Showing total 59,852 results

1. Effects of waste paper on fuel and mechanical properties of biogas digestate-derived briquettes

Author

Lutaaya, Sebyoto Misaeri, Olupot, Peter Wilberforce, Wakatuntu, Joel, and Kasedde, Hillary

Published

2024

2. Hydrolytic and soil degradation of cellulosic material (paper): optimization of parameters using ANN and RSM

Author

Girish, Bandi, Rakshith, Golluri Ricky, Paul, Atanu Kumar, Raja, Vinoth Kumar, and Chakraborty, Gourhari

Published

2024

3. Exploring laccase: a sustainable enzymatic solution for the paper recycling domain

Author

Pandey, Sheetal and Gupta, Sarika

Published

2024

4. Green isolation of cellulosic materials from recycled pulp and paper sludge: a Box-Behnken design optimization.

Author

Suter, Evans K., Rutto, Hilary L., Seodigeng, Tumisang S., Kiambi, Sammy L., and Omwoyo, Wesley N.

Subjects

*CELLULOSE nanocrystals, *RECYCLED paper, *PAPER pulp, *CELLULOSE fibers, *RESPONSE surfaces (Statistics), *HYGIENE products, *ENVIRONMENTAL remediation, *GREEN technology

Abstract

Cellulose was isolated from recycled pulp and paper sludge and used to synthesize cellulose nanocrystals. Response surface methodology and Box-Behnken design model were used to predict, improve, and optimize the cellulose isolation process. The optimal conditions were a reaction temperature of 87.5 °C, 180 min with 4% sodium hydroxide. SEM and TEM results revealed that the isolated cellulose had long rod-like structures of different dimensions than CNCs with short rod-like structures. The crystallinity index from XRD significantly increased from 41.33%, 63.7%, and 75.6% for Kimberly mill pulp sludge (KMRPPS), chemically purified cellulose and cellulose nanocrystals, respectively. The TGA/DTG analysis showed that the isolated cellulosic materials possessed higher thermal stability. FTIR analysis suggested that the chemical structures of cellulose and CNCs were modified by chemical treatment. The cellulose surface was highly hydrophilic compared to the CNCs based on the high water holding capacity of 65.31 ± 0.98% and 83.14 ± 1.22%, respectively. The synthesized cellulosic materials portrayed excellent properties for high-end industrial applications like biomedical engineering, advanced materials, nanotechnology, sustainable packaging, personal care products, environmental remediation, additive manufacturing, etc. [ABSTRACT FROM AUTHOR]

Published

2024

5. Angle of the Perforation Line to Optimize Partitioning Efficiency on Toilet Papers

Author

Joana Costa Vieira, André Costa Vieira, Marcelo L. Ribeiro, Paulo T. Fiadeiro, and Ana Paula Costa

Subjects

FE model, optimization, perforation efficiency, perforation line angle, tissue toilet paper, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Currently, tissue product producers try to meet consumers’ requirements to retain their loyalty. In perforated products, such as toilet paper, these requirements involve the paper being portioned along the perforation line and not outside of it. Thus, it becomes necessary to enhance the behavior of the perforation line in perforated tissue papers. The current study aimed to verify if the perforation line for 0° (the solution found in commercial perforated products) is the best solution to maximize the perforation efficiency. A finite element (FE) simulation was used to validate the experimental data, where the deviations from the experiments were 5.2% for the case with a 4 mm perforation length and 8.8% for a perforation of 2 mm, and optimize the perforation efficiency using the genetic algorithm while considering two different cases. In the first case, the blank distance and the perforation line angle were varied, with the best configuration being achieved with a blank distance of 0.1 mm and an inclination angle of 0.56°. For the second case, the blank distance was fixed to 1.0 mm and the only variable to be optimized was the inclination angle of the perforation line. It was found that the best angle inclination was 0.67°. In both cases, it was verified that a slight inclination in the perforation line will favor partitioning and therefore the perforation efficiency.

Published

2023

6. Angle of the Perforation Line to Optimize Partitioning Efficiency on Toilet Papers.

Author

Vieira, Joana Costa, Vieira, André Costa, Ribeiro, Marcelo L., Fiadeiro, Paulo T., and Costa, Ana Paula

Subjects

*TOILET paper, *GENETIC algorithms, *ANGLES

Abstract

Currently, tissue product producers try to meet consumers' requirements to retain their loyalty. In perforated products, such as toilet paper, these requirements involve the paper being portioned along the perforation line and not outside of it. Thus, it becomes necessary to enhance the behavior of the perforation line in perforated tissue papers. The current study aimed to verify if the perforation line for 0° (the solution found in commercial perforated products) is the best solution to maximize the perforation efficiency. A finite element (FE) simulation was used to validate the experimental data, where the deviations from the experiments were 5.2% for the case with a 4 mm perforation length and 8.8% for a perforation of 2 mm, and optimize the perforation efficiency using the genetic algorithm while considering two different cases. In the first case, the blank distance and the perforation line angle were varied, with the best configuration being achieved with a blank distance of 0.1 mm and an inclination angle of 0.56°. For the second case, the blank distance was fixed to 1.0 mm and the only variable to be optimized was the inclination angle of the perforation line. It was found that the best angle inclination was 0.67°. In both cases, it was verified that a slight inclination in the perforation line will favor partitioning and therefore the perforation efficiency. [ABSTRACT FROM AUTHOR]

Published

2023

7. Production and Characterization of Paper from Banana Stem Fiber: Optimization Using Box-behnken Design (BBD)

Author

Vianney Andrew Yiga, Michael Lubwama, James Opio, Emmanuel Menya, Denis Nono, and Harriet Nalubega Lubwama

Subjects

banana stem, box-behnken design, density, optimization, paper, response surface methodology, Science, Textile bleaching, dyeing, printing, etc., TP890-933

Abstract

Banana stem is a known alternative to wood for the production of pulp and paper. During the production of paper, it is extremely important to save costs and time while at the same time enhancing quality of produced paper. In the present study, paper was developed from banana stem fiber by optimizing its density. Response surface methodology (RSM) using Box-Behnken design (BBD) was used to determine optimum blending parameters of the developed papers. The influence of banana stem fiber amount (250-1000 g), water amount (1-2liters) and blending time (5-10 min) on paper density was analyzed using software Stat-Ease 360, Version 13. The optimum conditions of banana stem fiber amount, water amount and blending time to achieve a density of 675.75 g/m3 were determined as 461.83 g, 1.31liters, and 8.53 min, respectively. ANOVA results revealed that the quadratic model best fits the density response, with blending time and banana stem fiber amount as the most significant model terms. Linear effects were more predominant than quadratic and interaction effects. The developed density model was in close agreement with experimental findings with an R2 value of 0.9748. Developed paper had cellulosic contents, with volatiles as high as 82.11%wb and 2.11%wb ash composition. Future works on thermal properties of paper are encouraged.

