best. Fault diagnosis of sequential batch reactor (SBR), a widely applied wastewater treatment technology in papermaking industry with huge discharge, has been a significant challenge due to the inherent multi-period characteristics of the process. In this paper, based on the conventional multi-way principal component analysis (MPCA) method (Scenario 0), two sub-period division strategies based on the processing phases of SBR process (Scenario 1) and the similarities of the loading matrices between the adjacent time slices (Scenario 2) are proposed for the detection of faults. Combined with Scenario 0, using the field data of blower current, level of SBR reactor, dissolved oxygen of wastewater and the blower valve opening in the SBR process of paper mill, two different fault diagnosis models with Scenarios 1 and 2 are developed and evaluated, respectively. The study results revealed that, both the calculated statistics of T2 and sum of prediction errors (SPE) of the fault diagnosis models with Scenarios 1 and 2 could detect the faults and identify the fault locations and sources. Compared to Scenario 0 which neglects the correlations between the different stages of SBR process, the fault diagnosis model by Scenario 2 demonstrated a superiority ability in fault identification in terms of the fault's time onset and fault's sources with adequate accuracy. The results enable the feasible and reliable implementation of the developed sub-MPCA diagnosis model with Scenario 2 in the actual SBR plants. [ABSTRACT FROM AUTHOR]

Published

2021

20. The Performance Improvement of Wastewater Treatment Plant of Paper Mill

Author

S. Yusup

Subjects

aerated lagoon, effluent quality standard, paper mill, physical-chemical treatment, wastewater, Environmental sciences, GE1-350

Abstract

Paper mill producing several type papers has a wastewater treatment plant with an aerated lagoon system to remove their pollutants. But the removal efficiency of this system is still low so that the effluent is still not complying with the Indonesian of effluent quality standards yet. It needs pre-treatment plant before aerated lagoon. In an effort to improve the performance of wastewater treatment plant, study of wastewater characteristics, wastewater treatment, the establishment of treatment systems and equipment design have been carried out. After construction of pre-treatment plant, the field trial of waste water treatment plant using wastewater come from several type of paper produced has also been done. Result of laboratory-scale experiment shows that the paper mill needs a wastewater treatment with physical-chemical system before aerated lagoon treatment. Field trial of wastewater treatment shows that the removal of suspended solids (TSS) of 97%, COD of 88%, BOD5 of 85%, and a pH of 6.2 to 7.7 could be obtained by using 5 - 10 % NaOH solution at doses of 50-240 mg/L and 0.1% cationic polyelectrolyte (PE) solution as flocculants at dose of 1.0 to 1.5 mg/L. The addition of physical-chemical treatment plant can lighten the load on an aerated lagoon treatment. Effluent quality of aerated lagoon discharged into environment has met the Indonesian of effluent quality standard.

Published

2018

21. Investigation of physical risk factors in Kahramanmaraş Paper Mill

Author

Ahmet TUTUŞ, Nevres DEMİR, Mustafa ÇİÇEKLER, and Hasan SERİN

Subjects

occupational health and safety, paper mill, physical risk factor, i̇ş sağlığı ve güvenliği, kağıt fabrikası, fiziksel risk etmenleri, Forestry, SD1-669.5

Abstract

In this study, the hazards and risks that may arise in the paper industry in terms of worker health and work safety are analyzed and precautions were mentioned in order to keep these hazards and risks at acceptable levels. It is intended to give an idea of how risk analysis is implemented in a sector related to forest products in practice, and to provide an example of further work in the field. Kahramanmaraş Paper Mill (KMK) belongs to Kahramanmaraş Paper Industry and Trade Joint Stock Company was chosen as application area. According to No. 6331 Occupational Health and Safety Act, measurements such as gas, temperature, relative humidity, vibration, light intensity, and noise considered important in work environments in terms of occupational health and safety and workers' safety were performed. Measurements were made in approximately 35 different sections of the mill. When obtained results from measurements were compared with the regulations, it was determined that there was no threat to occupational health and safety in terms of noise, temperature, relative humidity, light intensity, gas and vibration. Besides, temperature and relative humidity values were found to be suitable for the mill when assessed according to U.S. ASHRAE standards. It has been also determined that the hand-arm vibration values of the employees are within the desired range. Hydrogen sulfide gas was only encountered in the refining section while the oxygen level in the working fields was sufficient. Sulfur dioxide has not been detected in any sections of the mills. As a result of these assessments, it is concluded that KMK does not carry any risk in terms of occupational health and safety.

