Your search keyword '"PRODUCTION methods"' showing total 5,589 results

1. The optimization of evaporation rate in graphene-water system by machine learning algorithm.

Author

Qiao, Degao, Yang, Ming, Gao, Yin, Hou, Jue, Zhang, Xingli, and Zhang, Hang

Subjects

*RANDOM forest algorithms, *INTERFACIAL bonding, *PRODUCTION methods, *INSTRUCTIONAL systems, *PREDICTION models, *ERROR rates, *MACHINE learning, *PEARSON correlation (Statistics), *DATA extraction

Abstract

Solar interfacial evaporation, as a novel practical freshwater production method, requires continuous research on how to improve the evaporation rates to increase water production. In this study, sets of data were obtained from molecule dynamics simulation and literature, in which the parameters included height, diameter, height–radius ratio, evaporation efficiency, and evaporation rate. Initially, the correlation between the four input parameters and the output of the evaporation rate was examined through traditional pairwise plots and Pearson correlation analysis, revealing weak correlations. Subsequently, the accuracy and generalization performance of the evaporation rate prediction models established by neural network and random forest were compared, with the latter demonstrating superior performance and reliability confirmed via random data extraction. Furthermore, the impact of different percentages (10%, 20%, and 30%) of the data on the model performance was explored, and the result indicated that the model performance is better when the test set is 20% and all the constructed model converge. Moreover, the mean absolute error and mean squared error of the evaporation rate prediction model for the three ratios were calculated to evaluate their performance. However, the relationship between the height- radius ratio and optimal evaporation rate was investigated using the enumeration method, and it was determined that the evaporation efficiency was optimal when the height–radius ratio was 6. Finally, the importance of height, diameter, height– radius ratio, and evaporation efficiency were calculated to optimize evaporator structure, increase evaporation rate, and facilitate the application of interfacial evaporation in solar desalination. [ABSTRACT FROM AUTHOR]

Published

2024

2. Spheroidization of Nd–Fe–B particles.

Author

Kim, Eunjeong, Baker, Alexander A., Han, Jinkyu, and McCall, Scott K.

Subjects

*IRON powder, *HEAT treatment, *MAGNETIC properties, *THERMAL plasmas, *PLASMA temperature, *PRODUCTION methods, *FEEDING tubes

Abstract

Spherical powders are required for many advanced manufacturing techniques due to their inherent requirement of flowability, either within feed tubes or during powder spreading. As advanced manufacturing of magnets continues to develop, new production methods for feedstocks are also sought. Plasma spheroidization is a high-yield method to produce spherical Nd–Fe–B powders from irregularly shaped particles, with advantages including high throughput and a well-controlled size distribution. Highly spherical Nd–Fe–B powders with large scale production (i.e., kg) have been demonstrated using an inductively coupled thermal plasma system; however, the magnetic properties of the output powder display significant degradation. The coercivity was decreased from the initial 8 kOe (636 kA/m) of the as-received to 0.7 kOe (55 kA/m) for spheroidized powders. Microstructural investigation reveals 6% Nd depletion caused by the extreme temperatures of the plasma, leading to the formation of low-coercivity α-Fe and a subsequent decrease in energy product. Post-spheroidization heat treatments with Nd can partially mitigate the coercivity degradation, increasing to 1.7 kOe (135 kA/m), potentially offering a pathway toward spherical powders for a range of applications. [ABSTRACT FROM AUTHOR]

Published

2023

3. 智能制造数字化改造攻关.

Author

方振国, 邓新华, 顾笑笑, 周宇川, 丁 利, and 沈 坚

Subjects

DIGITAL transformation, OPERATIONS management, SERVICE industries, PRODUCTION methods, PRODUCTION management (Manufacturing)

Abstract

Copyright of Construction Machinery & Equipment is the property of Construction Machinery & Equipment Editorial Office 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

2024

4. Development of a new extraction method and functional analysis of phycocyanobilin from unique filamentous cyanobacteria.

Author

Aoki, Jinichi, Yarita, Takashi, Hasegawa, Morifumi, and Asayama, Munehiko

Subjects

*HIGH performance liquid chromatography, *PHOTOSYNTHETIC pigments, *PRODUCTION methods, *SPIRULINA, *PHYCOCYANIN

Abstract

As current methods of production of phycocyanobilin, a photosynthetic blue pigment derived from phycocyanin of filamentous cyanobacteria, Pseudanabaena sp. ABRG5–3, Limnothrix sp. SK1–2–1, and Spirulina sp., exhibit a low extraction efficiency, a new extraction method using ethanol extraction as a type of solvolysis with an autoclave (130 ℃, 5.7 bar, 10 min) was developed in this study. This method exhibited high efficiency and enabled easy recovery of the three types of phycocyanobilins. The identity of the three types of phycocyanobilins was confirmed by high-performance liquid chromatography and electrospray ionization-tandem mass spectrometry. Phycocyanobilins were stable at high temperatures (80 ℃) and acidic (pH 3) conditions. Phycocyanobilins also possessed a remarkable antioxidant property. This is the first time that a simple phycocyanobilin extraction method with a recovery rate of more than 60 % and approximately 1 % per dry cell weight of filamentous cyanobacteria has been demonstrated. This novel production method is thus convenient and effective for obtaining high-purity phycocyanobilins. • A new efficient method of phycocyanobilin (PCB) extraction was developed. • Structure and MW of three PCBs were confirmed by HPLC and ESI-CID-MS. • PCBs were stable under high temperatures (80 ℃) and acidic (pH 3) conditions. • PCBs show significant antioxidant abilities. [ABSTRACT FROM AUTHOR]

Published

2024

5. Encapsulation of alkenyl succinic anhydride oil droplets in emulsions: Preparation, characterization, stability properties and application in papermaking.

Author

Zhou, Tongxin, Han, Qian, Yu, Dehai, Liu, Wenxia, and Wang, Huili

Subjects

*SUCCINIC anhydride, *OIL-water interfaces, *PRODUCTION methods, *MICROSCOPY, *EMULSIONS, *XANTHAN gum, *GUAR gum

Abstract

This paper aimed to explore the influence of the guar and xanthan gum complex (GG/XG) on the physicochemical properties, microstructure, and sizing efficiency of alkenyl succinic anhydride (ASA) loaded emulsions. The centrifugal stability of the emulsions was measured using a Turbiscan equipment, the droplets morphology through an optical microscopy, the size of droplets and its distribution through a Mastersizer, and the sizing efficiency through the penetration method. Furthermore, Cryo-SEM and CLSM were used to elucidate the adsorption mechanism of polysaccharides at the ASA-water interface. When the concentration of GG/XG exceeded 0.35%, the ASA emulsions displayed excellent stability and low viscosity, and no water separation was observed even after high-speed centrifugation. By absorbing GG/XG at the oil-water interface, a dense interfacial film was formed, which blocked any interaction between the oil and water, thus hindering the hydrolysis of ASA. The sizing degree of the paper sized by ASA emulsion stored for 2 h was still higher than 88 s. By encapsulating ASA in emulsions that are stabilized exclusively by natural polysaccharides, the need for surfactants is eliminated, which in turn decreases the amount of foam present in the papermaking process, thus making it a more environmentally friendly production method. [ABSTRACT FROM AUTHOR]

Published

2024

6. Characteristics of foundries and alloy composition of modern and contemporary Korean artistic bronze.

Author

Kwon, Heehong

Subjects

*X-ray spectroscopy, *ORGANIZATIONAL change, *PRODUCTION methods, *ARCHIVAL materials, *MATERIALS analysis

Abstract

This study investigated the changes in foundries and production techniques of modern and contemporary Korean artistic bronze constructions from the 1910s to the 2000s. To determine the characteristics of foundries and changes in alloy composition based on era, interviews with key sculptors and foundry technicians, analysis of archival materials related to casting, and nondestructive X-ray fluorescence analysis of 92 bronze sculptures by Manlin Choi, were conducted. This study found that foundries for artistic bronze underwent technical and organizational changes from the 1910s to the 2000s. Modern casting techniques and foreign technologies have been introduced since the late 1960s that have resulted in various production methods. The portable X-ray fluorescence analysis of Manlin Choi's 92 bronze sculptures revealed distinct differences in alloy composition depending on the foundry, findings that have also been supported by records (contracts, receipts, payment confirmations). This study systematically organizes the changes in foundries and production techniques of modern and contemporary Korean artistic bronze, identifying correlations between alloy composition and foundries, and is expected to provide important data for the future conservation and scientific authentication of artistic bronze. [ABSTRACT FROM AUTHOR]

Published

2024

7. Exploring a tristhione scorpionate ligand as a suitable chelator for the theranostic pair antimony-119 and antimony-117.