Published

2023

8. Modeling and optimization of process parametric interaction during high-rate anaerobic digestion of recycled paper mill wastewater using the response surface methodology

Author

Haider M. Zwain, Hind Barghash, Mohammadtaghi Vakili, Hasan Sh. Majdi, and Irvan Dahlan

Subjects

anaerobic digestion (ad), high-rate novel anaerobic baffled reactor (hr-nabr), modeling, optimization, recycled paper mill wastewater (rpmw), response surface methodology, Environmental technology. Sanitary engineering, TD1-1066

Abstract

This study carried out the anaerobic digestion of recycled paper mill wastewater (RPMW) in a high-rate novel anaerobic baffled reactor. The parametric interaction between influent chemical oxygen demand (CODin) and hydraulic retention time (HRT) was modeled, and process responses were optimized by the response surface methodology (RSM) using a three-level factorial design. The results showed that the optimal condition was determined at CODin of 4,000 mg/L and HRT of 2 days and predicted values for COD removal, biochemical oxygen demand (BOD) removal, lignin removal, CH4 content, and CH4 production were found to be 94%, 98%, 68%, 85%, and 20.8 L CH4/d, respectively. According to the statistical analysis of the RSM, all models were significant with very low probability values (from 0.0045 to

Published

2022

9. Chemical oxygen demand and tannin/lignin removal from paper mill wastewater by electrocoagulation combined with peroxide and hypochlorite treatments.

Author

Caglak, Abdulkadir, Sari-Erkan, Hanife, and Onkal Engin, Guleda

Subjects

TANNINS, CHEMICAL oxygen demand, PAPER mills, LIGNINS, IRON electrodes, SEWAGE

Abstract

The present investigation sought to assess the practicality of utilizing a combined pre-treatment approach comprising electrocoagulation, peroxide, and hypochlorite treatments for the removal of chemical oxygen demand (COD) and tannin/lignin from paper mill wastewater. The study aimed to optimize the operating parameters with a view to maximizing the removal efficiencies while minimizing energy consumption. A pair of iron electrodes were used as anode and cathode in the study, and the main operating parameters were determined as initial pH, applied current, treatment time and oxidant dosage/COD ratio. Response surface methodology (RSM) was used to evaluate the effect of these parameters on COD and tannin/lignin removals. The primary findings of the investigation indicated that the integration of electrocoagulation with peroxide and hypochlorite treatments exhibited efficacy in removing COD, tannin/lignin, colour, phenol, and turbidity from paper mill wastewater. The optimized conditions resulted in COD removal efficiencies of 48.13 ± 2.2% and 29.53 ± 1.4% for EC with H2O2 and Ca(OCl)2, respectively. Tannin/lignin removal efficiencies were 92.59 ± 3.6% and 94.09 ± 1.8% for EC-H2O2 and EC-Ca(OCl)2, respectively. The specific energy consumption (SEC) values showed that EC-Ca(OCl)2 required 7 times more energy than EC-H2O2 for removing 1 kg COD. The principal deduction drawn from the study was that EC-H2O2 pre-treatment demonstrated superior COD removal efficiency and lower energy consumption, while EC-Ca(OCl)2 pre-treatment exhibited greater efficiency in removing toxic and recalcitrant pollutants. In future studies, it would be useful to conduct research to increase COD removal efficiency in addition to tannin/lignin removal in EC-Ca(OCl)2 process. [ABSTRACT FROM AUTHOR]

Published

2024

10. Strategies to prevent blood loss and reduce transfusion in emergency general surgery, WSES-AAST consensus paper.

Author

Coccolini, Federico, Shander, Aryeh, Ceresoli, Marco, Moore, Ernest, Tian, Brian, Parini, Dario, Sartelli, Massimo, Sakakushev, Boris, Doklestich, Krstina, Abu-Zidan, Fikri, Horer, Tal, Shelat, Vishal, Hardcastle, Timothy, Bignami, Elena, Kirkpatrick, Andrew, Weber, Dieter, Kryvoruchko, Igor, Leppaniemi, Ari, Tan, Edward, and Kessel, Boris

Subjects

*HEMORRHAGE prevention, *CONSENSUS (Social sciences), *SURGICAL blood loss, *TRAUMA surgery, *OPERATIVE surgery, *DISEASES, *RELIGION, *BLOOD transfusion, *PATIENT refusal of treatment, *QUALITY assurance, *PERIOPERATIVE care, PREVENTION of surgical complications

Abstract

Emergency general surgeons often provide care to severely ill patients requiring surgical interventions and intensive support. One of the primary drivers of morbidity and mortality is perioperative bleeding. In general, when addressing life threatening haemorrhage, blood transfusion can become an essential part of overall resuscitation. However, under all circumstances, indications for blood transfusion must be accurately evaluated. When patients decline blood transfusions, regardless of the reason, surgeons should aim to provide optimal care and respect and accommodate each patient's values and target the best outcome possible given the patient's desires and his/her clinical condition. The aim of this position paper was to perform a review of the existing literature and to provide comprehensive recommendations on organizational, surgical, anaesthetic, and haemostatic strategies that can be used to provide optimal peri-operative blood management, reduce, or avoid blood transfusions and ultimately improve patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

11. Paper mulberry fruit juice: a novel biomass resource for bioethanol production

Author

Ajayo, Pleasure Chisom, Huang, Mei, Zhao, Li, Tian, Dong, Jiang, Qin, Deng, Shihuai, Zeng, Yongmei, and Shen, Fei

Published

2022

12. Trim Loss Optimization in Paper Production Using Reinforcement Artificial Bee Colony

Author

Suthida Fairee, Charoenchai Khompatraporn, Booncharoen Sirinaovakul, and Santitham Prom-On

Subjects

Stock cutting, optimization, swarm intelligence, artificial bee colony algorithm, pulp and paper industry, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In paper production, a jumbo reel is cut into multiple intermediate rolls, and each intermediate roll is then sheeted as finished goods. This problem is called a cutting stock problem and is proven to be NP-hard. The objective is to minimize material waste or trim loss from all the cuttings. In the case that any intermediate roll is not entirely used for its associated order, the intermediate roll itself could turn to be a dead stock. We use the concept of universal sizes of intermediate rolls to eliminate the dead stock. A pre-defined number of universal sizes of intermediate rolls is to be used to serve all the orders. The problem is solved using Reinforcement Artificial Bee Colony algorithm with Integer Linear Programming subroutine. This proposed approach is then tested with a set of 1,055 orders and 127 different sizes of sheet papers from a paper manufacturer. The results reveal that our method outperforms other algorithms. Our method offers the total trim loss of 3.51%, compared to the trim loss reported by the industry of at least 5%. This approach not only reduces the number of partially cut rolls, but also decreases the number of the jumbo reels needed to serve all the orders. Therefore, both the inventory cost and material cost can be saved.