Published

2018

22. Making My Paper Mill Safer: An Arc-Flash Energy Reduction Story.

Author

Newton, Haley and McCrory, Jordan

Subjects

*PAPER mills, *PULP mills, *OPTICAL fiber detectors, *PAPER pulp, *RATINGS of hospitals, *WORKSHOPS (Facilities)

Abstract

A Midwestern pulp and paper mill had arc-flash ratings around 100 cal/cm2 on 50 480-V unit substations. New relays were installed to replace the existing protection and add light detection to improve arc-flash detection times. During a couple of one-day outages, sample installations took place. During the cold mill outage, 44 installations were completed over 12 days by working around the clock. Old relays were removed, new plates were mounted and wired in, and fiber sensors were routed through the buswork and into the breaker cubicles. Updated arc-flash studies show an average arc-flash rating reduction of 90%. [ABSTRACT FROM AUTHOR]

Published

2020

23. Improvement in biodegradability of paper mill wastewater by anatase TiO2 predominant in {001} facet in the batch and packed bed photoreactor (PBPR)

Author

Esfandian, H., Beiramzadeh, Z., Shekarian, E., and Katal, Reza

Published

2021

24. Improving Treatment Performance of a Sequencing Batch Biofilm Reactor (SBBR) for Wastewater from a Paper Mill Making Coated Products.

Author

Lirong Lei, Fangrui Cai, Caimeng Wang, Youming Li, and Guangsheng Li

Abstract

As a great amount of chemicals are employed to carry out the coating process of paper, the wastewater from paper mill making coated products is characterized by high levels of chemical oxygen demand (COD), colour, and total suspended solids (TSS). In this study, wastewater from a paper mill making coated products was treated by a sequencing batch biofilm reactor (SBBR) after a lab-scale coagulation, resulting in COD, colour, and TSS removal efficiencies of 87.7 ± 1.0%, 33.5 ± 5.2%, and 41.4 ± 3.7%, respectively, which exceeded the biological treatment performance in the paper mill. The removal of COD and colour was attributed to the removal of recalcitrant organic matter, and the removal of TSS was attributed to the biofilm. [ABSTRACT FROM AUTHOR]

Published

2019

25. The Possibility of Systematic Research Fraud Targeting Under-Studied Human Genes: Causes, Consequences, and Potential Solutions.

Author

Byrne, Jennifer A, Grima, Natalie, Capes-Davis, Amanda, and Labbé, Cyril

Subjects

*FRAUD in science, *HUMAN genes, *PAPER mills, *POSSIBILITY, *SALAMI

Abstract

A major reason for biomarker failure is the selection of candidate biomarkers based on inaccurate or incorrect published results. Incorrect research results leading to the selection of unproductive biomarker candidates are largely considered to stem from unintentional research errors. The additional possibility that biomarker research may be actively misdirected by research fraud has been given comparatively little consideration. This review discusses what we believe to be a new threat to biomarker research, namely, the possible systematic production of fraudulent gene knockdown studies that target under-studied human genes. We describe how fraudulent papers may be produced in series by paper mills using what we have described as a 'theme and variations' model, which could also be considered a form of salami slicing. We describe features of these single-gene knockdown publications that may allow them to evade detection by journal editors, peer reviewers, and readers. We then propose a number of approaches to facilitate their detection, including improved awareness of the features of publications constructed in series, broader requirements to post submitted manuscripts to preprint servers, and the use of semi-automated literature screening tools. These approaches may collectively improve the detection of fraudulent studies that might otherwise impede future biomarker research. [ABSTRACT FROM AUTHOR]

Published

2019

26. Boise Inc. St. Helens Paper Mill Achieves Significant Fuel Savings

Published

2008

27. Longest-Serving Active Paper Mill in the Western United States Uncovers New Ways to Save Energy

Published

2008

28. Exploring the application of the hybrid nano-bioreactor technology based on the developed polyethersulfone mixed-matrix membrane for industrial effluent treatment.

Author

Ahmadi, Mahmoud, Davallo, Mehran, Kiarostami, Vahid, Jahanshahi, Mohsen, and Peyravi, Majid