Author

Gé, Lorraine Gaenaelle, Møller, Mads Sondrup, Chen, Catherine, Castillo, Virginia Cendán, Langkjaer, Niels, McKee, Vickie, Dam, Johan Hygum, McKenzie, Christine J., and Thisgaard, Helge

Subjects

*RADIOCHEMICAL purification, *COMPUTED tomography, *SINGLE-photon emission computed tomography, *ANTIMONY, *PRODUCTION methods

Abstract

Background: The highly potent Auger electron emitter antimony-119 (119Sb) and the SPECT-isotope antimony-117 (117Sb) comprise a true theranostic pair particularly suitable for cancer theranostics. Harnessing this potential requires development of a chelator that can rapidly form a stable complex with radioactive antimony ions at the low concentrations typical of radiopharmaceutical preparations. Stable Sb(III) complexes of hydrotris(methimazolyl)borate (TMe) are known, prompting our investigation of this chelator. Additionally, the production of radioantimony was optimized and the SPECT imaging properties of 117Sb was investigated, in an attempt to move towards biomedical implementation of the theranostic isotope pair of antimony. Results: A method for rapid and effective labelling of TMe using 117Sb was developed, yielding high radiochemical purities of 98.5 ± 2.7% and high radionuclidic purities exceeding 99%. Radiolabelling yielded an Sb(III) complex directly from the acidic Sb(V) solution. [1XXSb]Sb-TMe in aqueous acidic solution showed high stability in the presence of cysteine, however, the stability of the radiocomplex at increased pH was significantly decreased. The production method of 117Sb was optimized, enabling a production yield of up to 19.6 MBq/µAh and the production of up to 564 MBq at end of bombardment, following irradiation of a thin 117Sn-enriched solid target. Preclinical SPECT/CT scanning of a mouse phantom containing purified 117Sb demonstrated excellent SPECT imaging properties of 117Sb with high spatial resolution comparable to that of technetium-99m. Conclusion: We have explored the TMe chelator for complexation of radioantimony and devised a rapid chelation protocol suitable for the short half-life of 117Sb (T1/2 = 2.8 h). [1XXSb]Sb-TMe (1XXSb = 117Sb, 118mSb, 120mSb and 122Sb) demonstrated a high stability in presence of cysteine, although low stability was observed at pH > 4. We have achieved a production yield of 117Sb high enough for clinical applications and demonstrated the excellent SPECT-imaging properties of 117Sb. The results contribute valuable information for the development of suitable chelators for radioantimony and is a step further towards implementation of the antimony theranostic pair in biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2024

8. Engineering microbes for 1,3‐propanediol production.

Author

Du, Ruotong, Ling, Hongzhi, and Cheng, Keke

Subjects

*GENETIC engineering, *INDUSTRIAL costs, *PRODUCTION methods, *ANTIFREEZE solutions, *FERMENTATION

Abstract

1,3‐Propanediol (1,3‐PDO) has multiple practical applications, for example as an antifreeze and protective agent and as a monomer of partially renewable polyester and polyurethane. The main method for 1,3‐PDO production is currently microbial fermentation. Bio‐based 1,3‐PDO can use renewable materials as substrates, and the process is mild and environmentally friendly. Genetic engineering of microorganisms is crucial to achieve substrate diversity, reduce byproducts to decrease production costs, and facilitate the downstream processing of 1,3‐PDO. This paper reviews the metabolic engineering of 1,3‐PDO in natural and non‐natural producers. In particular, it discusses current progress using non‐natural synthetic pathways to obtain 1,3‐propanediol. Finally, strategies such as integrated production with other high‐value‐added products are proposed for successful commercialization. [ABSTRACT FROM AUTHOR]

Published

2024

9. 'Does this fecal microbiota transplant work?' Quality assurance of capsule based fecal microbiota transplant production.

Author

Jochumsen, Emil Ainsworth, Kragsnaes, Maja Skov, Nilsson, Anna Christine, Rasmussen, Kristina Fruerlund, Ellingsen, Torkell, Juul, Mie Agerbaek, Kjeldsen, Jens, and Holm, Dorte Kinggaard

Subjects

*CLOSTRIDIOIDES difficile, *PRODUCTION methods, *QUALITY assurance, *DATABASES, *EXPERIMENTAL design

Abstract

Background: Fecal Microbiota Transplant (FMT) is an effective treatment for recurring Clostridioides Difficile Infections (rCDI). FMT administered via oral capsules (caFMT) offers several practical advantages to conventional liquid FMT. We began using caFMT in 2021 imported from an external institution. Based on similar production methods, we began our own caFMT production in 2022. We aimed to evaluate the quality of our caFMT. Study Design and Methods: We created a database of all FMT treatments (n = 180) provided by our institution. Quality of all FMT was evaluated by treatment success rates. We compared our caFMT to the imported caFMT. Results: Our caFMT yielded similar success rates compared to that of the imported caFMT, 65% (CI 95% 58–72%) and 72% (CI 95% 66–79%) respectively. FMT administered via colonoscopy had a significantly higher success rate, 79% (CI 95% 73–85%) than own our caFMT and other routes of administration. The combined success rate of treatments increased notably for all routes of administration when repeating FMT after prior failure. Discussion: The fact that our caFMT compared similarly to the imported caFMT was viewed as a success in terms of quality assurance. Our caFMT had a slightly lower success rates compared to data from other studies, but could be affected by several other factors than our FMT-production methods. A lower success rate of caFMT compared to FMT via colonoscopy is acceptable due to the practical advantages offed by caFMT. Our study serves as a practical example, proving that of the standardization of caFMT production is indeed viable. [ABSTRACT FROM AUTHOR]

Published

2024

10. Water extraction of technetium-99m from neutron irradiated porous molybdenum dioxide pellet.

Author

Hu, Xiangrong, Fujita, Yoshitaka, Tsuchiya, Kunihiko, Fukutani, Satoshi, Hori, Jun-ichi, and Suzuki, Tatsuya

Subjects

*MOLYBDENUM isotopes, *STABLE isotopes, *NEUTRONS, *PRODUCTION methods, *SOLUBILITY, *MOLYBDENUM

Abstract

We have been developing a novel 99Mo/99mTc generator production method using a water-insoluble porous MoO2 target. In this method, the extraction of 99mTc from MoO2 is achieved by leveraging the difference in their water solubilities. The fabrication of a porous MoO2 pellet, and the water extraction of 99mTc from neutron irradiated porous MoO2 were conducted. The results confirmed 99mTc extraction with a low Mo/Tc ratio. Additionally, the dissolution rate of radioactive 99Mo was found to be higher than stable isotopes of molybdenum, i.e., confirming the hot atom effect on the dissolution of molybdenum in (n, γ ) reaction. [ABSTRACT FROM AUTHOR]

Published

2024

11. 225Ac production via 226Ra (μ−, nν) 225Fr reaction with 226Ra target.

Author

Matsuzaki, Teiichiro and Sakurai, Hiroyoshi

Subjects

*MUONS, *BRANCHING ratios, *PRODUCTION methods, *CANCER treatment

Abstract

Actinium-225 (225Ac) has attracted global attention due to its applications in cancer therapy. A new 225Ac production method is proposed by muon nuclear-capture reactions with negative muons (μ−) irradiating on a 226Ra target. The 225Fr is produced by 226Ra (μ−, nν) 225Fr reaction and decays to 225Ra. The 225Ra subsequently decays to 225Ac. The method produces no carrier-added 225Ac, and 213Bi from a 225Ac-213Bi generator. The production method by muon nuclear-capture reactions with the 226Ra target is described. The radioactivity of 225Ac and 213Bi are calculated assuming the reaction branching ratio of 226Ra (μ−, nν) 225Fr. [ABSTRACT FROM AUTHOR]

Published

2024

12. 99Mo production via 99Tc (μ−, ν) 99Mo reaction with recycled 99Tc.

Author

Matsuzaki, Teiichiro and Sakurai, Hiroyoshi

Subjects

*BRANCHING ratios, *MUONS, *NUCLEAR fuels, *SPENT reactor fuels, *PRODUCTION methods

Abstract

A new 99Mo production method is proposed through 99Tc (μ−, v) 99Mo muon nuclear-capture reaction with recycled 99Tc material. The 99Mo is a parent nucleus of 99mTc for imaging diagnostics. The 99Mo is produced in the 99Tc target, and the molybdate ion (MoO42−) is separated from the pertechnetate ion (99TcO4−). High 99Mo-specific activity is obtained, and no radioactive by-product is generated. The 99Tc material has an unlimited resource: it is a decay product of 99Mo and is contained in spent nuclear fuel. The 99Mo-specific activity and production activities of 99Mo and 99mTc are calculated assuming the reaction branching ratios. [ABSTRACT FROM AUTHOR]

Published

2024

13. Effect of 226Ra purity as a target for 225Ac production using a fast reactor.

Author

Sasaki, Yuto and Maeda, Shigetaka

Subjects

*FAST neutrons, *URANIUM ores, *PRODUCTION methods, *RESEARCH personnel, *RADIOISOTOPES

Abstract

Researchers are seeking alternative 225Ac production methods because of the scarcity of 225Ac for targeted alpha therapy. Although 226Ra from waste sources has been considered, obtaining 226Ra is challenging. Therefore, the authors focused on the contamination of minerals with 232Th-derived 228Ra while investigating methods to recover 226Ra from uranium ores. The effect of 228Ra contamination on 225Ac production by 226Ra transmutation using fast reactors was evaluated. Consequently, toxic 228Ac contaminates 225Ac. However, using the different half-lives of 225Ac and 228Ac, pure 225Ac can be obtained from the chemical separation of actinium after cooling for 5–8 days. [ABSTRACT FROM AUTHOR]

Published

2024

14. Recent Advances in the Formation, Stability, and Emerging Food Application of Water-in-Oil-in-Water Double Emulsion Carriers.

