Your search keyword '"VACUUM"' showing total 44,673 results

1. Soil Improvement Using Combined Vacuum and Fill Sur-Charge Method for the 3rd Runway of the Suvarnabhumi International Airport

Author

Gaëtan, Laudanski, Julien, Sevestre, Jian, Chu, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Rujikiatkamjorn, Cholachat, editor, Xue, Jianfeng, editor, and Indraratna, Buddhima, editor

Published

2025

2. Application of Statistical Analysis and Machine Learning to Identify Infants’ Abnormal Suckling Behavior

Author

Truong, Phuong, Walsh, Erin, Scott, Vanessa P, Leff, Michelle, Chen, Alice, and Friend, James

Subjects

Health Services and Systems, Engineering, Health Sciences, Biomedical Engineering, Dental/Oral and Craniofacial Disease, Bioengineering, Networking and Information Technology R&D (NITRD), Pediatric, Machine Learning and Artificial Intelligence, Clinical Research, Prevention, Breastfeeding, Lactation and Breast Milk, Perinatal Period - Conditions Originating in Perinatal Period, Reproductive health and childbirth, Humans, Machine Learning, Infant, Newborn, Infant, Female, Sucking Behavior, Male, Signal Processing, Computer-Assisted, Breast Feeding, Pediatrics, Shape, Shape measurement, Medical diagnostic imaging, Frequency measurement, Tongue, Surgery, Abnormal, ankyloglossia, breastfeeding, clinical, machine learning, diagnosis, digital assessment, Mahalanobis distance, non-nutritive suckling, vacuum, Biomedical engineering, Health services and systems

Abstract

ObjectiveIdentify infants with abnormal suckling behavior from simple non-nutritive suckling devices.BackgroundWhile it is well known breastfeeding is beneficial to the health of both mothers and infants, breastfeeding ceases in 75 percent of mother-child dyads by 6 months. The current standard of care lacks objective measurements to screen infant suckling abnormalities within the first few days of life, a critical time to establish milk supply and successful breastfeeding practices.Materials and methodsA non-nutritive suckling vacuum measurement system, previously developed by the authors, is used to gather data from 91 healthy full-term infants under thirty days old. Non-nutritive suckling was recorded for a duration of sixty seconds. We establish normative data for the mean suck vacuum, maximum suck vacuum, suckling frequency, burst duration, sucks per burst, and vacuum signal shape. We then apply computational methods (Mahalanobis distance, KNN) to detect anomalies in the data to identify infants with abnormal suckling. We finally provide case studies of healthy newborn infants and infants diagnosed with ankyloglossia.ResultsIn a series of case evaluations, we demonstrate the ability to detect abnormal suckling behavior using statistical analysis and machine learning. We evaluate cases of ankyloglossia to determine how oral dysfunction and surgical interventions affect non-nutritive suckling measurements.ConclusionsStatistical analysis (Mahalanobis Distance) and machine learning [K nearest neighbor (KNN)] can be viable approaches to rapidly interpret infant suckling measurements. Particularly in practices using the digital suck assessment with a gloved finger, it can provide a more objective, early stage screening method to identify abnormal infant suckling vacuum. This approach for identifying those at risk for breastfeeding complications is crucial to complement complex emerging clinical evaluation technology.Clinical impactBy analyzing non-nutritive suckling using computational methods, we demonstrate the ability to detect abnormal and normal behavior in infant suckling that can inform breastfeeding intervention pathways in clinic.Clinical and Translational Impact Statement: The work serves to shed light on the lack of consensus for determining appropriate intervention pathways for infant oral dysfunction. We demonstrate using statistical analysis and machine learning that normal and abnormal infant suckling can be identified and used in determining if surgical intervention is a necessary solution to resolve infant feeding difficulties.