Published

2020

13. Production and Optimization of Briquettes from Sugarcane Bagasse using Blends of Waste Paper and Clay as Binders.

Author

INUWA, F. M., MOHAMMED, J., and BAWA, M. A.

Abstract

Demand for green environments has stimulated research on the migration from conventional to renewable energy sources. In the case of combustible energy for domestic applications, briquettes produced from biomass have proven to be a good replacement for wood fuel. In this study, investigation on the performance analysis and optimization of mix ratio of briquettes produced from sugarcane bagasse using composite binders (waste paper and clay) was carried out. Box-Behnken Design feature of the Design Expert software was employed for the optimization of the briquettes mix ratio. Briquettes were produced from sugarcane bagasse based on the optimum conditions of 9.12% clay, 12.57% waste paper, 78.31% proportion of sugarcane bagasse and 5 KN compaction pressure. The produced briquette was found to have a compressive strength of 6.4715 MPa and 0.857 g/min burning rate. The results of the study shows that the experimental values were close to the predicted values with a percentage error of 3.11% for compressive strength and1.79% for burning rate which confirms the validity and adequacy of the predicted models. [ABSTRACT FROM AUTHOR]

Published

2023

14. Production and Characterization of Paper from Banana Stem Fiber: Optimization Using Box-behnken Design (BBD).

Author

Yiga, Vianney Andrew, Lubwama, Michael, Opio, James, Menya, Emmanuel, Nono, Denis, and Lubwama, Harriet Nalubega

Subjects

BANANAS, RESPONSE surfaces (Statistics), WOOD-pulp, PAPER pulp, FIBERS

Abstract

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

Published

2023

15. Optimal Volume Planning and Scheduling of Paper Production with Smooth Transitions by Product Grades.

Author

Voronov, Roman, Shabaev, Anton, and Prokhorov, Ilya

Subjects

PRODUCTION scheduling, GREEDY algorithms, PAPER mills, CUTTING stock problem, MATHEMATICAL models, SIMPLEX algorithm

Abstract

The article deals with the problem of calculating the volume calendar plan of a paper mill. The presented mathematical model and methods make it possible to schedule paper production orders between several paper machines (PM) to even their loading, devise cutting plans for each winder and arrange the order of their implementation. When forming cutting plans, orders are grouped in accordance with such parameters as grammage, roll diameter, core diameter, product type and number of layers. Deadlines and volumes in customer orders are taken into account. The cutting plans for each winder account for the allowable roll width limits and the maximum number of knives. To find the optimal schedule, a combination of the following criteria is used: minimal trim loss, minimal changes to the knives' setup and smooth transitions by product grades. Solution algorithms are presented that use a combination of the simplex method, the column generation, the branch and bound methods, the greedy algorithm and the local search procedure. We tested the solution approach on real production data from a paper mill in European Russia and obtained the production sequence that better matches deadlines in customer orders compared to the plan devised manually by production planners. [ABSTRACT FROM AUTHOR]

Published

2023

16. Production and Optimization of Briquettes from Sugarcane Bagasse using Blends of Waste Paper and Clay as Binders

Author

F. M. Inuma, J. Mohammed, and M. A. Bawa

Subjects

Briquettes, Optimization, Binders, Compressive strength, Burning Rate, Science

Abstract

Demand for green environments has stimulated research on the migration from conventional to renewable energy sources. In the case of combustible energy for domestic applications, briquettes produced from biomass have proven to be a good replacement for wood fuel. In this study, investigation on the performance analysis and optimization of mix ratio of briquettes produced from sugarcane bagasse using composite binders (waste paper and clay) was carried out. Box-Behnken Design feature of the Design Expert software was employed for the optimization of the briquettes mix ratio. Briquettes were produced from sugarcane bagasse based on the optimum conditions of 9.12% clay, 12.57% waste paper, 78.31% proportion of sugarcane bagasse and 5 KN compaction pressure. The produced briquette was found to have a compressive strength of 6.4715 MPa and 0.857 g/min burning rate. The results of the study shows that the experimental values were close to the predicted values with a percentage error of 3.11% for compressive strength and1.79% for burning rate which confirms the validity and adequacy of the predicted models.

Published

2023

17. Complex scenarios with competing factors: A conception paper applied to the COVID-19 case

Author

Brandão, Mauricio Pazini

Published

2021

18. Techno-economic comparison of two hydroxyl and sulfate radicals based advanced oxidation process for enhancing biodegradability of pulp and paper mill wastewater.

Author

Tahmasebi, Ali, Ghaffari, Seyed-Behnam, and Sarrafzadeh, Mohammad-Hossein

Subjects

*HYDROXYL group, *PAPER pulp, *PULP mills, *PAPER mills, *SEWAGE

Abstract

[Display omitted] • Optimization study of Photo-Fenton and PDS/UV processes for BOD and COD removal. • Photo-Fenton process was able to enhance biodegradability. • PDS/UV process on the best condition only could maintain the biodegradability. • The operational cost of Photo-Fenton processes is much cheaper than PDS/UV process. The aim of this study is to provide an Advanced Oxidation Process (AOP) based solution to enhance biological treatment efficiency by improving biodegradability of wastewater. Photo-Fenton and Peroxydisulfate (PDS)/UV processes were selected in this study as a representative of hydroxyl and sulfate radical based AOPs. A central composition design (CCD) employed to optimize operational cost and BOD/COD ratio to determine optimal conditions for enhancing wastewater treatment efficiency. The study achieved a maximum COD removal of 71.5 % and increased wastewater biodegradability. Optimal conditions for Photo-Fenton process were DOD (H 2 O 2) 0.28, [Fe2+] 106.26 mg/L, and pH 2.32, costing 2.27 USD per 1 kg COD removed. For PDS/UV process, 75.5 % COD removal was achieved at a cost of 10.6 USD/1 kg removed COD. The PDS/UV process had higher COD removal than Photo-Fenton but did not improve wastewater biodegradability. Optimal conditions were DOD (PDS) 0.19, pH 6.68, costing 10.6 USD/1 kg COD removed. [ABSTRACT FROM AUTHOR]

Published

2024

19. Goal programming model applied to waste paper logistics processes.

Author

Defalque, Cristiane Maria, da Silva, Aneirson Francisco, and Marins, Fernando Augusto Silva