Author

Elaine, Elaine, Bhandari, Bhesh, Tan, Chin Ping, and Nyam, Kar Lin

Subjects

*FOOD emulsions, *FOOD packaging, *TEMPERATURE control, *PRODUCTION methods, *EMULSIONS

Abstract

Double emulsion consists of two interfacial layers which can encapsulate both hydrophilic and lipophilic substances within a single carrier. Besides encapsulation, double emulsion has also been used to modify the sensorial properties of food products. However, at the same time, double emulsion is susceptible to destabilization under environmental stresses and long-term storage. In this paper, recent articles on double emulsion were critically highlighted in terms of production, composition, and stabilization. With current existing fundamental knowledge about double emulsion, this paper aims to review the utilization of double emulsion for food application to bring potential benefits, stability, and future application. The stability of double emulsion during production and storage was affected by the production method, composition, and temperature control. In terms of food application, double emulsion has been successfully applied in fat-reducing products, food encapsulation, fortification, preservation, edible food packaging, etc. The recent insights in forming stable storage of double emulsion with food-grade emulsifiers have also been discussed in this review paper. In the future, the efforts in mitigating the destabilization behaviour of double emulsion might be beneficial in boosting the applications of double emulsion in bigger markets. [ABSTRACT FROM AUTHOR]

Published

2024

15. A comprehensive review of advances in design of micro-texture on tool surface and its cutting performance.

Author

Niu, Qiulin, Wu, Meiyi, Liu, Lipeng, Gao, Jingyi, and Jing, Lu

Subjects

*GEOMETRIC surfaces, *MECHANICAL energy, *PRODUCTION methods, *CUTTING tools, *PERFORMANCE theory

Abstract

By producing micro-textures with different geometric parameters on the tool surface, the cutting performance of the tool can be effectively improved. Scientists have carried out the design and development of microstructures on the surface of tools based on the study of the performance of microstructured tools. Based on this, this theory first summarizes the production methods of surface microstructures, which are divided into photothermal energy composite processing, electrothermal energy composite processing, and mechanical energy processing according to the different energies. The effects of microtexturing on tool wear, tool strength, and tool life are then examined. Then, the geometric design of surface microtexturing tools from simple texturing to heterogeneous texturing is reviewed, and the mechanism of microtexturing tools is analyzed. Finally, the development direction of tools with surface micro-texture is given to provide guidance for the optimized design of the micro-texture of tool surfaces. [ABSTRACT FROM AUTHOR]

Published

2024

16. Rapid screening of positive blood cultures for extended-spectrum β-lactamases and metallo-β-lactamases using a drug susceptibility testing microfluidic method.

Author

Yamagishi, Yuka, Nakayama, Norihisa, Doke, Akito, Iwame, Saya, Nishida, Yoshie, Arakawa, Yu, and Mikamo, Hiroshige

Subjects

*MEDICAL screening, *PRODUCTION methods, *UNIVERSITY hospitals, *BACTEREMIA, *PROGNOSIS, *KLEBSIELLA pneumoniae

Abstract

An increasing number of drug-resistant bacteria have been identified recently. In particular, drug-resistant bacteria have been linked to unfavorable prognoses in patients with bacteremia, highlighting the need for rapid testing. Our previous studies have focused on the utility of a drug susceptibility testing microfluidic (DSTM) method using microfluidic channels. A system with this DSTM method for screening for β-lactamases can rapidly detect extended-spectrum β-lactamases (ESBLs) and metallo-β-lactamases (MBLs). In this study, we have evaluated the clinical utility of pre-treatment for screening positive blood cultures using the DSTM method. A total of 178 positive blood cultures and five simulated samples of MBL-producing bacteria were prepared at Kochi University Hospital, Japan. The pretreatment consisted of a two-step centrifugation. The obtained sediments were screened with the DSTM method for the production of β-lactamase based on morphological changes in the bacteria after 3 h of incubation. The pretreatment functioned properly for all samples. Of the 25 ESBL samples, 21 were positive for ESBLs. Four false-negative samples, all obtained from the same patient, contained CTX-M-2 enzyme-producing Proteus mirabilis and showed insusceptibility to an ESBL inhibitor. The simulated samples prepared for MBL screening were positive for MBLs. When combined with a method for rapidly identifying bacterial species, DSTM may enable patients with bloodstream infections to start receiving appropriate treatment within 4 h after positive blood cultures are screened. [ABSTRACT FROM AUTHOR]

Published

2024

17. The Rheological Analysis of Ancestral Beverages, Neutrosophic C-Means (NCM) Clustering Algorithm of Data.

Author

Trávez-Castellano, Ana M., Arias-Palma, Gabriela B., and Romero-Corral, Renato A.

Subjects

*BEVERAGE analysis, *MICROBIAL products, *CONSUMER preferences, *PRODUCTION methods, *MANUFACTURING processes, *CLUSTERING algorithms

Abstract

This study focuses on the rheological analysis of cassava and chonta chichas (Manihot esculenta Crantz and Bactris gasipaes) produced in the Province of Pastaza, aiming to preserve and disseminate the cultural and nutritional heritage of these traditional beverages. The research emphasizes the integration of ancestral knowledge into modern production practices, exploring sensory characteristics that could influence consumer preferences and production standardization. In Pastaza, it has been observed that traditional production methods, such as chewing cassava and chonta to initiate fermentation, expose the product to microbial risks, making it potentially unpalatable and unsafe for consumption. To address these issues, this work incorporates neutrosophic theory to manage the uncertainties in sensory evaluation and applies Neutrosophic C-means clustering to analyze the data obtained from both expert assessments and instrumental measurements. This approach aims to enhance our understanding of how variations in the production process affect the beverage's properties and to develop a standardized production protocol that ensures both the safety and quality of the chichas. Through empirical data and rheological studies, this research seeks to contribute significantly to the sustainable preservation and enhancement of traditional beverage production. [ABSTRACT FROM AUTHOR]

Published

2024

18. TRANSFORMATION AND TRANSCENDENCE - REFORMING NEWS PRODUCTION IN THE CONVERGENT MEDIA ERA.

Author

Zhi Li and Yinchang Chen

Subjects

MANUFACTURING processes, PUBLIC communication, REFERENCE values, PRODUCTION methods, DIGITIZATION

Abstract

Copyright of Trans/Form/Ação is the property of Trans/Form/Acao 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

2024

19. Research on the using of ZnO nanostructures to increase the white light-emitting diodes optics effectiveness.

Author

Phan Xuan Le and Pham Hong Cong

Subjects

LIGHT emitting diodes, COLOR temperature, PRODUCTION methods, ZINC oxide, HOMOGENEITY

Abstract

In conventional white light-emitting diodes (WLEDs), the combination of blue-LED chips with a yellow-phosphor type is the commonly employed method of production. However, this approach often results in low angular correlated color temperature (CCT) homogeneity. To address this issue, this research proposes the incorporation of ZnO nanostructures into WLED packages to enhance color homogeneity. The impacts of varying concentrations of ZnO nanoparticles on the morphologies, scattered energy, and CCT deviations in WLED packages are studied utilizing the Mie-scattering theory and MATLAB measurement techniques to analyze the scattering effects of ZnO nanoparticles. The scattering analysis reveals that the presence of ZnO nanoparticles significantly increases the scattered strength of WLEDs, especially with larger particles' radii, due to their strong scattering influence. Then, 1 µm is the selected size of the ZnO used in further tests. With different ZnO concentrations (2-50 wt.%) in the phosphor layer, the CCT deviation holds an inverse proportion to the luminous efficiency. Particularly, higher concentrations of ZnO nanoparticles reduce the CCT deviation, leading to improved color homogeneity, but a decline in lumen efficiency. The findings provide the basis of ZnO scattering performance, which can be utilized to explore potential ways for enhancing WLED's color uniformity and overall performance. [ABSTRACT FROM AUTHOR]

Published

2024

20. Numerical Simulation and Entropy Production Analysis of Centrifugal Pump with Various Viscosity.

Author

Zhao, Zhenjiang, Jiang, Lei, Bai, Ling, Pan, Bo, and Zhou, Ling

Subjects

BOUNDARY layer (Aerodynamics), CENTRIFUGAL pumps, PRODUCTION methods, VISCOSITY, ENERGY conversion