Published

2024

3. Multi-step thermal design of microwave vacuum heating to basaltic regolith simulant towards lunar base construction.

Author

Kato, Kunihiko and Shirai, Takashi

Abstract

Humanned exploration and extended stay on the Moon are the hottest challenges today. We report highly robust materials by microwave heating under high-vacuum conditions (10− 3 Pa) from a basaltic regolith simulant (FJS-1) to ensure the feasibility of lunar infrastructure construction. The violent degassing dynamics were revealed by monitoring vacuum pressure during heating and analyzing the compounds evolved from basaltic silicate compounds: thermal pyrolysis of silicate compounds became more pronounced above 1000 oC, leading to a catastrophic deformation accompanied by forming countless pores of several hundred µm sizes. The preferential formation of the magnetite phase in vacuum heating dominantly caused the radical change in microwave absorption capacity compared with conventional heating routes using an electrical furnace in atmospheric conditions. Besides, the in-situ measurement of dielectric properties during microwave vacuum heating clarified the increase in one order of magnitude from 100 to 1000 oC. Based on the presumed phenomena during microwave-vacuum heating for basaltic regolith, we propose a new thermal design concept to overcome the practical limitations of microwave technology. The multi-step temperature profile successfully fabricated a highly robust product that demonstrated world-class mechanical performance, equivalent to the compressive strength of 65 MPa without any vigorous hydrostatic cold press as a pre-treatment. [ABSTRACT FROM AUTHOR]

Published

2024

4. Local existence of compressible magnetohydrodynamic equations without initial compatibility conditions.

Author

Zhang, Yiying, Guo, Zhenhua, and Fang, Li

Subjects

*EQUATIONS

Abstract

In this paper, we study the initial‐boundary value problem of three‐dimensional viscous, compressible, and heat conductive magnetohydrodynamic equations. Local existence and uniqueness of strong solutions are established with any such initial data that the initial compatibility conditions do not be required. The analysis is based on some suitable prior estimates for the strong coupling term u·∇H$$ u\cdotp \nabla H $$ and strong nonlinear term curlH×H$$ \operatorname{curl}\kern0.1em H\times H $$. Our proof of the existence and uniqueness of solutions is in the Lagrangian coordinates first and then transformed back to the Euler coordinates. [ABSTRACT FROM AUTHOR]

Published

2024

5. Non‐self‐similar solutions containing delta shock waves for nonhomogeneous zero‐pressure gas dynamics with energy conservation law by the viscosity method.

Author

Li, Shiwei and Wang, Hui

Subjects

*CONSERVATION of mass, *SHOCK waves, *CONSERVATION laws (Physics), *ENERGY conservation, *VISCOSITY

Abstract

This article considers the zero‐pressure gas dynamics governed by the conservation laws of mass, momentum, and energy with time‐dependent source terms. By adopting the vanishing viscosity method, we propose a viscous system to prove the stability of non‐self‐similar Riemann solutions including the delta shock wave and vacuum. [ABSTRACT FROM AUTHOR]

Published

2024

6. Evaluation of low-temperature glass fillers and joining of reaction-bonded silicon carbide ceramics at vacuum.

Author

Pan, Zihao, Wang, Bo, Zhang, Hui, Liu, Xuejian, and Liu, Yan

Subjects

*SHEAR strength, *SILICON carbide, *THERMAL expansion, *CERAMICS, *ZINC

Abstract

In this study, three distinct low-temperature glass fillers for vacuum-assisted joining of reaction-bonded silicon carbide (RB-SiC) were designed. Additionally, the physical properties, microscopic morphologies and joints strength of these glass fillers were investigated. The results indicate that Zinc Borosilicate (ZBS) glass filler is the most effective for joining RB-SiC under the specified conditions. ZBS demonstrates optimal glass skeleton for joining, a compatible coefficient of thermal expansion, and superior wettability compared to the other tested powders. Notably, the shear strength of the RB-SiC joints with ZBS reached 80 MPa, markedly surpassing that of Lead zinc borate (PZB) and Lead borosilicate (PBS) by 381 % and 400 %, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

7. Investigation of Nutrition and Printability of Orange Juice Sacs Applied to Heterogeneous 3D Printing: Influence of Pretreatment-Assisted Impregnation.

Author

Kong, Demei, Zhang, Min, Mujumdar, Arun S., Wang, Yuchuan, and Luo, Zhenjiang

Subjects

*ORANGE juice, *INHOMOGENEOUS materials, *THREE-dimensional printing, *GREEN tea, *PHENOLS

Abstract

The osmotically dehydrated orange juice sacs can serve as materials for heterogeneous 3D printing. Moreover, physical field-assisted such as ultrasound and vacuum, along with their combined application, were employed to enhance the impregnation of green tea polyphenol (GTP) and ascorbic acid (AA) during osmotic dehydration of orange juice sacs. This innovative approach not only compensates for the loss of water-soluble bioactive substances but also enhances the functional properties of heterogeneous 3D-printed food. The study assessed the impregnation effect of ultrasound (UOD), vacuum (VOD), and their synergistic pretreatment (UVOD) on the osmotic dehydration of orange juice sacs. Results indicated that the VOD-treated product exhibited the highest AA impregnation at 294.20 mg/100 g, while the UVOD-treated product demonstrated the best retention of phenolic compounds at 29.55 mg/g and also with best antioxidant activity. Quality attribute evaluation revealed that the UOVD-treated product displayed the lowest water content (66.44%), the softest texture, and superior color and aroma retention compared to the untreated orange juice sacs. In printing experiments, it was observed that the addition of 1–3% orange juice sacs resulted in successful printing using a 2.5 mm printing nozzle, achieving high precision and aesthetically pleasing outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