Abstract

Due to the high concentration of various contaminants in the paper mill effluent, it must undergo an efficient treatment process before being discharged to the environment or being reused in the production cycle. In the present study, the submerged membrane adsorption bioreactor (SMABR) system was used for the treatment of the paper mill effluent. The modified polyethersulfone PES/MoS 2 membrane was fabricated by incorporating exfoliated MoS 2 nanosheets prepared in the laboratory, into the PES matrix. This membrane along with the powdered activated carbon (PAC) were utilized in the SMABR system for the paper mill effluent treatment. After the acclimation of the sludge with the target effluent, the optimum values of food to microorganism (F/M), hydraulic retention time (HRT), and adsorbent dosage were determined separately to be 0.451, 18 h, and 3 g/L by considering the maximum values of chemical oxygen demand (COD) removal and mixed liquor suspended solid MLSS concentration in each stage. In the final stage, the MBR and SMABR systems (using the pristine and modified membranes, separately) were prepared to separately investigate the effect of the presence of the PAC adsorbent and modified membrane, on the output parameters. In all systems, the values of pH and dissolved oxygen (DO) were maintained in the normal range (pH: 6.2–6.7, DO>2) to provide favorable conditions for the growth of microorganisms. Most importantly, best performance in this study was related to the SMABR system consisting the PES/MoS 2 membrane and PAC adsorbent, with the highest values of COD removal (96%), MLSS concentration (15620 mg/L), and membrane permeation flux (110 L/m2.h). It is worth mentioning that the functionalized membrane exhibited better hydrophilicity compared with the pristine membrane, resulting in high water permeation flux, which is in accordance with the performance results. [ABSTRACT FROM AUTHOR]

Published

2023

29. Boise Paper: Process Pumping System Optimization Saves Energy and Improves Production

Published

2006

30. Benchmarking Analysis of Energy Efficiency Indicators in Paper Mill

Author

Yanzhong Zhang, Mengna Hong, Jigeng Li, Xiaobin Chen, Zhiqiang Zeng, and Huanbin Liu

Subjects

K-means, Paper mill, Energy efficiency benchmarking, Energy-saving potential, Biotechnology, TP248.13-248.65

Abstract

Paper mills consume a large amount of energy, which is an important factor restricting their sustainable development. Benchmarking is a critical method for discovering the energy-savings potential of mills. To address problems such as the absence of indicators for energy efficiency benchmarking, the influence of different basis weights on energy efficiency levels and on the estimation of energy-saving potential, this paper makes use of production line-based and process-based benchmarking in coated paperboard production. The indicator system is constructed to collect data and quantify the energy efficiency. K-means clustering is used to classify the basis weight and energy efficiency data for seven months and obtain the benchmark values. The results showed that the specific energy consumption (SEC) decreased with the increase in basis weight. An analysis of production line-based benchmarking for a paper mill in China indicated that energy efficiency reached the level of 5.92 to 6.94 GJ/t, which was 10.8 to 23.91% lower compared with the European Union best available energy level (7.78 GJ/t) and 6.28 to 24.6% higher compared with the energy consumption of American paper products integrated production units (5.57 GJ/t). These energy-saving measures should be taken into account in order to raise the energy efficiency in paper mills.

Published

2016

31. Analysis of Volatile Organic Compounds in the Ambient Air of a Paper Mill- A Case Study

Author

Xin Tong, Zhenbin Zhang, Xiaoquan Chen, and Wenhao Shen

Subjects

VOCs, Paper mill, Phenols, Desorption, Ambient air, Benzene series, Biotechnology, TP248.13-248.65

Abstract

In this work, volatile organic compounds (VOCs) in the ambient air of a secondary fiber paper mill were analyzed. For the sake of studying pollution comprehensively, four sites in the paper mill were analyzed and active sampling methods were used. Desorption was carried out with two solvents, carbon disulfide and dichloromethane. The compositions of VOCs were determined by gas chromatography-mass spectrometry (GC-MS) method. The main identified substances in the four sites were as follows: (1) waste paper sorting room: alkanes, phenols, and esters; (2) papermaking workshop: benzene series, alkanes, ethers, and phenols; (3) vacuum pump outlet: benzene series and phenols; and (4) office area: benzene series and phenols. Two main toxic substances in VOCs, the benzene series and phenols, were detected in the ambient air of the paper mill. The benzene series existed in three places along the main process of the paper mill and even existed in the office area, which was far away from the production line. Additionally, phenols were detected in all sampling locations in the paper mill.

Published

2015

32. The Detroit of Paper

Author

Hillard, Michael G., author

Published

2021

33. Reusing tissue paper mill effluent water as corrugated paper mill intake water: Case study of a new clean production measure.