Abstract

The fluid's viscosity significantly affects the performance of a centrifugal pump. The entropy production method and leakage are employed to analyze the performance changes under various viscosities by numerical simulation and validated by experiments. The results showed that increasing viscosity reduces both the pump head and efficiency. In addition, the optimal operating point shifts to the left. Leakage is influenced by vortex distribution in the front chamber and boundary layer thickness in wear-ring clearance, leading to an initial increase and subsequent decrease in leakage with increasing viscosity. The total entropy production S pro , Total inside the pump rises with increasing viscosity. The different mechanisms dominate under varying conditions: Turbulent dissipation dominates at low viscosity. Under high-viscosity conditions, energy loss is primarily caused by direct dissipation S pro , D and wall entropy production S pro , W . This study provides a deeper and more objective understanding of the energy characteristics of centrifugal pumps handling fluids of various viscosity, potentially aiding in optimizing pump design and improving energy conversion efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

21. Optimizing Escherichia coli strains and fermentation processes for enhanced L-lysine production: a review.

Author

Zijuan Wu, Tianpeng Chen, Wenjun Sun, Yong Chen, and Hanjie Ying

Subjects

ESSENTIAL amino acids, TECHNOLOGICAL innovations, PROCESS optimization, FERMENTATION, PRODUCTION methods

Abstract

lysine is an essential amino acid with significant importance, widely used in the food, feed, and pharmaceutical industries. To meet the increasing demand, microbial fermentation has emerged as an effective and sustainable method for L-lysine production. Escherichia coli has become one of the primary microorganisms for industrial L-lysine production due to its rapid growth, ease of genetic manipulation, and high production efficiency. This paper reviews the recent advances in E. coli strain engineering and fermentation process optimization for L-lysine production. Additionally, it discusses potential technological breakthroughs and challenges in E. coli-based L-lysine production, offering directions for future research to support industrial-scale production. [ABSTRACT FROM AUTHOR]

Published

2024

22. Aligning fermentation conditions with non-canonical amino acid addition strategy is essential for Nε-((2-azidoethoxy)carbonyl)-L-lysine uptake and incorporation into the target protein.

Author

Hanaee-Ahvaz, Hana, Baumann, Marina Alexandra, Tauer, Christopher, Albrecht, Bernd, Wiltschi, Birgit, Cserjan-Puschmann, Monika, and Striedner, Gerald

Subjects

*ESCHERICHIA coli, *PROTEIN engineering, *PRODUCTION methods, *AMINO acids, *FERMENTATION

Abstract

Protein engineering with non-canonical amino acids (ncAAs) holds great promises for diverse applications, however, there are still limitations in the implementation of this technology at manufacturing scale. The know-how to efficiently produce ncAA-incorporated proteins in a scalable manner is still very limited. In the present study, we incorporated the ncAA N6-[(2-azidoethoxy)carbonyl]-L-lysine (Azk) into an antigen binding fragment (Fab) in Escherichia coli. We used the orthogonal pyrrolysyl-tRNA synthetase/suppressor tRNACUAPyl pair from Methanosarcina mazei to incorporate Azk site-specifically. We characterized Azk uptake and Fab production at bench-scale under different fermentation conditions, varying timing and mode of Azk addition, Azk-to-cell ratio and induction time. Our results indicate that Azk uptake is comparatively efficient in the batch phase. We discovered that the time between Azk uptake and inducing its incorporation into the Fab must be kept short, which suggests that intracellular Azk is consumed and/or degraded. The results obtained in this study are an important step towards the development of efficient production methods for Azk-incorporated proteins in E. coli. The developed process is scalable and provides excellent yields of 2.95 mg functionalized Fab per g CDM, which corresponds to 80% of yield obtained with the wild type Fab. We also identified the cellular uptake of Azk being dependent on the physiological state of the cell as a potential bottleneck in production. [ABSTRACT FROM AUTHOR]

Published

2024

23. A Polyoxotungstate Stabilized Copper Catalyst for Green and Efficient Transformation of Alcohols to Ketones.

Author

Wei, Zheyu, Yang, Guoping, and Wei, Yongge

Subjects

*COPPER catalysts, *HETEROGENEOUS catalysis, *ATMOSPHERIC pressure, *CYCLOHEXANONES, *PRODUCTION methods

Abstract

A water‐soluble copper catalyst (NH4)8[Cu2(H2O)8W12O42] ⋅ 4H2O is prepared by the generated paratunngstate B in situ, which can catalyze the H2O2 oxidation of cyclohexanol to cyclohexanone with a yield above 98 % in water under much milder conditions of 35 °C and atmospheric pressure, and the substrate can be extend to other secondary alcohols, potentially leading to an economical, green, and efficient ketone production method for industrial use. [ABSTRACT FROM AUTHOR]

Published

2024

24. 植物酵素功能与安全性研究进展.

Author

檀茜倩, 程笑笑, 周振彧, 崔方超, 吕欣然, 李学鹏, and 励建荣

Subjects

PLANT enzymes, ORGANIC acids, PLANT products, PRODUCTION methods, FOOD pathogens

Abstract

Copyright of Food & Fermentation Industries is the property of Food & Fermentation Industries 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

2024

25. Challenges and opportunities in geographical indication registered gastronomic products: Erzurum Rosette.

Author

Denk, Erkan

Subjects

PATENT offices, HERITAGE tourism, GEOGRAPHIC information systems, CULTURAL values, PRODUCTION methods

Abstract

Erzurum Rosette holds significant cultural value as a traditional dessert widely produced and consumed in Erzurum. Limited knowledge exists regarding the difficulties encountered by producers and the influence of Geographical Indication (GI) registration on production and marketing. This study aims to enhance the recognition of Erzurum Rosette, assess its production process to comply with the standards of the Turkish Patent and Trademark Office (TPTO), and explore its potential as a sustainable tourist product. A qualitative analysis was conducted on six producers of Erzurum Rosette. The information was gathered through semi-structured interviews that focused on demographic data, understanding GI, production challenges, and the influence of GI registration on sales. Responses were examined using thematic coding and statistical analysis. The study revealed that this traditional dessert production involves both male and female producers and that the producers have significant professional experience. General materials for production can be easily obtained, but obtaining the necessary special iron molds poses a significant challenge. Producers with a comprehensive understanding of GI have reported increased sales and market access after registration, but those with limited understanding have seen minimal impact. Common challenges include material supply and equipment availability, particularly regarding the procurement of iron molds. Sales and marketing strategies are generally effective, but continuous innovation is necessary for market expansion. Addressing supply chain issues and increasing awareness of GI benefits for producers are crucial for the sustainability and promotion of Erzurum Rosette. Improving support for local production and targeted training initiatives can help preserve traditional production methods and enhance the potential of Erzurum Rosette as a cultural and tourism value. [ABSTRACT FROM AUTHOR]

Published

2024

26. A benchmark of RNA-seq data normalization methods for transcriptome mapping on human genome-scale metabolic networks.

Author

Lüleci, Hatice Büşra, Uzuner, Dilara, Cesur, Müberra Fatma, İlgün, Atılay, Düz, Elif, Abdik, Ecehan, Odongo, Regan, and Çakır, Tunahan

Subjects

*ALZHEIMER'S disease, *METABOLIC models, *RNA sequencing, *DATA mapping, *PRODUCTION methods

Abstract

Genome-scale metabolic models (GEMs) cover the entire list of metabolic genes in an organism and associated reactions, in a tissue/condition non-specific manner. RNA-seq provides crucial information to make the GEMs condition-specific. Integrative Metabolic Analysis Tool (iMAT) and Integrative Network Inference for Tissues (INIT) are the two most popular algorithms to create condition-specific GEMs from human transcriptome data. The normalization method of choice for raw RNA-seq count data affects the model content produced by these algorithms and their predictive accuracy. However, a benchmark of the RNA-seq normalization methods on the performance of iMAT and INIT algorithms is missing in the literature. Another important phenomenon is covariates such as age and gender in a dataset, and they can affect the predictivity of analysis. In this study, we aimed to compare five different RNA-seq data normalization methods (TPM, FPKM, TMM, GeTMM, and RLE) and covariate adjusted versions of the normalized data by mapping them on a human GEM using the iMAT and INIT algorithms to generate personalized metabolic models. We used RNA-seq data for Alzheimer's disease (AD) and lung adenocarcinoma (LUAD) patients. The results demonstrated that RNA-seq data normalized by the RLE, TMM, or GeTMM methods enabled the production of condition-specific metabolic models with considerably low variability in terms of the number of active reactions compared to the within-sample normalization methods (FPKM, TPM). Using these models, we could more accurately capture the disease-associated genes (average accuracy of ~0.80 for AD and ~0.67 for LUAD) for the RLE, TMM, and GeTMM normalization methods. An increase in the accuracies was observed for all the methods when covariate adjustment was applied. We found a similar accuracy trend when we compared the metabolites of perturbed reactions to metabolome data for AD. Together, our benchmark study shows that the between-sample RNA-seq normalization methods reduce false positive predictions at the expense of missing some true positive genes when mapped on GEMs. [ABSTRACT FROM AUTHOR]

Published

2024

27. Metabolic engineering of Corynebacterium crenatum for enhanced L-tyrosine production from mannitol and glucose.

Author

Yang, Gang, Xiong, Sicheng, Huang, Mingzhu, Liu, Bin, Shao, Yanna, and Chen, Xuelan