Subjects

*WASTE paper, *PAPER recycling, *MIXED integer linear programming, *GOAL programming, *VEHICLE routing problem, *REVERSE logistics

Abstract

• A Goal Programming model to optimize a waste paper recycling network was elaborated. • The model considers objectives related to sustainability, multiple products and periods. • Vehicle routing, different-capacity vehicles and multiple trips are highlights. • The possibility of storing material at the collection points is considered. • The formulation provides relevant solutions to assist decision-makers. Organization and planning of reverse logistics networks make sustainable processes more efficient. Thus, an important sector for connecting the collection and waste paper recycling echelons is the intermediate center. In this study, a Mixed Integer Linear Programming model, which is multi-objective, multi-product, multi-level and multi-period, was developed to optimize the waste paper logistics processes of intermediate centers. The formulation includes the following echelons: collection, considering vehicle routing with different capacities; inventory of non-baling materials; baling sorted waste and inventory of bales; selling bales; disposal of non-recyclable waste. The aims of the model include: maximizing the collected waste; minimizing distances; maximizing both the production and sale of bales, and minimizing costs. According to research carried out in the literature, the developed model is a new proposal and to implement it, the Weighted Goal Programming and Revised Multi-Choice Goal Programming approaches were used to deal with multiple objectives and incorporate uncertainty into the quantity of waste available for collection. To analyze the proposed model, computational tests were executed with instances based on real data from a Brazilian company in the sector. For all performed tests, General Algebraic Modeling System 23.6.5 modeling language and CPLEX 12.2.0.2 solver were used for modeling and optimization. The results show that this study presents formulation and technological approaches that represent real situations and provide competitive solutions to the problem. [ABSTRACT FROM AUTHOR]

Published

2021

20. Paper mulberry fruit juice: a novel biomass resource for bioethanol production

Author

Pleasure Chisom Ajayo, Mei Huang, Li Zhao, Dong Tian, Qin Jiang, Shihuai Deng, Yongmei Zeng, and Fei Shen

Subjects

1G feedstock, Ethanol conversion, Response surface methodology, Optimization, Nutrient screening, Technology, Chemical technology, TP1-1185, Biotechnology, TP248.13-248.65

Abstract

Abstract By way of broadening the use of diverse sustainable bioethanol feedstocks, the potentials of Paper mulberry fruit juice (PMFJ), as a non-food, sugar-based substrate, were evaluated for fuel ethanol production. The suitability of PMFJ was proven, as maximum ethanol concentration (56.4 g/L) and yield (0.39 g/g) were achieved within half a day of the start of fermentation, corresponding to very high ethanol productivity of 4.7 g/L/hr. The established potentials were further optimally maximized through the response surface methodology (RSM). At the optimal temperature of 30 °C, yeast concentration of 0.55 g/L, and pH of 5, ethanol concentration, productivity, and yield obtained were 73.69 g/L, 4.61 g/L/hr, and 0.48 g/g, respectively. Under these ideal conditions, diverse metal salts were afterward screened for their effects on PMFJ fermentation. Based on a two-level fractional factorial design, nutrient addition had no positive impact on ethanol production. Thus, under the optimal process conditions, and without any external nutrient supplementation, bioethanol from PMFJ compared favorably with typical sugar-based energy crops, highlighting its resourcefulness as a high-value biomass resource for fuel ethanol production. Graphical Abstract

Published

2022

21. Beyond influence: Contextualization and optimization for new narrative techniques and story-formats. Perspective paper

Author

Milica Petrovic, Johan Liedgren, and Andrea Gaggioli

Subjects

storytelling, digital narratives, contextualization, optimization, ethics, Communication. Mass media, P87-96

Abstract

In a society where advances and innovations occur on a daily basis, outreach and meaningful engagement with the general public become more challenging. The amount of information produced and repackaged surpasses existing systems in place to ensure truthful and factual engagement with the public, especially with complex matters regarding health science. This perspective paper discusses the value of contextualization and optimization for creating transparent and engaging content. We reflect on the innovative Transformative Storytelling Technique as a new category creating hybrid content to guide the experience of audiences, starting with the case of informal caregivers helping individuals living with neurological conditions. Moreover, we share our perspective on the important considerations for current and future development of highly targeted content using this technique. We include reflexions around the risks and ethical principles needed in the utilization and dissemination of “guided” content for the general public.

Published

2022

22. Effects of coating weight and nanoclay content on functional and physical properties of bionanocomposite-coated paper

Author

Aloui, Hajer and Khwaldia, Khaoula

Published

2017

23. Invited paper: A Review of Thresheld Convergence

Author

Stephen Chen, James Montgomery, Antonio Bolufé-Röhler, and Yasser Gonzalez-Fernandez

Subjects

Exploration, Exploitation, Heuristic Algorithms, Optimization, Multi-modality, Management. Industrial management, HD28-70

Abstract

A multi-modal search space can be defined as having multiple attraction basins – each basin has a single local optimum which is reached from all points in that basin when greedy local search is used. Optimization in multi-modal search spaces can then be viewed as a two-phase process. The first phase is exploration in which the most promising attraction basin is identified. The second phase is exploitation in which the best solution (i.e. the local optimum) within the previously identified attraction basin is attained. The goal of thresheld convergence is to improve the performance of search techniques during the first phase of exploration. The effectiveness of thresheld convergence has been demonstrated through applications to existing metaheuristics such as particle swarm optimization and differential evolution, and through the development of novel metaheuristics such as minimum population search and leaders and followers.

Published

2022

24. EANM position paper on article 56 of the Council Directive 2013/59/Euratom (basic safety standards) for nuclear medicine therapy

Author

Konijnenberg, Mark, Herrmann, Ken, Kobe, Carsten, Verburg, Frederik, Hindorf, Cecilia, Hustinx, Roland, and Lassmann, Michael

Published

2021

25. A cleaner process of deinking waste paper pulp using Pseudomonas mendocina ED9 lipase supplemented enzyme cocktail

Author

Nathan, Vinod Kumar and Rani, Mary Esther

Published

2020

26. تصفیه فاضلاب صنایع کاغذ و مقواسازي به وسیله فرآیند انعقاد و لختهسازي و بهینهسازي با روش سطح پاسخ: یک مطالعه آزمایشگاهی

Author

Mahmoudabadi, Tahereh Zarei, Ehrampoush, Mohammad Hassan, Talebi, Parvaneh, and Eslami, Hadi

Subjects

*RESPONSE surfaces (Statistics), *WASTEWATER treatment, *FLOCCULATION, *PAPER industry