8. Prise en charge de la dysfonction érectile, une pathologie multifactorielle.

Author

Puissant, Cyril

Abstract

Copyright of Actualités Pharmaceutiques is the property of Elsevier B.V. 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

9. Remark on the Local Well-Posedness of Compressible Non-Newtonian Fluids with Initial Vacuum.

Author

Al Baba, Hind, Al Taki, Bilal, and Hussein, Amru

Abstract

We discuss in this short note the local-in-time strong well-posedness of the compressible Navier–Stokes system for non-Newtonian fluids on the three dimensional torus. We show that the result established recently by Kalousek, Mácha, and Nečasova in can be extended to the case where vanishing density is allowed initially. Our proof builds on the framework developed by Cho, Choe, and Kim in for compressible Navier–Stokes equations in the case of Newtonian fluids. To adapt their method, special attention is given to the elliptic regularity of a challenging nonlinear elliptic system. We show particular results in this direction, however, the main result of this paper is proven in the general case when elliptic W 2 , p -regularity is imposed as an assumption. Also, we give a finite time blow-up criterion. [ABSTRACT FROM AUTHOR]

Published

2024

10. Tribological behavior of TiN, AlTiN, and AlTiCrN coatings in atmospheric and vacuum environments.

Author

Hwang, Youn-Hoo, Seo, Kuk-Jin, Kim, Tae-Hyeong, Min, You Jin, Liu, Yuzhen, and Kim, Dae-Eun

Subjects

VAPOR-plating, STAINLESS steel, SUBSTRATES (Materials science), SURFACE coatings, TITANIUM nitride

Abstract

In this study, the tribological characteristics of TiN, AlTiN, and AlTiCrN coatings sliding against a SUS420J1 stainless steel pin were investigated in atmospheric and vacuum environments. The coatings were deposited on SUS440C substrates using the arc-physical vapor deposition technique. The friction and wear behavior of the coatings were evaluated based on the systematic analyses of the friction coefficient data as well as the physical and chemical state of the wear track. The results revealed that the friction coefficients of the SUS440C specimen and AlTiCrN coatings increased, whereas those of the TiN and AlTiN coatings decreased when the environment was changed from atmospheric to vacuum. It was confirmed that the formation of an oxide layer and adsorption of oxides on the surface were dominant factors that influenced the tribological behavior in the atmospheric environment. On the other hand, the compatibility, oxidation inhibition, and droplets of the surface mainly affected the frictional characteristics in the vacuum environment. The results of this work are expected to aid in the selection of proper coating materials for tribological systems operating in a vacuum. [ABSTRACT FROM AUTHOR]

Published

2024

11. Hilbert expansion of Boltzmann equations for gas mixture.

Author

Wu, Tianfang and Yang, Xiongfeng

Subjects

*GAS mixtures, *BOLTZMANN'S equation, *KNUDSEN flow, *EQUILIBRIUM

Abstract

The aim of this paper is to study the hydrodynamic limit of Boltzmann equations for a gas mixture containing two kinds of particles, where one is assumed to be near a vacuum and the other is near a Maxwellian equilibrium state. By the method of Hilbert expansion, we could derive the compressible Euler systems together with the terms of Boltzmann equations according to the different orders of the Knudsen number. Next, we truncate the expansion and establish the uniform estimates of the remainder term by using $ L^2 \,- \, L^{\infty } $ L 2 − L ∞ estimate. [ABSTRACT FROM AUTHOR]

Published

2024

12. Join point trends of instrumental vaginal deliveries and cesarean sections at the Lagos University Teaching Hospital, Lagos, Nigeria (2002–2017).