Subjects

*ESCHERICHIA coli, *MICROBIOLOGICAL synthesis, *MICROBIAL metabolism, *PRODUCTION methods, *MICROBIAL genes

Abstract

Background: L-Tyrosine (L-Tyr) is a significant aromatic amino acid that is experiencing an increasing demand in the market due to its distinctive characteristics. Traditional production methods exhibit various limitations, prompting researchers to place greater emphasis on microbial synthesis as an alternative approach. Results: Here, we developed a metabolic engineering-based method for efficient production of L-Tyr from Corynebacterium crenatum, including the elimination of competing pathways, the overexpression of aroB, aroD, and aroE, and the introduction of the mutated E. coli tyrAfbr gene for elevating L-Tyr generation. Moreover, the mtlR gene was knocked out, and the mtlD and pfkB genes were overexpressed, allowing C. crenatum to produce L-Tyr from mannitol. The L-Tyr production achieved 6.42 g/L at a glucose-to-mannitol ratio of 3:1 in a shake flask, which was 16.9% higher than that of glucose alone. Notably, the L-Tyr production of the fed-batch fermentation was elevated to 34.6 g/L, exhibiting the highest titers among those of C. glutamicum previously reported. Conclusion: The importance of this research is underscored by its pioneering application of mannitol as a carbon source for the biosynthesis of L-Tyr, as well as its examination of the influence of mannitol-associated genes in microbial metabolism. A promising platform is provided for the production of target compounds that does not compete with human food source. [ABSTRACT FROM AUTHOR]

Published

2024

28. Simulation of a Microwave Plasma Torch Used for Hydrogen Production via Methane Pyrolysis.

Author

Kreuznacht, Simon, Böke, Marc, and Keudell, Achim

Subjects

*GREEN fuels, *PLASMA torch, *HYDROGEN production, *CLEAN energy, *PRODUCTION methods, *MICROWAVE plasmas

Abstract

ABSTRACT Hydrogen is often envisioned as a green fuel and energy carrier. However, a greenhouse gas‐free production method is still needed for this purpose. A promising method is the pyrolysis of methane. In this study, we present the three‐dimensional simulation of methane pyrolysis in a microwave plasma torch operated in an argon–methane mixture. Due to the high gas temperatures, the chemistry is dominated by reactions between neutral particles. Therefore, the plasma is treated only as a heat source using space‐resolved gas temperature measurements as input. The end‐of‐pipe results of the simulation are compared to measured values, showing good agreement for methane conversion. [ABSTRACT FROM AUTHOR]

Published

2024

29. Variations in CTAC batches from different suppliers highly affect the shape yield in seed-mediated synthesis of gold nanotriangles.

Author

Podlesnaia, Ekaterina, Hoxha, Amarildo, Achikkulathu, Sreevalsan, Kandathikudiyil Antony, Athulesh, Antony, Jerestine Philomina, Spörl, Kathrin, Csáki, Andrea, Leiterer, Matthias, and Fritzsche, Wolfgang

Subjects

*GOLD nanoparticles, *NANOPARTICLE synthesis, *SUSTAINABILITY, *CONSUMPTION (Economics), *PRODUCTION methods

Abstract

The rapidly developing miniaturization in numerous fields require low-demanding but robust methods of nanomaterial production. Colloidal synthesis provides great flexibility in product material, size, and shape. Gold nanoparticle synthesis has been thoroughly studied, however, recent reports on mechanistic insights of crystal formation have been hindered by the numerous procedures and parameter optimization works. With every new study, scientists fill another blank space on the map of understanding anisotropic growth and find out the critical parameters. In the current work, we highlight the choice importance for surfactant supplier in achieving the gold nanotriangle formation. We systematically study the variation in the shape yield when utilizing five batches of cetyltrimethylammonium chloride (CTAC) from varied suppliers. Using analytical techniques, we search for deviations causing such variation, e.g. different impurity content. We found only a marginal effect of iodine contamination on the studied system, excluding this factor as decisive in contrast to what was proposed earlier in the literature, and leaving the high dependency of the yield to originate from yet unknown reagent characteristics. A deeper understanding of these factors would provide highly effective protocols lowering the reagent consumption and increasing the accessibility of nanomaterials manufactured in a sustainable manner. [ABSTRACT FROM AUTHOR]

Published

2024

30. Experimental simulation of the ancient production of gold granules.

Author

Tan, Panpan, Yang, Junchang, and Ji, Juan

Subjects

*PRODUCTION methods, *SURFACE morphology, *GRAIN size, *MASS media influence, *GRANULATION

Abstract

Granulation is an ancient and sophisticated decorative technique. The production of granules is a crucial part of this process but has rarely been studied. The present study employed three techniques—pouring method, heating method, and crucible method—to produce gold granules. The success ratio of granule formation, granule surface morphology, microstructure, and formation were analyzed to identify the techniques used in archaeological objects. The cooling medium significantly influenced small granule formation, microstructure, and grain size. Both heating and crucible methods could control the granule formation, but these methods produced distinct microstructures. Based on these experimental granules, the probable production methods of ancient gold balls were identified. The present study provided microscopic information for determining ancient gold granule production techniques. [ABSTRACT FROM AUTHOR]

Published

2024

31. A comprehensive analysis of a compact-sized methanol cracking unit for hydrogen production.

Author

Farooq, Muhammad Shahid, Baig, Abdullah, Wei, Yanju, Liu, He, Zeng, Zhixin, and Shi, Zihang

Subjects

*CHEMICAL kinetics, *HYDROGEN production, *CATALYTIC cracking, *MOLE fraction, *PRODUCTION methods, *METHANOL as fuel

Abstract

Methanol is recognized as source of hydrogen production, making it a suitable fuel for sustainable development. However, hydrogen production methods remain a concern. An experimental setup and a simulation model in Aspen Plus, incorporating an evaporator and cracker, are developed for hydrogen production. The effects of dimensional parameters, including the length and diameter of the cracker, temperature, and pressure in the presence of the catalyst SCST- 403, on hydrogen production and methanol conversion via thermal catalytic cracking have not been discussed yet . The experimental results show that the optimum hydrogen mole fraction exceeds 0.52, and methanol conversion exceeds 60% at a length of 2.83 m, diameter of 4.07 mm, temperature of 500 °C, and pressure of 2.7 MPa. The investigation is extended to redesign the cracker unit using Aspen Plus based on reaction kinetics. Simulations on various dimensions, temperatures, and pressures reveal that, after redesigning, the optimum hydrogen mole fraction exceeds 0.60, and methanol conversion reaches 85% at a length of 4.5 m, diameter of 5.2 mm, temperature of 500 °C, and pressure of 3 MPa. [Display omitted] • Design a compact-size methanol cracking unit for hydrogen production. • Utilize high temperature conditions for faster methanol catalytic cracking. • On-board syn-gas production, primarily hydrogen, by methanol decomposition. • Design variations aim to enhance methanol cracking and hydrogen production efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

32. Research Developments and Applications of Ice Slurry.

Author

Song, Haiqin, Verdin, Patrick G., and Zhang, Jinfeng

Subjects

*ANTIFREEZE solutions, *SNOWMAKING, *HEAT transfer, *ENERGY storage, *PRODUCTION methods, *SLURRY

Abstract

Ice slurry is a phase-changing material composed of liquid water, ice crystals, and a freezing point depressant. It is finer and more uniform compared to ice cubes or flake ices and is used in many industries, such as food preservation, comfortable cooling, medical protective cooling, sport cooling, instrument cooling, firefighting, and artificial snowmaking, due to its high energy storage density. Ice slurry with high concentration can be used for cleaning equipment as its friction is several times greater than that of water at the same flow rate. This paper describes in detail the developments of ice slurry, including production methods, concentration measurement approaches, flow and heat transfer characteristics, as well as its applications in various industries. Problems to be solved or improved are also discussed, providing suggestions for better developments and applications in industrial environments. [ABSTRACT FROM AUTHOR]

Published

2024

33. Comparison of Curing Conditions on Physical Properties, Mechanical Strength Development, and Pore Structures of Phosphogypsum-Based Cold-Bonded Aggregates.