Author

Tao, Jinsong, Long, Xiangbao, Li, Zijian, and Ying, Gaoxiang

Subjects

TISSUE paper manufacturing, PAPER mill waste, SEWAGE purification, WATER reuse, PRODUCTION management (Manufacturing) & the environment, PRODUCTION methods

Abstract

To relief the water shortage crisis in China, the Chinese government has initiated a series of clean production (CP) measures to reduce the freshwater consumption and wastewater discharge from paper industry. In this study, a new CP technology was introduced in the paper industry to reuse tissue paper mill effluent water as intake water of corrugated paper mill. The feasibility and impact of the new CP technology was investigated in three different scales, laboratory experiments, pilot‐scale testing, and long‐term implementation. Results show that the water quality of treated tissue paper mill effluent water is competitive with that of freshwater and some water quality indexes are even better, indicating that treated tissue paper mill effluent water is a suitable alternative to replace the freshwater as intake water for the corrugated paper mill. By reusing tissue paper mill effluent water as intake water of corrugated paper mill, most physical properties of different corrugated paper layers are improved or similar as those by using freshwater as intake water in all different scale experiments. Moreover, the new CP technology significantly reduced the freshwater consumption for the corrugated paper mill, eliminated the wastewater discharged from the tissue paper mill, and at the same time, lowered the operation cost for both paper mills in terms of freshwater consumption and wastewater treatment cost. Total 216,000 RMB will be saved every year with an assumption that tissue paper mill provides annual daily average 2000 cubic meter of effluent water to corrugated paper mill every day. © 2017 American Institute of Chemical Engineers Environ Prog, 37: 934–941, 2018 [ABSTRACT FROM AUTHOR]

Published

2018

34. Journal Retractions: Some Unique Features of Research Misconduct in China.

Author

Liu, Xiaomei and Chen, Xiaotian

Subjects

*SCHOLARLY periodical corrections, *PAPER mills, *FALSIFICATION of data, *CHINESE authors

Abstract

This study used data from the Retraction Watch website and from published reports on retractions and paper mills to summarize key features of research misconduct in China. Compared with publicized cases of falsified or fabricated data by authors from other countries of the world, the number of Chinese academics exposed for research misconduct has increased dramatically in recent years. Chinese authors do not have to generate fake data or fake peer reviews for themselves because paper mills in China will do the work for them for a price. Major retractions of articles by authors from China were all announced by international publishers. In contrast, there are few reports of retractions announced by China's domestic publishers. China's publication requirements for physicians seeking promotions and its leniency toward research misconduct are two major factors promoting the boom of paper mills in China. [ABSTRACT FROM AUTHOR]

Published

2018

35. Statistical Comparison of Response Surface Methodology–Based Central Composite Design and Hybrid Central Composite Design for Paper Mill Wastewater Treatment by Electrocoagulation

Author

Pandey, Neha and Thakur, Chandrakant

Published

2020

36. Integrated Assessment : Comprehensive analysis of environmental impacts of projects

Author

Seip, Knut Lehre, Wenstop, Fred, Seip, Knut Lehre, and Wenstop, Fred

Published

2006

37. Bacterial Community Characterization in Paper Mill White Water

Author

Carolina Chiellini, Renato Iannelli, Raissa Lena, Maria Gullo, and Giulio Petroni

Subjects

Paper mill, 16S rRNA, Isolation, Library, White water, Biotechnology, TP248.13-248.65

Abstract

The paper production process is significantly affected by direct and indirect effects of microorganism proliferation. Microorganisms can be introduced in different steps. Some microorganisms find optimum growth conditions and proliferate along the production process, affecting both the end product quality and the production efficiency. The increasing need to reduce water consumption for economic and environmental reasons has led most paper mills to reuse water through increasingly closed cycles, thus exacerbating the bacterial proliferation problem. In this work, microbial communities in a paper mill located in Italy were characterized using both culture-dependent and independent methods. Fingerprinting molecular analysis and 16S rRNA library construction coupled with bacterial isolation were performed. Results highlighted that the bacterial community composition was spatially homogeneous along the whole process, while it was slightly variable over time. The culture-independent approach confirmed the presence of the main bacterial phyla detected with plate counting, coherently with earlier cultivation studies (Proteobacteria, Bacteroidetes, and Firmicutes), but with a higher genus diversification than previously observed. Some minor bacterial groups, not detectable by cultivation, were also detected in the aqueous phase. Overall, the population dynamics observed with the double approach led us to hypothesize a possible role of suspended bacteria in the re-formation mechanisms of resistant biofilms.