Abstract

Background and Objectives: Wastewater treatment of paper recycling and cardboard industries with the aim of water recycling and reducing environmental impact is one of the daily needs of industries. Therefore, the aim of the present study was to optimize the conditions of coagulation and flocculation process in wastewater treatment of paper recycling industries using the response surface method. Materials and Methods: In this laboratory study, response surface method and central composite design were used to design the experiments and to determine the effects of the studied variables (pH, concentrations of alum, Poly aluminum chloride (PAC), and cationic polymer) on the total suspended solid (TSS) and chemical oxygen demand (COD) removal efficiency. Data analysis was done using ANOVA statistical test with a significant level of 0.05. Results: The results showed that in the combination of PAC with cationic polymer (optimal conditions; pH=7.5, PAC concentration=450 mg/L, cationic polymer concentration=1.5 mg/L), the TSS and COD removal efficiency were 97.34% and 75.76%, respectively. In combination of alum with cationic polymer (optimal conditions; pH=8.5, alum concentration=550 mg/L, cationic polymer concentration=2 mg/L), removal efficiencies were 98.96% and 77.83%, respectively. The simultaneous effects of two independent variables, pH and concentration, had a significant effect (p<0.05) in removing TSS and COD variables. Conclusion: The results showed that the combination of PAC with cationic polymer had a better efficiency. Also, the COD and TSS in the final effluent were higher and lower than the standard values, respectively. Therefore, chemical coagulation process is proposed as pretreatment. [ABSTRACT FROM AUTHOR]

Published

2022

27. Node Insertion Algorithm and Ant Colony Optimization: Performance Review on Travelling Salesman Problem Paper for the Optimality of Network Topology.

Author

Juhana, Tutun, Lukman, Selvi, Rachmana, Nana, Husni, Faizal, Adhiluhung, Gelar Pambudi, and Harjono, Hafizh Mulya

Subjects

*ANT algorithms, *TRAVELING salesman problem, *POLYNOMIAL time algorithms, *TOPOLOGY, *APPROXIMATION algorithms, *INDUSTRIAL controls manufacturing, *DETERMINISTIC algorithms, *GRAPH theory

Abstract

The integrated industrial control systems require a reliable communication among each part of control systems. The limitation of network topology comprises the low latency of data transmission. The network algorithm topologies are sometimes failed to ensure the faulttolerant network design even if they offer it. Therefore, this works investigates a Node Insertion Algorithm (NIA) and Ant Colony Optimization (ACO) in order to solve the Travelling Salesman Problem (TSP) for network topologies in a communication network. The NP Non deterministic (polynomial time)-hardness based of TSP leads to the impossibility of polynomial time algorithm to solve an exponentially increasing amount of communication addresses. TSP itself is a well-known solution method known in the graph theory which is based on approximation algorithm. Therefore, this work also presents a comparison between the NIA and ACO for 200 nodes of network topologies. The results show that NIA is superior than ACO in terms of resulting ring's cost and computation duration. Three topologies are tested and it is observable that NIA requires only 14.88 seconds to finish the computation in which the resulting ring's length reaches 164019 units. Therefore, the achievement of the NIA can be applied for logical and physical nodes for a reliable connection in an industrial topology network. [ABSTRACT FROM AUTHOR]

Published

2023

28. Model based optimization of a resin-impregnated paper air-drying line.

Author

Martin, E., Vieitez, I., and Varas, F.

Subjects

*DIGITAL twins, *ENERGY consumption, *DRYING, *DENTAL materials, *FURNACES

Abstract

The air-drying of resin impregnated paper sheets in industrial lines, formed by a serial array of furnaces, presents a high number of different controllable operational parameters whose adjustment, usually done by the maintenance staff, leads to non-efficient configurations. A model-based numerical tool, which predicts accurately in a few seconds the evolution of the paper temperature and paper grammage along the line for a given combination of the input operational parameters (direct design), was used coupled to an optimization tool to select appropriate operational parameters (inverse design) that ensure a drying process quality (i.e., fulfills an objective grammage profile) with a minimum of energy consumption. The numerical tool was capable of selecting suitable configurations with an energy reduction of up to 50% for several tested industrial cases, making the model an essential tool in the framework of the increasingly relevant role of digital twins in industry. [ABSTRACT FROM AUTHOR]

Published

2023

29. Application of artificial intelligence to maximize methane production from waste paper.

Author

Olabi, A.G., Nassef, Ahmed M., Rodriguez, Cristina, Abdelkareem, Mohammad A., and Rezk, Hegazy

Subjects

*WASTE paper, *STANDARD deviations, *ARTIFICIAL intelligence, *METHANE, *FUZZY logic, *PARTICLE swarm optimization

Abstract

Summary: This article proposes a methodology based on artificial intelligence to enhance methane production from waste paper. The proposed methodology combines fuzzy logic‐based modelling and modern optimization. Firstly, a robust Adaptive Network‐based Fuzzy Inference System model of methane production process through fuzzy logic modelling is created using experimental datasets. Second, a particle swarm optimizer was used to obtain the optimal process conditions. During the optimization procedure, the beating time and feedstock/inoculum ratio are employed as decision variables in order to maximize methane production. The obtained resulted from the proposed methodology are compared with those obtained by response surface methodology. The results of the comparison confirmed the superiority of the proposed methodology. The fuzzy model shows a better fitting to the experimental data compared to ANOVA. The fuzzy model showed a higher coefficient of determination and a lower value of root mean squared errors compared to ANOVA. Moreover, the proposed strategy, that is, modelling and optimization, is an effective method for increasing the biomethane yield at extended range conditions. [ABSTRACT FROM AUTHOR]

Published

2020

30. Optimization of a Microbial Formulation Acclimated for Pilot-Scale Biodegradation of Paper Mill Effluent

Author

Luis Alberto Ordaz-Díaz, Sergio Valle-Cervantes, Juan Antonio Rojas-Contreras, Felipa de Jesus Rodriguez-Flores, and Ana María Bailón-Salas

Subjects

Optimization, Pilot scale, Model, Pulp and paper, Real conditions, Effluent, Lagoon, Microbial, Biotechnology, TP248.13-248.65

Abstract

A pilot-scale aerated lagoon was used for the aerobic treatment of pulp and paper mill effluent from September 1 to December 1, 2014. The aerated lagoon was installed at the chemistry laboratory in the Chemical Engineering Department at the Durango Institute of Technology and was fed with real pulp and paper mill effluent. The experimental work was run under various operating conditions. The operating parameters (total and volatile suspended solids (VSS) and dissolved oxygen concentration (DO)) and environmental variables (temperature, pH, COD, and BOD5 of influent water) were monitored daily. In all the experiments conducted, the aerated lagoon generated an effluent of optimal quality complying with the requirements of SEMARNAT (2003) and CONAGUA (2003). A model that explains the behavior of the system under realistic operating conditions was obtained. The model indicated an optimal DO of approximately 4 mg/L for concentrations up to 1000 mg/L, showing variations in concentrations above this value. This data indicate that the flexibility of the bacterial formulation and its ability to adapt to environmental changes play an important role in the stability of an aerated lagoon.