Author

Wang, Guiming, Ye, Zhiyi, Sun, Tao, Mo, Zhenlin, Wang, Ziyan, Ouyang, Gaoshang, He, Juntu, and Deng, Yihua

Subjects

*POROSITY, *DEGREE of polymerization, *HYDROTHERAPY, *X-ray diffraction, *PRODUCTION methods

Abstract

This study compared the physical properties and mechanical strength development of PCBAs with water, sealed, standard, and open ambient air curing over 28 days to find a suitable curing method for the production of phosphogypsum-based cold-bonded aggregates. The types and relative amounts of hydration products, microstructural morphology and pore structure parameters were characterized utilizing XRD, TGA, FTIR, SEM and nitrogen adsorption methods. According to the results, water curing leads to rapid increases in single aggregate strength, reaching 5.26 MPa at 7 d. The standard curing condition improved the 28 d mechanical strength of the aggregates by 19.3% over others by promoting the generation of hydration products and the transformation of the C-S-H gel to a higher degree of polymerization and by optimizing the pore structure. Further, PCBAs achieved an excellent solidification of phosphorus impurities under all four curing conditions. This work provides significant guidance for selecting an optimized PCBA curing method for industrial production. [ABSTRACT FROM AUTHOR]

Published

2024

34. Plug method allows measurement of apical and lateral growth of fen brown mosses.

Author

Jaszczuk, Izabela, Kotowski, Wiktor, and Jabłońska, Ewa

Subjects

*OIL paint, *WATER restrictions, *PRODUCTION methods, *SHOOTING (Sports), *FENS, *MOSSES

Abstract

Introduction:Methods:Key results and discussion:A reliable method for measuring brown moss production helps us to understand the functioning of fen peatlands and to quantify their peat formation rate. However, traditional methods based on height increment are not suitable for measuring the growth rate of brown mosses with numerous lateral branches.The growth rate of common brown moss species in temperate and boreal fens was measured using two methods: (i) the marking method – a moss shoot was marked with oil paint and its growth increment measured from the mark (in the laboratory and in the field); and (ii) the plug method – a fragment of a moss colony was ‘plugged' (i.e. cored), weighed and replanted in a small basket for a year, then weighed again; a similar and bottomless basket was fixed in the moss colony as a control.Despite promising laboratory results, the marking method gave low shoot survival in the field, probably due to the restriction of external water transport along the shoots. No differences in shoot elongation were found between the plug method and the control. The plug method comprises the measurement of both apical and lateral growth, and the authors of the present study therefore recommend it for measuring the growth of brown mosses with numerous lateral branches. Considering only the elongation of the top shoots leads to an underestimation of growth by 50% and consequently to an underestimation of the peat-forming potential of brown mosses. [ABSTRACT FROM AUTHOR]

Published

2024

35. One-pot microfluidic fabrication of micro ceramic particles.

Author

Zhou, Chenchen, Liang, Shuaishuai, Qi, Bin, Liu, Chenxu, and Cho, Nam-Joon

Subjects

MICROMACHINING, PRODUCTION methods, THERMOGRAVIMETRY, MICROELECTRONICS, CERAMICS, MICROFLUIDIC devices

Abstract

In the quest for miniaturization across technical disciplines, microscale ceramic blocks emerge as pivotal components, with performance critically dependent on precise scales and intricate shapes. Sharp-edged ceramic microparticles, applied from micromachining to microelectronics, require innovative fabrication techniques for high-throughput production while maintaining structural complexity and mechanical integrity. This study introduces a "one-pot microfluidic fabrication" system incorporating two device fabrication strategies, "groove & tongue" and sliding assembling, achieving an unprecedented array of microparticles with diverse, complex shapes and refined precision, outperforming traditional methods in production rate and quality. Optimally designed sintering profiles based on derivative thermogravimetry enhance microparticles' shape retention and structural strength. Compression and scratch tests validate the superiority of microparticles, suggesting their practicability for diverse applications, such as precise micromachining, sophisticated microrobotics and delicate microsurgical tools. This advancement marks a shift in microscale manufacturing, offering a scalable solution to meet the demanding specifications of miniaturized technology components. Drawing from historical tradition, "groove & tongue" sliding assembled devices were created in a one-pot microfluidic fabrication system, enabling the production of complex-shaped microparticles with high precision. [ABSTRACT FROM AUTHOR]

Published

2024

36. A regio-specific 4<italic>’</italic>-<italic>O</italic>-methyltransferase from <italic>Epimedium pseudowushanense</italic> regiospecifically catalyzing 8-prenylkeampferol to icaritin.

Author

Feng, Ke-Ping, Liu, Ji-Mei, Chen, Ri-Dao, Fei, Qiao-Man, Xie, Ke-Bo, Chen, Da-Wei, and Dai, Jun-Gui

Subjects

*CHINESE medicine, *METHYL groups, *BIOACTIVE compounds, *METHYLTRANSFERASES, *PRODUCTION methods, *FLAVONOIDS

Abstract

AbstractEpimedium is widely used in traditional Chinese medicine and contains rich bioactive compounds. These compounds often have a methyl group at their 4’-OH position catalyzed by methyltransferases. Therefore, studying methyltransferases in Epimedium plants is of great significance. In this study, a flavonol methyltransferase, EpOMT4, was isolated from Epimedium pseudowushanense B.L. Guo. The recombinant enzyme regiospecifically transferred a methyl group to the 4’-OH position of 8-prenylkaempferol forming icaritin. The study demonstrates that enzymatic methylation of flavonoids in Epimedium plants holds significant potential and could provide a promising alternative method for the biosynthetic production of bioactive methylated prenylflavonoids. [ABSTRACT FROM AUTHOR]

Published

2024

37. Preparation of methyl ethyl ketone from biomass-derived levulinic acid using a metal-free photocatalytic system and life cycle assessment study.

Author

Shen, Meng-Xiang, Deng, Chen-Qiang, Yang, Jie, and Deng, Jin

Subjects

*METHYL ethyl ketone, *PRODUCT life cycle assessment, *MICROCHANNEL flow, *CHEMICAL amplification, *PRODUCTION methods, *MICROREACTORS

Abstract

Levulinic acid (LA) is derived from lignocellulosic biomass and can undergo various chemical transformations to produce high-value chemicals. However, there are limited studies on C–C bond cleavage in LA. Methyl ethyl ketone (MEK) is a high-quality solvent with a wide range of industrial applications, traditionally produced from petroleum-derived n-butene. Here, we report a method for the production of MEK from LA using a metal-free photocatalytic system. Using acridine compounds as photosensitizers and thiophenols as hydrogen transfer reagents, high selectivity and yield of MEK are achieved under mild reaction conditions, and the reaction time is significantly shortened using a microchannel continuous flow photoreactor. Additionally, life cycle assessment indicates that this method has lower carbon emissions than other MEK production methods from LA. This catalytic system provides a green and efficient method to produce MEK from bio-based platform molecule LA, which meets the requirements of sustainable development. [ABSTRACT FROM AUTHOR]

Published

2024

38. Electrochemical Synthesis of Metal Complexes Using Dissolving Anodes.

Author

Nicholls, Thomas P., Jia, Zhongfan, and Chalker, Justin M.

Subjects

*INORGANIC chemistry, *ORGANOMETALLIC chemistry, *METAL complexes, *ELECTROCHEMICAL electrodes, *PRODUCTION methods

Abstract

The use of dissolving metal electrodes for the direct electrochemical synthesis of metal complexes has been used widely in the last decade. A major benefit of the electrochemical approach is the minimal by‐products resulting from the synthesis. As such, metal complexes can be produced on‐demand and used directly in catalysis without the need for purification. Furthermore, the electrochemical method enables the production of metal complexes that cannot be synthesized using other methods, including those with base‐sensitive ligands. General principles of the electrochemical method and recent advances in the field are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

39. Recombinant production of Paenibacillus wynnii β-galactosidase with Komagataella phaffii.

Author

Bechtel, Anna, Seitl, Ines, Pross, Eva, Hetzel, Frank, Keutgen, Mario, and Fischer, Lutz

Subjects

*SIGNAL peptides, *INDUSTRIAL capacity, *PRODUCTION methods, *MOLECULAR cloning, *PAENIBACILLUS

Abstract

Background: The β-galactosidase from Paenibacillus wynnii (β-gal-Pw) is a promising candidate for lactose hydrolysis in milk and dairy products, as it has a higher affinity for the substrate lactose (low KM value) compared to industrially used β-galactosidases and is not inhibited by the hydrolysis-generated product D-galactose. However, β-gal-Pw must firstly be produced cost-effectively for any potential industrial application. Accordingly, the yeast Komagataella phaffii was chosen to investigate its feasibility to recombinantly produce β-gal-Pw since it is approved for the regulated production of food enzymes. The aim of this study was to find the most suitable way to produce the β-gal-Pw in K. phaffii either extracellularly or intracellularly. Results: Firstly, 11 different signal peptides were tested for extracellular production of β-gal-Pw by K. phaffii under the control of the constitutive GAP promoter. None of the signal peptides resulted in a secretion of β-gal-Pw, indicating problems within the secretory pathway of this enzyme. Therefore, intracellular β-gal-Pw production was investigated using the GAP or methanol-inducible AOX1 promoter. A four-fold higher volumetric β-galactosidase activity of 7537 ± 66 µkatoNPGal/Lculture was achieved by the K. phaffii clone 27 using the AOX1 promoter in fed-batch bioreactor cultivations, compared to the clone 5 using the GAP promoter. However, a two-fold higher specific productivity of 3.14 ± 0.05 µkatoNPGal/gDCW/h was achieved when using the GAP promoter for β-gal-Pw production compared to the AOX1 promoter. After partial purification, a β-gal-Pw enzyme preparation with a total β-galactosidase activity of 3082 ± 98 µkatoNPGal was obtained from 1 L of recombinant K. phaffii culture (using AOX1 promoter). Conclusion: This study showed that the β-gal-Pw was produced intracellularly by K. phaffii, but the secretion was not achieved with the signal peptides chosen. Nevertheless, a straightforward approach to improve the intracellular β-gal-Pw production with K. phaffii by using either the GAP or AOX1 promoter in bioreactor cultivations was demonstrated, offering insights into alternative production methods for this enzyme. [ABSTRACT FROM AUTHOR]

Published

2024

40. Heterosis for Resistance against Sorghum Downy Mildew [Peronosclerospora sorghi (Weston and Uppal) C.G. Shaw] Infection in Maize (Zea mays L.).