Published

2014

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

Author

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

Subjects

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

Abstract

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

Published

2021

39. Adsorptive decontamination of paper mill effluent by nano fly ash: response surface methodology, adsorption isotherm and reusability studies

Author

Sonal Nigam, Tithi Mehrotra, Rachana Singh, Divya Bisht, Surbhi Sinha, and Kavya Bisaria

Subjects

Langmuir, Environmental Engineering, Materials science, 0211 other engineering and technologies, nano fly ash, 02 engineering and technology, 010501 environmental sciences, Coal Ash, 01 natural sciences, Environmental technology. Sanitary engineering, Adsorption, Freundlich equation, Response surface methodology, Effluent, Decontamination, TD1-1066, 0105 earth and related environmental sciences, Water Science and Technology, 021110 strategic, defence & security studies, business.industry, colour removal, Paper mill, pulp and paper mill effluent, Human decontamination, Hydrogen-Ion Concentration, Pulp and paper industry, adsorption isotherm, Kinetics, Coal, column adsorption study, Fly ash, business, Water Pollutants, Chemical, bbd design model

Abstract

In the present study, adsorption of colour and other pollutants from agro-based paper mill effluent onto fabricated coal fly ash nanoparticles (CFA-N) have been investigated. Response surface methodology was applied to evaluate the operational conditions for maximum ouster of colour from effluent by nano structured CFA-N. Maximum reduction in colour (92.45%) and other pollutants were obtained at optimum conditions: 60 min interaction time, 60 g/L adsorbent dosage and 80 rpm agitation rate. The regression coefficient values (adjusted R2 = 0.7169; predicted R2 = 0.7539) established harmony between predicted and the experimental data. The adsorption equilibrium results matched perfectly with both Langmuir and Freundlich isotherms with maximum adsorption capacity of 250 platinum–cobalt/g. Additionally, the efficacy of CFA-N was also assessed in a continuous column mode. Furthermore, the feasibility of treated effluent for irrigation purpose was checked by growing the plant Solanum lycopersicum. Overall, the findings demonstrated the outstanding role of inexpensive and abundantly available CFA-N in treatment of paper mill effluent to the required compliance levels. HIGHLIGHTS Nano fly ash was successfully utilized for removal of colour and other pollutants from agro-based paper mill effluent.; RSM using BBD was used to optimize the operational conditions.; Quadratic models have been established for the response variables.; Fixed-bed column adsorption studies illustrated the feasibility of nano fly ash for pilot-scale applications.; The reusability of treated effluent for irrigation was examined.

Published

2021

40. Economic impacts of ambient ozone pollution on wood production in Italy

Author

Yasutomo Hoshika, Gherardo Chirici, Sandro Sacchelli, Claudia Cocozza, Elisa Carrari, Augusto Screpanti, Alessandra De Marco, Elena Paoletti, Pierre Sicard, and Alessandro Anav

Subjects

Pollution, wood production, 010504 meteorology & atmospheric sciences, ozone pollution, media_common.quotation_subject, Science, 010501 environmental sciences, Firewood, 01 natural sciences, Article, Ambient ozone, Environmental impact, chemistry.chemical_compound, Ozone, economic impacts, Forest, Tropospheric ozone, Economic impact analysis, 0105 earth and related environmental sciences, media_common, Multidisciplinary, Wood production, business.industry, Paper mill, Forestry, Interest rate, ozone pollution, economic impacts, wood production, chemistry, Environmental science, Medicine, business, Plant sciences

Abstract

Worldwide, tropospheric ozone (O3) is a potential threat to wood production, but our understanding of O3 economic impacts on forests is still limited. To overcome this issue, we developed an approach for integrating O3 risk modelling and economic estimates, by using the Italian forests as a case study. Results suggested a significant impact of O3 expressed in terms of stomatal flux with an hourly threshold of uptake (Y = 1 nmol O3 m−2 leaf area s−1 to represent the detoxification capacity of trees), i.e. POD1. In 2005, the annual POD1 averaged over Italy was 20.4 mmol m−2 and the consequent potential damage ranged from 790.90 M€ to 2.85 B€ of capital value (i.e. 255–869 € ha−1, on average) depending on the interest rate. The annual damage ranged from 31.6 to 57.1 M€ (i.e. 10–17 € ha−1 per year, on average). There was also a 1.1% reduction in the profitable forest areas, i.e. with a positive Forest Expectation Value (FEV), with significant declines of the annual national wood production of firewood (− 7.5%), timber pole (− 7.4%), roundwood (− 5.0%) and paper mill (− 4.8%). Results were significantly different in the different Italian regions. We recommend our combined approach for further studies under different economic and phytoclimatic conditions.