Published

2015

31. Design of the Paper Flowerpot Automatic Eyeletter Mechanism

Author

Li Ruifeng, Yao Ligang, He Jiaying, and Ji Wentao

Subjects

Paper flowerpot eyeleting, Optimization, Cam contour, Cam mechanism motion law, Mechanical engineering and machinery, TJ1-1570

Abstract

Aiming at the problem of the high labor intensity,low eyeleting precision and low work efficiency of conventional paper flowerpot eyeletter with manual operation,an automatic eyeletter is proposed. And then,through building the mathematic model,the analysis and optimization of this mechanical structure is carried out by using mathematic analytic software. At last,two cam contour curves meeting the requirement of cam mechanism motion law well is designed. As a result,a strong theoretical basis for further study and object production in the future is provided.

Published

2016

32. Dosimetric optimization of nuclear medicine therapy based on the Council Directive 2013/59/EURATOM and the Italian law N. 101/2020. Position paper and recommendations by the Italian National Associations of Medical Physics (AIFM) and Nuclear Medicine...

Author

Chiesa, Carlo, Strigari, Lidia, Pacilio, Massimiliano, Richetta, Elisa, Cannatà, Vittorio, Stasi, Michele, Marzola, Maria Cristina, Schillaci, Orazio, Bagni, Oreste, and Maccauro, Marco

Abstract

• Italian consensus about optimization in Nuclear Medicine Therapy. • Optimization must deal with feasibility, limited resources and cost/benefit. • Non-standardized therapies are defined, according to the variability of outcome. • Supremacy of the radiation therapy legislation over the pharmacological laws. • Appeal to EMA to obtain the official acknowledgment of this principle. This recommendation by the Italian Associations of Nuclear Medicine (AIMN) and Medical Physics (AIFM) focuses on the dosimetric optimization of Nuclear Medicine Therapy (NMT) as clearly requested by the article 56 of the EURATOM Directive 2013/59 and its consequent implementation in article 158 in the Italian Law n. 101/2020. However, this statement must deal with scientific and methodological limits that still exist and, above all, with the currently available limited resources. This paper addresses these specific issues. It distinguishes among many possible kinds of NMT. For each type, dosimetric optimization is recommended or considered optional, according to the general criteria adopted in any human choice, i.e. a check of technical feasibility first, followed by a cost/benefit argument. The classification of therapies as standardized or non-standardized is presented. This is based on the complexity of the type of pathology, on the variability of the treatment outcome, and on the risks involved. According to the present document, which was officially delivered to Italian Health Ministry as necessary interpretation of the law, a therapeutic team can, in science and consciousness, overcome the indications of posology, to optimize and tailoring a treatment with dosimetry, on the basis of published national or international data or guidelines, without need of an Ethics Committee approval. Data collected in this way will provide additional evidence about optimal dosimetric reference values. As conclusion, a formal appeal is made to the European and National regulatory agencies for pharmaceuticals to obtain the official acknowledgment of this principle. [ABSTRACT FROM AUTHOR]

Published

2021

33. Operating Conditions Optimization via the Taguchi Method to Remove Colloidal Substances from Recycled Paper and Cardboard Production Wastewater

Author

Mayko Rannany S. Sousa, Jaime Lora-García, María-Fernanda López-Pérez, Asunción Santafé-Moros, and José M. Gozálvez-Zafrilla

Subjects

paper mill treated effluent, ultrafiltration, optimization, fouling, DoE, Taguchi method, Chemical technology, TP1-1185, Chemical engineering, TP155-156

Abstract

Optimization of the ultrafiltration (UF) process to remove colloidal substances from a paper mill’s treated effluent was investigated in this study. The effects of four operating parameters in a UF system (transmembrane pressure (TMP), cross-flow velocity (CFV), temperature and molecular weight cut-off (MWCO)) on the average permeate flux (Jv), organic matter chemical oxygen demand (COD) rejection rate and the cumulative flux decline (SFD), was investigated by robust experimental design using the Taguchi method. Analysis of variance (ANOVA) for an L9 orthogonal array were used to determine the significance of the individual factors, that is to say, to determine which factor has more and which less influence over the UF response variables. Analysis of the percentage contribution (P%) indicated that the TMP and MWCO have the greatest contribution to the average permeate flux and SFD. In the case of the COD rejection rate, the results showed that MWCO has the highest contribution followed by CFV. The Taguchi method and the utility concept were employed to optimize the multiple response variables. The optimal conditions were found to be 2.0 bar of transmembrane pressure, 1.041 m/s of the cross-flow velocity, 15 °C of the temperature, and 100 kDa MWCO. The validation experiments under the optimal conditions achieved Jv, COD rejection rate and SFD results of 81.15 L·m−2·h−1, 43.90% and 6.01, respectively. Additionally, SST and turbidity decreased by about 99% and 99.5%, respectively, and reduction in particle size from around 458–1281 nm to 12.71–24.36 nm was achieved. The field-emission scanning electron microscopy images under optimal conditions showed that membrane fouling takes place at the highest rate in the first 30 min of UF. The results demonstrate the validity of the approach of using the Taguchi method and utility concept to obtain the optimal membrane conditions for the wastewater treatment using a reduced number of experiments.

Published

2020

34. Photodegradation of lignin from pulp and paper mill effluent using TiO2/PS composite under UV-LED radiation: Optimization, toxicity assessment and reusability study.