Author

Arulselvi, S. and Selvi, B.

Subjects

*DOWNY mildew diseases, *SORGHUM, *HETEROSIS, *ANALYSIS of variance, *PRODUCTION methods

Abstract

Background: Sorghum downy mildew (SDM) of maize caused by the fungus Peronosclerospora sorghi (Weston and Uppal) C.G. Shaw is one of the most important diseases of maize and it remains vital constraint in maize production. Since maize is the highly cross pollinated crop, exploitation of heterosis is one of the breeding methods to increase the production. Negative values in the expression of heterosis indicate a contribution towards resistance which is highly needed in order to have reduced incid ence of sorghum downy mildew in maize hybrids. Methods: The materials selected as parents for the present study consisted of nine maize inbred lines which comprised of three resistant (UMI102, UMI936(w) and UMI285), three moderately resistant (UMI176, UMI13 and UMI57) and three susceptible (UMI79, UMI432 and UMI467) inbreds to SDM incidence. Nine inbred lines were crossed in all possible combinations including reciprocals in diallel fashion and the resultant seventy two hybrids along with their parents and the check (COH(M)5) were raised and evaluated for resistance against SDM under glass house condition. The extent of heterosis was estimated over mid parent, better parent and popular check hybrid. Result: Analysis of variance for sorghum downy mildew incidence revealed highly significant differences among parents and hybrids indicating greater diversity among the genotypes for sorghum downy mildew incidence under study. Out of seventy two hybrids, only three hybrids namely UMI 13 × UMI 936 (W), UMI 467 × UMI 936 (W) and UMI 432 × UMI 936 (W) exhibited three types heterosis significantly in negative direction. [ABSTRACT FROM AUTHOR]

Published

2024

41. Analysis of the flow field characterization on the cavitation water jet applied to planar and curved surfaces.

Author

Wang, Jiaxiang, Wang, Zunce, Xu, Yan, Liu, Haishui, Yan, Yuejuan, Zhang, Jinglong, Li, Sen, and Ge, Mingming

Subjects

*LARGE eddy simulation models, *PROPER orthogonal decomposition, *CURVED surfaces, *CLOUD dynamics, *PRODUCTION methods, *CAVITATION, *WATER jets

Abstract

Cavitation water jet technology offers a sustainable alternative to traditional high-energy, high-pollution production or cleaning methods in the biodiesel, injector, and turbine industries. Although widely applied, the dynamics of cavitation cloud evolution and erosion patterns on various surface constraints require further investigation. This paper examines how planar and differently curved surface constraints affect the spatiotemporal evolution of the cavitation cloud under submerged conditions. The flow field is experimentally observed by using a high-speed camera. Proper orthogonal decomposition is employed to analyze the characteristics of the cavitation flow field across these surface constraints. Additionally, large eddy simulation is used to explore the internal flow dynamics and progression of the cavitation cloud under varying target surface constraints. The findings provide deeper insight into the spatiotemporal evolution patterns of cavitation clouds against planar and curved surfaces, expanding the application of cavitation jet technology in diverse energy generation and conversion fields. [ABSTRACT FROM AUTHOR]

Published

2024

42. Safety evaluation of the food enzyme carboxypeptidase C from the genetically modified Aspergillus niger strain PEG.

Author

Zorn, Holger, Barat Baviera, José Manuel, Bolognesi, Claudia, Catania, Francesco, Gadermaier, Gabriele, Greiner, Ralf, Mayo, Baltasar, Mortensen, Alicja, Roos, Yrjö Henrik, Solano, Marize L. M., Sramkova, Monika, Van Loveren, Henk, Vernis, Laurence, Lunardi, Simone, Andryszkiewicz, Magdalena, Criado, Ana, and Liu, Yi

Subjects

*AMINO acid sequence, *ASPERGILLUS niger, *GENETICALLY modified foods, *PRODUCTION methods, *MANUFACTURING processes

Abstract

The food enzyme carboxypeptidase C (EC 3.4.16.5) is produced with the genetically modified Aspergillus niger strain PEG by DSM Food Specialties B.V. The genetic modifications do not give rise to safety concerns. The food enzyme is free from viable cells of the production organism and its DNA. It is intended to be used in nine food manufacturing processes. Dietary exposure to the food enzyme‐total organic solids (TOS) was estimated to be up to 2.053 mg TOS/kg body weight (bw) per day in European populations. The toxicity studies were carried out with a xylanase obtained from A. niger strain XEA. The Panel considered this food enzyme as a suitable substitute for the carboxypeptidase to be used in the toxicological studies, because both strains were derived from the same recipient strain, the location of the inserts was comparable, no partial inserts were present and the production methods were essentially the same. Genotoxicity tests did not raise a safety concern. The systemic toxicity was assessed by means of a repeated dose 90‐day oral toxicity study in rats. The Panel identified a no observed adverse effect level of 1850 mg TOS/kg bw per day, the highest dose tested, which when compared with the estimated dietary exposure, resulted in a margin of exposure of at least 901. A homology search for the amino acid sequence of the food enzyme to known allergens was made and one match with a wheat allergen was found. The Panel considered that the risk of allergic reactions by dietary exposure cannot be excluded, especially in wheat‐allergic individuals, but the likelihood is low. Based on the data provided, the Panel concluded that this food enzyme does not give rise to safety concerns under the intended conditions of use. [ABSTRACT FROM AUTHOR]

Published

2024

43. System reliability modeling and analysis for a marine power equipment operating in a discrete‐time dynamic environment.

Author

Li, Yan, Zhang, Wei, Cui, Lirong, and Gao, Hongda

Subjects

*SYSTEMS availability, *STOCHASTIC processes, *RELIABILITY in engineering, *MARINE equipment, *PRODUCTION methods, *MARKOV processes

Abstract

Exploring on reliability modeling and analysis on a marine equipment in a dynamic environment is a meaningful and challenging issue, because the system commonly carries out the task at sea away from land and suffers a distinct influence of environment. Thus, a reliability model of a multi‐state repairable system operating in dynamic environment is developed by introducing the background of the marine power system in this paper. The novelty of the research lies in the modeling and computing methods are relatively innovative by employing the aggregated stochastic processes, Hadamard production and matrix‐analytic method. First, the working modes of the marine power system under several different kinds of conditions are introduced. Then, the evolution of both the system states and environment are described as discrete‐time Markov chains with multiple and different transition probability matrices. The failure probability and repair probability of components are also distinct in different environments. Furthermore, some performance indexes, especially the index relevant to the environment, are derived, respectively. Finally, the conclusion is obtained by a numerical example of the marine power system, which also illustrates the validity and applicability of the proposed model. [ABSTRACT FROM AUTHOR]

Published

2024

44. Storage properties of platelet concentrates from umbilical cord blood prepared using three different methods.

Author

Cortesi, Valeria, Lopriore, Enrico, Cavallaro, Giacomo, Bontekoe, Ido J., van der Meer, Pieter F., Fustolo‐Gunnink, Susanna, Raffaeli, Genny, Ghirardello, Stefano, and Klei, Thomas R. L.

Subjects

*CORD blood, *MEAN platelet volume, *BLOOD platelet transfusion, *PRODUCTION methods, *PHOSPHATIDYLSERINES

Abstract

Background: Thrombocytopenia, common in preterm newborns, may increase bleeding risk and is often treated with transfusions. Recent studies reveal that transfusing platelets at a high threshold worsens outcomes, possibly due to a "developmental mismatch" between adult‐derived platelets and neonatal hemostatic system. Cord blood‐derived platelet concentrates (CBPCs) could be an alternative for newborns. Our study aims to produce and evaluate the quality parameters of CBPCs during storage. Study Design and Methods: Cord blood was collected from placentas after near‐term and full‐term pregnancies. Several production methods were attempted to obtain CBPCs, varying centrifugation settings, filtration, and dilution procedures. Adult‐derived platelet concentrates (PCs) processed with the same methods, and standard PCs from five buffy‐coats were used as controls. Storage tests were performed on days 2, 4–5, 7 from the collection. Results: CBPCs parameters were compared with adult‐derived PCs, and no significant differences were found for mean platelet volume (MPV), swirling, morphology, glucose, lactate, pCO2, and pO2. pH and bicarbonate were lower in CBPCs. Some significant differences between methods in CD62P expression and JC‐1 ratio were observed. Compared with standard PCs, CBPCs showed lower platelet concentration, pH, and JC‐1. Additionally, both in CBPCs as well as in control PCs, the apoptosis marker phosphatidylserine was elevated. Discussion: CBPCs were of comparable quality to control PCs during storage. However, apoptosis markers in both groups were elevated, suggesting processing and storage of low volumes of PCs require further optimization. Also, filtration of low volumes leads to significant platelet loss, an issue that requires remedy. [ABSTRACT FROM AUTHOR]

Published

2024

45. Comparison of manual titrations to automated microplate and gel titration assays used in the screening of blood donors for production of Low‐Titer O Whole Blood.