Published

2021

41. Metal Concentrations and Responses of Chironomid Larvae Exposed to Thailand Pulp and Paper Mill Effluent.

Author

Tokhun, Natsima, Iwai, Chuleemas, and Noller, Barry

Subjects

PAPER industry, INDUSTRIAL wastes, SEWAGE, BIOCHEMICAL oxygen demand, CHEMICAL oxygen demand

Abstract

Pulp and paper mills (PPM) may discharge insufficiently treated waste into rivers and give rise to serious effects with aquatic life. This study investigated the biological response of the chironomid ( Chironomus javanus, Kieffer) when exposed to PPM effluent. Effluent concentrations of BOD, COD, TKN, TS, Cr, Cu, Pb and Zn were high. Cd and Cr concentrations in chironomid were the most accumulated. Whole effluent toxicity on the chironomid test organism was significant as expressed by the percent survival and decreased with increasing concentration. Highest dry weight, head capsule and length of the chironomid test organism corresponded to 100% effluent at a specific time. Effect of dilution was assessed by using glutathione S-transferase activity on chironomid and corresponded to 6.25% effluent during 48-96 h which was significantly increased in the chironomid. The results showed that the chironomid was sensitive to PPM effluent and toxicity tests can be used for assessing the effect of effluent on aquatic species. [ABSTRACT FROM AUTHOR]

Published

2017

42. Microalgal bacterial flocs treating paper mill effluent: A sunlight-based approach for removing carbon, nitrogen, phosphorus, and calcium.

Author

Van Den Hende, Sofie, Rodrigues, André, Hamaekers, Helen, Sonnenholzner, Stanislaus, Vervaeren, Han, and Boon, Nico

Subjects

*MICROALGAE, *PAPER mill waste, *UPFLOW anaerobic sludge blanket reactors, *PHOTOSYNTHESIS, *CALCITE

Abstract

Treatment of upflow anaerobic sludge blanket (UASB) effluent from a paper mill in aerated activated sludge reactors involves high aeration costs. Moreover, this calcium-rich effluent leads to problematic scale formation. Therefore, a novel strategy for the aerobic treatment of paper mill UASB effluent in microalgal bacterial floc sequencing batch reactors (MaB-floc SBRs) is proposed, in which oxygen is provided via photosynthesis, and calcium is removed via bio-mineralization. Based on the results of batch experiments in the course of this study, a MaB-floc SBR was operated at an initial neutral pH. This SBR removed 58 ± 21% organic carbon, 27 ± 8% inorganic carbon, 77 ± 5% nitrogen, 73 ± 2% phosphorus, and 27 ± 11% calcium. MaB-flocs contained 10 ± 3% calcium, including biologically-influenced calcite crystals. The removal of calcium and inorganic carbon by MaB-flocs significantly decreased when inhibiting extracellular carbonic anhydrase (CA), an enzyme that catalyses the hydration and dehydration of CO 2 . This study demonstrates the potential of MaB-floc SBRs for the alternative treatment of calcium-rich paper mill effluent, and highlights the importance of extracellular CA in this treatment process. [ABSTRACT FROM AUTHOR]

Published

2017

43. Recycled Paper Sludge Microbial Community as a Potential Source of Cellulase and Xylanase Enzymes.

Author

Heinz, Kássia, Zanoni, Patrícia, Oliveira, Rafael, Medina-Silva, Renata, Simão, Taiz, Trindade, Fernanda, Pereira, Leandro, Tavares, Lorena, and Giongo, Adriana

Abstract

Waste disposal from paper and pulp industry is of great environmental concern. Sludge from recycled paper mills favors colonization with different microbial species due to its chemical composition. In this environment, the microbiota can express enzymes that hydrolyze celluloses and hemicelluloses, such as cellulases, β-glucosidases, and xylanases. Understanding microbiota living in such disposal may give directions to what kind of enzymes or bioproducts may be possible to obtain from this microorganism and how to deal with the waste during the process. We have accessed microbial community associated with two steps in the recycled paper sludge generation by high-throughput DNA sequencing: fibrous residue, and wastewater sludge. Bacteroidetes, Proteobacteria and Firmicutes phyla represented more than 96% of the total. From the eukaryote perspective, Vorticella was the most frequent in fibrous residue samples while Acanthamoeba was the most common on wastewater sludge samples. Among the isolates cellulase activity was detectable only from fungi isolates. Half of the bacterial isolates presented xylanase activity, and most of them in high level of activity. Both a metabarcoding and culturing approaches are valuable tools for enzymatic screening in industrial waste disposal. [ABSTRACT FROM AUTHOR]

Published

2017

44. Energy efficiency at the paper mill-dilemma of improvement.

Author

Hämäläinen, Esa and Hilmola, Olli-Pekka

Subjects

*ENERGY consumption of paper mills, *PAPER industry, *ELECTRIC power consumption, *NATURAL gas consumption, *PAPERMAKING machinery