Author

Haghighi, Mohsen, Rahmani, Farhad, Kariminejad, Fatemeh, and Akbari Sene, Rojiar

Subjects

*LIGNINS, *PAPER pulp, *PULP mills, *PAPER mills, *PHOTODEGRADATION, *PAPER industry

Abstract

TiO 2 /PS composite is evaluated in photodegradation of lignin under UVA-LED irradiation. • TiO 2 /PS composite was synthesized by solvent-casting method. • The effects of operational parameters were evaluated and optimized by Box-Behnken design. • The toxicity effects after photodegradation process were not observed. • The reusability study confirmed the stability of TiO 2 /PS composite. In the present study, the photodegradation of lignin was studied using TiO 2 /Polystyrene composite under UV-LED irradiation in a batch-recirculated photoreactor as a supplementary treatment for pulp and paper industries. TiO 2 /PS composite was synthesized by the solvent-casting method and was characterized by scanning electron microscopy (SEM) and EDX analysis. The 3-level, 3-factor Box-Behnken design was applied to study the effects of main operating parameters and optimization of process circumstances. Besides, COD reduction efficiency, toxicity assays, and reusability were also investigated. The predicted model had R2 and R2 adj correlation coefficients of 0.97 and 0.99 respectively, which showed experimental results were very close to the predicted values. Furthermore, under the optimal conditions (reaction time = 72.5, volumetric flow rate = 230 mL/min and lignin = 51.8 mg/L) the lignin degradation efficiency was 93.98%. The maximum COD removal (89%) obtained by 250 mL/min volumetric flow rate and lignin concentration of 50 mg/L after 120 min reaction time. Bioassay using D. Magna exhibited that at the beginning of the process, the toxicity of solution increased but continuously decreasing after then to very low values achieved within 120 min of photodegradation. In addition, the reusability tests demonstrated that the TiO 2 /PS composite after 5 cycles has a good stability and photocatalytic activity. [ABSTRACT FROM AUTHOR]

Published

2019

35. Production of bioplastic (poly-3-hydroxybutyrate) using waste paper as a feedstock: Optimization of enzymatic hydrolysis and fermentation employing Burkholderia sacchari.

Author

Al-Battashi, Huda, Annamalai, Neelamegam, Al-Kindi, Shatha, Nair, Anu Sadasivan, Al-Bahry, Saif, Verma, Jay Prakash, and Sivakumar, Nallusamy

Subjects

*BIODEGRADABLE plastics, *WASTE paper, *BIOMASS, *CELLULASE, *HYDROGEN peroxide

Abstract

Abstract The global demand for bio-plastic particularly polyhydroxyalkanoate (PHA) have been increased in the last few decades as a substitute of petrochemical-based plastic. Utilization of waste paper, the primary constituent of municipal solid waste (MSW), as a carbon source for polyhydroxybutyrate (PHB) production is not only an alternative, environmental friendly route of waste management but also helps to valorize the waste. In this study, hydrogen peroxide pretreated waste paper saccharification has been optimized using central composite design (CCD). The maximum hydrolysis (88.18%) occurred at paper loading 5.0 g/L, agitation 242 rpm, working volume 20%, cellulase 49.82 U/g, β-glucosidase 20.9 U/g and hemicellulase 29.5 U/g. PHB synthesis and biomass accumulation by xylose-utilizing Burkholderia sacchari using waste paper hydrolysate were studied using different nitrogen sources and carbon to nitrogen (C/N) ratios. Maximum PHB and dry cell weight (DCW) occurred with ammonium sulfate and a C/N ratio of 20. The highest biomass (3.63 g/L), the maximum PHB accumulation (44.2%) and the maximum reducing sugar utilization (92.1%) were observed after 48 h of cultivation using diluted hydrolysate. The physicochemical properties of the extracted PHB were compatible with the standard PHB. Hence, the waste paper could be exploited as a renewable feedstock for the sustainable production of PHB. Graphical abstract Image 1 Highlights • The maximum enzymatic hydrolysis 88.18% was achieved by response surface method. • PHB produced from waste paper hydrolysate using xylose utilizing B. sacchari. • Maximum PHB and dry cell weight occurred with (NH 4) 2 SO 4 and C/N ratio of 20. • High thermostability of PHB with a maximum degradation rate around ∼ 300 °C. • PHB production using waste paper is cost effective and ecofriendy approach. [ABSTRACT FROM AUTHOR]

Published

2019

36. A conceptual paper on the optimization of waste management system using a multi-objective goal programming approach

Author

Hassan, Sharifah Abdulazeez, Maijamaa, Bilkisu, and Chaku, Shammah Emmanuel

Published

2023

37. Aeroballistic optimization of long-range guided ammunition

Author

Bagy, Simon, Libsig, Michel, Martinez, Bastien, and Masse, Baptiste

Published

2024

38. On the comparison of inventory replenishment policies with time-varying stochastic demand for the paper industry.

Author

Escuín, David, Polo, Lorena, and Ciprés, David

Subjects

*TIME-varying systems, *PAPER industry, *MATHEMATICAL models, *MAKE-to-order (Manufacturing), *VENDOR-managed inventory, *PRODUCTION planning

Abstract

The aim of this paper is the development of a mathematical model to compute the optimal inventory mix to face stochastic demand at minimum cost in a two-level supply chain. The paper addresses a multi-product dynamic lot-sizing problem under stochastic demand subject to capacity and service level constraints. This model is executed to compare a Make To Order (MTO) strategy to a Vendor Managed Inventory (VMI) partnership between the supplier and their customers. Both strategies provide the demand order to be produced. A schedule of production orders is determined over the planning horizon in order to minimize the inventory holding costs of the supply chain, taking into consideration that the supplier is also responsible of initiating the replenishment orders and deliveries of their customers according to the VMI partnership. The simulation model is illustrated empirically using a real case study: a paper manufacturing company that pursues to improve customer service level and supply chain inventory costs through a proper production planning of their paper machines and a suitable VMI order replenishment schedule. [ABSTRACT FROM AUTHOR]

Published

2017

39. Topological optimization in 3D-magnetostatics: development of adjoint methods using the equations of magnetic moments

Author

Michel, Sophie, Messine, Frederic, and Poirier, Jean-René

Published

2024

40. Decision support system (DSS) for facilities rehabilitation and management (part 2): development of optimized intervention strategy

Author

Aldeeb, Owais and Qasem, Altayeb

Published

2024

41. Optimization of a damper system for noise and vibration reduction in a PMSM

Author

Ni, Sijie, Bauw, Grégory, Romary, Raphaël, Cassoret, Bertrand, and Le Besnerais, Jean

Published

2024

42. Optimization study of station track utilization in high-speed railroad based on constraints of control in random origin and process

Author

Zheng, Yajing and Zhang, Dekun

Published

2024

43. Pulp and paper characterization by means of artificial neural networks for effluent solid waste minimization—A case study.