Author

Orr, Michael D., Casleton, Brian G., and Garcia, Olivia R.

Subjects

*B cells, *TITERS, *PRODUCTION methods, *BLOOD donors, *OBSESSIVE-compulsive disorder

Abstract

Background: The popularity of Low‐Titer O Whole Blood (LTOWB) for treating trauma patients requires that donor centers and transfusion services make decisions on what titer testing capabilities to institute and an appropriate titer level threshold. This study compared the titer results determined by four methods to find a rate of agreement. Study Design and Methods: Isohemagglutinin titers were tested on 300 plasma samples utilizing various methods, each determining IgM antibody levels by direct hemagglutination with A1 and B reference cells. The methods used were the Beckman Coulter's PK7300, Immucor's NEO Iris microplate technology, Ortho Clinical Diagnostics (OCD) Vision, and manual titrations. Results: Only 42.7% of the samples tested showed agreement across all methods on ABO isohemaglutinin titer levels and only 32.5% demonstrated "High titer" agreement. Sample agreement was close to 90% if the Immucor method was excluded. At a <1:256 titer level threshold, the pass rate was 94.3% for Immucor, 89.7% for the PK7300, 87.3% for manual testing, and 75.7% for OCD's gel method. Sensitivity and specificity rates at a ± 1 titer level were respectively 100% and 95.4% for OCD's gel, 73.7% and 100% for Immucor, and 100% and 99.6% for the PK7300. Overall method accuracy was 91.7% for Immucor, 90.3% for the PK7300, and 86.7% for OCD's gel method as compared to manual titration. Conclusion: All three automated methods perform comparably to the manual method at a ± 1 titer tolerance level. Based on these comparisons, a titer level of <1:256 would maximize LTOWB production regardless of the method used. [ABSTRACT FROM AUTHOR]

Published

2024

46. Medically relevant radioisotope production through low energy heavy ion reactions.

Author

Mahato, Rahul, Singh, Dharmendra, Sharma, Nitin, Sahoo, Rajesh K., Chhura, Lupteindu, Mahato, Amritraj, Giri, Pankaj K., Linda, Sneha B., Kumar, Harish, Ali, Rahbar, Tali, Suhail A., Kumar, Sushil, Ansari, M. Afzal, Kumar, R., Muralithar, S., and Singh, R. P.

Subjects

*DEEP inelastic collisions, *PROTON beams, *ELECTRON emission, *RADIOISOTOPES, *PRODUCTION methods

Abstract

The emission of auger electrons from 161Ho makes it as a potential candidate for Auger electronic therapy. Despite several methods for its production are proposed, it remains scarcely available. Most of the direct methods using low-energy protons and deuterons beams result in a high content of radionuclidic impurities. Hence, an alternative method for the production of 161Ho has been proposed. Experimental excitation functions in 16O induced reactions were measured with the activation method in the 69–100 MeV energy range on 154Sm targets. To measure the cross-section data for producing 161Ho, the stacked foil irradiation method along with high-resolution gamma-ray spectrometry was employed. The experimental data are compared with results of PACE4 and EMPIRE-3.2.2 theoretical codes. It was observed that the 161Ho radioisotope is produced via incomplete fusion. The production route suggested has no impurities of Holmium isotopes. [ABSTRACT FROM AUTHOR]

Published

2024

47. Synthesis of 6‐R‐N‐aryl‐4‐(trichloromethyl)‐4H‐1,3,5‐oxadiazin‐2‐amines based on N‐(2,2,2‐trichloro‐1‐(3‐R‐thioureido)ethyl)carboxamides: Their spectral characteristics and molecular structure

Author

Lomynoha, Yelyzaveta R., Zadorozhnii, Pavlo V., Kiselev, Vadym V., and Kharchenko, Aleksandr V.

Subjects

*CARBOXAMIDES, *PRODUCTION methods, *TRIETHYLAMINE, *IODINE, *SPECTROMETRY

Abstract

In this work, we report the synthesis of a series of new 4H‐1,3,5‐oxadiazine derivatives. The method of their production is based on the dehydrosulfurization reaction of N‐(2,2,2‐trichloro‐1‐(3‐R‐thioureido)ethyl)carboxamides under the action of a mixture of iodine and triethylamine in DMF. A possible reaction mechanism has been proposed. The target products have been obtained in 58%–75% yield. The structure of the obtained compounds has been confirmed by 1H, 13C NMR, IR spectroscopy data, and x‐ray diffraction analysis carried out for 6‐(tert‐butyl)‐N‐phenyl‐4‐(trichloromethyl)‐4H‐1,3,5‐oxadiazin‐2‐amine. [ABSTRACT FROM AUTHOR]

Published

2024

48. The Influence of Risk Perceptions on Consumers’ Willingness to Pay for Nutrient-enhanced Microgreens.

Author

Rihn, Alicia, Walters, Kellie, and Bumgarner, Natalie

Subjects

*WILLINGNESS to pay, *WAGE decreases, *CONSUMER preferences, *LOGISTIC regression analysis, *PRODUCTION methods

Abstract

Microgreens are young plants used as ingredients and flavoring in various dishes. Their production time is short, and their production methods can be altered to enhance the nutritional content. To date, consumers’ preferences for microgreens that display different esthetic and nonesthetic traits have not been addressed. Additionally, consumers’ perceived risk of production methods used to enhance nutrition has not been investigated. An online survey and choice experiment involving a sample of 821 consumers in Tennessee were performed to investigate these topics. A mixed logit model was used to analyze the data. Both esthetic and nonesthetic traits influenced the consumers’ preferences. Green microgreens were preferred and valued more than light or dark purple microgreens. When fertilizer was used during production to enhance nutrients, consumers perceived the microgreens as riskier to the environment and for personal consumption relative to microgreens with light-induced nutrient enhancement. Using lighting during production to enhance nutrients generated a $0.47 to $0.79 premium relative to no nutrient enhancement. In general, if participants’ perceived risk aligned with the nutrient enhancement attribute (i.e., light, fertilizer), then their willingness to pay for the microgreens decreased. This was amplified for the fertilizer nutrient enhancement attribute more than it was for the light enhancement attribute. In-state production and microgreen height also impacted consumer preferences for microgreens. [ABSTRACT FROM AUTHOR]

Published

2024

49. Investigating a novel and highly efficient approach for the fabrication of diamond profile rollers using Wire Electrical Discharge Conditioning (WEDC).

Author

Khosravi, Jahangir, Azarhoushang, Bahman, Behjat, Saeed, and Zahedi, Ali

Subjects

*INDUSTRIAL diamonds, *GRINDING wheels, *MANUFACTURING processes, *GRAIN size, *PRODUCTION methods

Abstract

The fabrication of high-precision and high-performance profile rollers represents the main challenge of utilizing profile rollers as dressers to condition conventional grinding wheels. This results in high demands for an efficient process to manufacture profile rollers (form dressing wheels). Conventionally, diamond profile rollers have been produced through infiltration or negative electroplating methods. Nevertheless, these manufacturing methods suffer significant drawbacks, including extended production times and substantial costs. This study presents an innovative approach to fabricating diamond profile rollers using Wire Electrical Discharge Conditioning (WEDC). The WED-Conditioning emerges as an effective alternative to profile metal-bonded rotary diamond dressing tools. This innovative method leads to the production of diamond profile rollers in significantly shorter timeframes and at a more economical cost compared to the conventional manufacturing method with comparable quality. The research delves into the influence of profile roller specifications and conditioning strategies on the achievable profile accuracy and topography of the profile rollers. Also, the wear behavior of the WEDC-conditioned profile roller over long-term conditioning of conventional grinding wheels was studied. The findings highlight the significant contribution of the appropriate selection of WEDC strategies to the profile accuracy, with the potential to achieve profile accuracies comparable with conventional profile rollers. As well, grain size emerges as the primary determinant of achievable profile accuracy for profile rollers. The findings of this study could provide insights into optimizing the manufacturing process for super abrasive diamond profile rollers, thereby enabling their widespread use in the grinding industry. [ABSTRACT FROM AUTHOR]

Published

2024

50. DIMENSIONAMENTO DE EQUIPAMENTOS DE CARREGAMENTO E TRANSPORTE AUTÔNOMO: ESTUDO DE CASO DE UMA MINERADORA DO SUL DO PARÁ.

Author

Cavalcante Oliveira, Camila Fabiana and de Vilhena Costa, Leandro

Subjects

STRIP mining, CORRECTION factors, OPERATING costs, PRODUCTION quantity, PRODUCTION methods

Abstract

Copyright of Revista Foco (Interdisciplinary Studies Journal) is the property of Revista Foco 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

2024