Abstract

The paper industry is heavily using energy during all the phases of the manufacturing process. This is especially the case in Nordic mills where pressure ground wood is the source of fiber. The purpose of this case study is to show how energy consumption behaves on a monthly basis in a Finnish paper mill that has several paper machine lines. The research examines different categories of energy usage, as well as the overall costs. The results show that the monthly energy usage varies significantly. The electricity consumption of the case mill is rather steady, but there is significant monthly variation in steam and natural gas consumption. Moreover, steam and electricity unit costs increased significantly when coming to the end of the research period. The longitudinal case data shows that it is difficult to enhance energy consumption per produced unit at the paper mill. One reason for this is the bleak demand outlook for the end products, which often result in downsizing and closing operations inside the integrated unit. [ABSTRACT FROM AUTHOR]

Published

2017

45. Esters production via carboxylates from anaerobic paper mill wastewater treatment.

Author

Cabrera-Rodríguez, Carlos I., Moreno-González, Mónica, de Weerd, Florence A., Viswanathan, Vidhvath, van der Wielen, Luuk A.M., and Straathof, Adrie J.J.

Subjects

*ESTERS, *CARBOXYLATES, *WASTEWATER treatment, *PAPER mill waste, *ANAEROBIC digestion, *ESTERIFICATION

Abstract

This paper describes a new option for integrated recovery and esterification of carboxylates produced by anaerobic digestion at a pH above the pK a . The carboxylates (acetate, propionate, butyrate, valerate and lactate) are recovered using a strong anion exchange resin in the bicarbonate form, and the resin is regenerated using a CO 2 -expanded alcohol technique, which allows for low chemicals consumption and direct esterification. Paper mill wastewater was used to study the effect of pH and the presence of other inorganic anions and cations on the adsorption and desorption with CO 2 -expanded methanol. Calcium, which is present in paper mill wastewater, can cause precipitation problems, especially at high pH. Esters yields ranged from 1.08 ± 0.04 mol methyl acetate/mol of acetate in to 0.57 ± 0.02 mol methyl valerate/mol of valerate in . [ABSTRACT FROM AUTHOR]

Published

2017

46. Exposure of rainbow trout to industrial wastewater is associated with immune-related gene expression and hematological changes.

Author

Miandare, H., Yarahmadi, P., Jalali, M., Aramoon, A., Mohammadi, M., and Orrego, R.

Subjects

SEWAGE, INDUSTRIAL wastes, WATER pollution, FISH diseases, BIOSECURITY, RAINBOW trout

Abstract

Inappropriate management of industrial effluents has been among major causes of water pollution and subsequent fish physiological and behavioral disorders and mortalities. This study investigated the effects of wastewater from a paper mill on immune-related gene expressions (lysozyme, tumor necrosis factor and heat shock protein 70) and hematological alterations, in juvenile rainbow trout ( Oncorhynchus mykiss) during a 14-day exposure period. Following the determination of LC50, fish (135 ± 10 g body weight) were exposed to three effluent treatments: control (0), 10 and 25% of LC50, in laboratory conditions. The wastewater exposure initially increased lysozyme and tumor necrosis factor gene expression, and the expression of both genes was suppressed on the 14th day after exposure. There was a rise in heat shock protein 70 gene expression at the beginning of the experiment and then decreased to the level observed in the control group. Fish exposed to wastewater showed a significant increase in the levels of red blood cells, white blood cells and hematocrit three days following exposure, but the levels of these blood parameters significantly decreased at the end of the exposure period ( P < 0.05). Our results indicated a range of immune-related gene toxicity and hematotoxicity in rainbow trout caused by the negative impacts of the industrial wastewater. Here we also discussed that poor biosecurity controls and inadequate treatments of effluents from industrial activities can lead to serious damages among wild populations. [ABSTRACT FROM AUTHOR]

Published

2017

47. Aerobic granular sludge to treat paper mill effluent: selection of ideal strains that contribute to the formation of strong aggregates.

Author

Morais, Ismarley Lage Horta, Silva, Claudio Mudadu, Nascimento, Antônio Galvão do, Filho, Natalino Perovano, and Dias, João Carlos Teixeira

Subjects

PAPER mills, WATER purification, SLUDGE management

Abstract

The formation of aerobic granules after the treatment of paper mill effluents was feasible. Granular sludge presented a lower fouling potential than flocculent sludge, allowing a higher flux through the membranes in a membrane bioreactor (MBR). However, it was observed that after filtration many of the biogranules disrupted, which increased the membrane fouling. Therefore, the formation of aggregates that are physically and mechanically more resistant to decomposition would be beneficial to an MBR process. This work determines which of the microorganisms found in the aerobic granular sludge contribute to microbial aggregation, thereby increasing the mechanical resistance of aggregates. Nineteen strains were isolated from granular aerobic sludge. Tests for coaggregation showed that some isolates (E2, E7, E9, E13, and E25) were able to improve the formation of granules, while others (E10, E14, E18, and E26) inhibited the aggregation. The extracellular polymeric substances analyses indicated which substances contributed to the granule formation. The mechanical resistance of the aggregates was determined and the results showed that isolate E19 substantially improved the resistance of the aggregates to disruption. [ABSTRACT FROM AUTHOR]