Author

Almonti, Daniele, Baiocco, Gabriele, and Ucciardello, Nadia

Subjects

*ARTIFICIAL neural networks, *WASTE minimization, *SOLID waste, *PAPER pulp, *MANUFACTURING processes

Abstract

Paper mills are among the most polluting industries, responsible for many organic and inorganic compounds emissions. The fibres electro-kinetic features strongly affect the ability to retain fillers since the fillers–fibres interactions are charge induced. The control and the prediction of these parameters would represent a precious aid for process management, allowing the fillers retention enhancement, a lower environmental impact and the paper sheet properties streamlining. The work presented deals with the implementation and training of four artificial neural networks (ANNs) for the prediction of the main electrochemical and physical features of cellulose pulp and paper. First, two ANNs predict the electrochemical parameters. Following, they were applied to predict the paper sheet properties and fillers retention. The neural models implemented showed outstanding prediction performance, with R2 in the order of 0.999 and a low mean error. The results demonstrate how Artificial Neural Networks may be a valuable instrument for paper mill pollutant reduction. However, they suggest a more inclusive investigation for a better fibres behaviour representation. • Main process parameters of an industrial papermaking process were identified. • Experimental datasets were achieved during industrial production. • Artificial Neural Networks were trained for process parameters prediction. • Accurate predictions of papermaking process were obtained. [ABSTRACT FROM AUTHOR]

Published

2021

44. Optimizing laccase selection for enhanced outcomes: a comprehensive review.

Author

Abdi Dezfouli, Ramin and Esmaeilidezfouli, Ensieh

Subjects

LACCASE, BACILLUS pumilus, BACILLUS licheniformis, ORGANIC solvents, BACILLUS (Bacteria), PAPER pulp, ENZYME kinetics

Abstract

Despite their widespread applications in sectors such as pulp and paper, textile, food and beverage, pharmaceuticals, and biofuel production, laccases encounter challenges related to their activity and stability under varying reaction conditions. This review accumulates data on the complex interplay between laccase characteristics and reaction conditions for maximizing their efficacy in diverse biotechnological processes. Benefits of organic media such as improved substrate selectivity and reaction control, and their risks such as enzyme denaturation and reduced activity are reported. Additionally, the effect of reaction conditions such as pH and temperature on laccase activity and stability are gathered and reported. Sources like Bacillus pumilus, Alcaligenes faecalis, Bacillus clausii, and Bacillus tequilensis SN4 are producing laccases that are both thermo-active and alkali-active. Additionally, changes induced by the presence of various substances within reaction media such as metals, inhibitors, and organic solvents are also reported. Bacillus pumilus and Bacillus licheniformis LS04 produce the most resistant laccases in this case. Finally, the remarkable laccases have been highlighted and the proper laccase source for each industrial application is suggested. [ABSTRACT FROM AUTHOR]

Published

2024

45. 纸基微流控芯片刻蚀法条件优化及其 在沙门氏菌检测中的应用.

Author

张凤娟, 侯繁云, 伊芳萱, 孙 霞, and 刘战丽

Abstract

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

Published

2022

46. Optimization of a Microbial Formulation Acclimated for Pilot-Scale Biodegradation of Paper Mill Effluent.

Author

Ordaz-Díaz, Luis A., Valle-Cervantes, Sergio, Rojas-Contreras, Juan A., Rodríguez-Flores, Felipa de J., and Bailón-Salas, Ana María

Subjects

*PAPER mills, *LAGOONS, *WOOD-pulp, *AERATED water flow, *AERATED package treatment systems, *BIODEGRADATION of sewage sludge, *MICROBIOLOGY

Abstract

A pilot-scale aerated lagoon was used for the aerobic treatment of pulp and paper mill effluent from September 1 to December 1, 2014. The aerated lagoon was installed at the chemistry laboratory in the Chemical Engineering Department at the Durango Institute of Technology and was fed with real pulp and paper mill effluent. The experimental work was run under various operating conditions. The operating parameters (total and volatile suspended solids (VSS) and dissolved oxygen concentration (DO)) and environmental variables (temperature, pH, COD, and BOD5 of influent water) were monitored daily. In all the experiments conducted, the aerated lagoon generated an effluent of optimal quality complying with the requirements of SEMARNAT (2003) and CONAGUA (2003). A model that explains the behavior of the system under realistic operating conditions was obtained. The model indicated an optimal DO of approximately 4 mg/L for concentrations up to 1000 mg/L, showing variations in concentrations above this value. This data indicate that the flexibility of the bacterial formulation and its ability to adapt to environmental changes play an important role in the stability of an aerated lagoon. [ABSTRACT FROM AUTHOR]

Published

2016

47. A novel ensemble artificial intelligence approach for coronary artery disease prediction

Author

Namlı, Özge H., Yanık, Seda, Erdoğan, Aslan, and Schmeink, Anke

Published

2024

48. A simulation-based performance evaluation model for decision support on drone location and delivery scheduling

Author

Ghelichi, Zabih, Gentili, Monica, and Mirchandani, Pitu

Published

2024

49. The challenges in adoption of circular economy in SMEs – a research agenda and way forward

Author

Kondala, Mukesh, Nudurupati, Sai Sudhakar, and Pappu, Raja Phani

Published

2024

50. Enhanced production of biodiesel by Rhodosporidium toruloides using waste office paper hydrolysate as feedstock: Optimization and characterization.

Author

Nair, Anu Sadasivan and Sivakumar, Nallusamy

Subjects

*WASTE paper, *MICROBIAL lipids, *RENEWABLE energy sources, *WASTE products as fuel, *WASTE management, *BIODIESEL fuels, *BIOMASS production

Abstract

[Display omitted] • Waste office paper was utilized as a substrate for microbial lipid production. • A detailed optimization study has been conducted for biomass and lipid yield. • Optimization results in10.55 g/L biomass, 6.13 g/L lipid with 58% lipid content. • Biodiesel properties of the produced lipids met with the international standards. • A solution to mitigate the hazardous effects caused by waste and fossil fuel. Environmental issues caused by fossil fuel and its rapid depletion demand the need to produce biofuel from renewable energy resources. The disposal of waste paper in landfills causes air pollution and contaminates groundwater. Hence, exploiting paper waste as a renewable resource for microbial lipid production can solve these environmental issues in a greener way. Further, these microbial lipids are a reliable source for biodiesel production. In this study, waste office paper was utilized as a substrate to produce microbial lipids through fermentation by the oleaginous yeast, Rhodosporidium toruloides, using a biorefinery approach. The production conditions were optimized using the Box-Behnken design; a fermentation time of 116.16 h, a C/N ratio of 60, and an inoculum concentration of 9.67% yielded a biomass of 10.55 g/L and a lipid yield of 6.13 g/L with a total lipid content of 58%. The major lipids produced were oleic acid (42%), palmitic acid (36%), stearic acid (9.8%), and myristic acid (8%), which clearly indicates the suitability of the lipids produced by R. toruloides for biodiesel production. The predicted biodiesel properties of the transesterified product met the international standard specifications. Hence, utilizing waste office paper for biodiesel production will be an effective way of mitigating the environmental pollution caused by waste paper and the harvesting of fossil fuels. [ABSTRACT FROM AUTHOR]

Published

2022