Published

2016

48. Implementation of Failure Mode and Effect Analysis and Fault Tree Analysis in Paper Mill: A Case Study

Author

Nurul Retno Nurwulan and Wilcha Anatasya Veronica

Subjects

Fault tree analysis, lcsh:T55.4-60.8, Computer science, business.industry, media_common.quotation_subject, Paper mill, Reliability engineering, Quality control system, lcsh:Industrial engineering. Management engineering, Quality (business), business, Failure mode and effects analysis, Control methods, media_common

Abstract

A good quality control system is important to be implemented to increase productivity and minimize defects in products. One of the quality control methods is failure mode and effect analysis (FMEA). This study uses the FMEA to identify the causes of the defects and recommend the prevention methods to overcome the causes of the defects in an Indonesian paper mill. The risk priority number (RPN) is calculated by multiplying the severity, occurrence, and detection of the failures that have been determined. Unsymmetrical and tainted products are the most dominant defects in the paper mill. An inappropriate machine setting is the cause of unsymmetrical products with the highest RPN of 343. The second highest RPN is problems with bleaching machines that caused tainted products with an RPN value of 216. This study offers suggestions to Indonesian paper mill to prevent and minimize defective products.

Published

2020

49. Observations of volatile organic and sulfur compounds in ambient air and health risk assessment near a paper mill in rural Idaho, U. S. A

Author

Dorian L. Pittman, Brandi A Bundy, Reece P Uhlorn, Melanie Y. Manangquil, Phillip S. Scott, John P Andrew, Brian K Grimm, Antonio Rivero-Zevallos, Jiahong Li, Morganne A. Hamann, Laurel A. Nuñez, Damien T. Ketcherside, and Nancy A.C. Johnston (Mentor)

Subjects

Atmospheric Science, Sorbent, 010504 meteorology & atmospheric sciences, chemistry.chemical_element, 010501 environmental sciences, 01 natural sciences, Article, chemistry.chemical_compound, Health risk assessment, Dimethyl disulfide, Volatile organic compounds, Benzene, Waste Management and Disposal, 0105 earth and related environmental sciences, Gas chromatography, business.industry, food and beverages, Paper mill, Particulates, Pollution, Sulfur, chemistry, Environmental chemistry, Environmental science, Dimethyl sulfide, business

Abstract

The Lewis-Clark Valley is a rural area that includes the cities of Lewiston, Idaho and Clarkston, Washington and the surrounding areas. The largest industry in the Lewis-Clark Valley is a pulp paper mill located in Lewiston which emits particulate matter and odorous sulfur air pollutants. This study analyzed the Lewis-Clark Valley air composition and seasonal, temporal and spatial variations of volatile organic compounds (VOCs) from 2017 to 2018 to determine potential health risks of the paper mill emissions to the surrounding community. Both active and passive air sampling via sorbent tubes were analyzed by thermal desorption - gas chromatography-mass spectrometry (TD-GC-MS). Fifty VOCs including benzene, toluene, chloroform, dimethyl sulfide and dimethyl disulfide were measured in the ambient air of the Lewis-Clark Valley at ten different sites, totaling over 800 samples. In addition, passive sorbent tubes were deployed in 2018 to obtain monthly averages in Lewis-Clark Valley and three urban locations in Idaho and Washington for comparison. United States Environmental Protection Agency (2001) methodology was used to assess cancer risks in the community based on the upper confidence levels of five carcinogens and nine air toxics. The Lewis-Clark Valley had similar levels of benzene to urban areas but had a strong signature of chloroform and sulfides from the paper mill. The cumulative cancer risk was 2 x 10-6 - 11 × 10-6 mainly due to the compounds chloroform, benzene and carbon tetrachloride. The hazard index of other air toxics was less than one. Overall, these air pollutants were considered low risk to the local population.

Published

2020

50. 'Hello is this the writing center?' Illicit paper mill activity and the compromised recomposition of college and university websites

Author

Ridolfo, Jim, Hart-Davidson, William, and Lindgren, Christopher Aaron

Subjects

rhetops, digital rhetoric, paper mill, contract cheating, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Abstract

Published version

Published

2022