Author

Olamijulo, Joseph Ayodeji, Aliyu, Zubaida, Olorunfemi, Gbenga, Adeyinka, Ayotunde Tanimola, Ubom, Akaninyene Eseme, and Abikoye, Olabisi

Subjects

*CESAREAN section, *DELIVERY (Obstetrics), *SECOND stage of labor (Obstetrics), *TEACHING hospitals, *UNIVERSITY hospitals

Abstract

Objective: To determine the trends of instrumental vaginal delivery (IVD) and cesarean section (CS) at the Lagos University Teaching Hospital (LUTH), Nigeria, over 16 years, from 2002 to 2017. Methods: A retrospective cross‐sectional study. The case records of all women who had IVD and CS during the study period were reviewed. The trends in the IVD and CS rates were evaluated using join point regression modeling. The average annual percent change (AAPC) and annual percent change (APC) with associated 95% confidence interval of segmental trends were calculated. Results: The overall IVD rate was 1.36%. Vacuum delivery rate was higher than forceps (0.79% vs 0.57%). The CS rate was 44.9 per 100 deliveries; the rate increased by about 3.7% per annum. CS rates were 7.1–89.9 times the IVD rates within the study period. The number of IVDs performed in the hospital declined by about 83.02%, from 53 cases in 2002 to nine cases in 2017. Forceps delivery declined at a faster rate than vacuum delivery between 2002 and 2017 (AAPC for forceps: −12.6% [−17.5 to −7.5], P < 0.001 vs AAPC for vacuum: −6.2% [−14.3 to 2.7], P = 0.200). The commonest indication for IVD was prolonged second stage of labor (47/162, 29.01%) and shortening of the second stage of labor for maternal conditions (47/162, 29.01%). Conclusion: IVD rates are low and declining at LUTH. There is need to train accoucheurs on the safe use of IVDs to potentially reduce the CS rate. Synopsis: The present study corroborates global reports of declining IVD rates and increasing CS rates. There is need to increase IVD use to potentially reduce CS rate. [ABSTRACT FROM AUTHOR]

Published

2024

13. Comparative performance of industrial-scale oxygen production by pressure swing adsorption and vacuum pressure swing adsorption under plateau environment.

Author

Zhu, Xianqiang, Sun, Yuan, Zhou, Shidong, Feng, Fangrui, Liu, Jiahui, Ma, Jiayun, Li, Shuhui, and Niu, Zehao

Abstract

Oxygen conditioning on a large scale could effectively improve living and working conditions to relieve the hypoxia of plateau environment. Industrial-scale pressure swing adsorption (PSA) and vacuum pressure swing adsorption (VPSA) medical oxygen production systems are designed for supplying oxygen at high altitude of 3800 m areas. The effects of process parameters and key steps on the performance of PSA and VPSA processes have been experimentally compared and analyzed. The results show that the adsorption time, pressure equalization and purge step are key factors of affecting the oxygen production performance. The PSA cycle with pressure equalization of product end and continuous purge could produce ~ 93% O2 with recovery of 45.4% from compressed air and the minimum energy consumption is 1.21 kW·Nm− 3. The VPSA cycle with pressure equalization of product end and intermittent purge could produce ~ 93% O2 with recovery of 54% from super-atmospheric air and the minimum energy consumption is 0.68 kW·Nm− 3. [ABSTRACT FROM AUTHOR]

Published

2024

14. Global existence and exponential decay of strong solutions to the 3D nonhomogeneous nematic liquid crystal flows with density-dependent viscosity.

Author

Li, Huanyuan and Liu, Jieqiong

Subjects

*NEMATIC liquid crystals, *BOUNDARY value problems, *INITIAL value problems, *VISCOSITY, *VELOCITY

Abstract

In this paper, we consider an initial and boundary value problem to the three-dimensional (3D) nonhomogeneous nematic liquid crystal flows with density-dependent viscosity and vacuum. Combining delicate energy method with the structure of the system under consideration, the global well-posedness of strong solutions is established, provided that ‖ ρ 0 ‖ L 1 + ‖ ∇ d 0 ‖ L 2 is suitably small. In particular, the initial velocity can be arbitrarily large. Moreover, the exponential decay rates of the strong solution are also obtained. [ABSTRACT FROM AUTHOR]

Published

2024

15. Vitrektomi Cihazlarında Pompa, Vakum, İnfüzyon ve Göz İçi Basınç Kontrolü.

Author

BULUT, Muhammed Nurullah, HACISALİHOĞLU, Aynur, and BULUT, Kezban

Subjects

INTRAOCULAR pressure, PRESSURE control, HYBRID systems, INFORMATION storage & retrieval systems, VACUUM pumps

Abstract

Copyright of Current Retina Journal / Güncel Retina Dergisi is the property of Anadolu Kitabevi Basim Yayim Medikal Turizm Kirtasiye Tic. Ltd. Sti. 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

16. Risk of cervical laceration in forceps vs vacuum delivery: A systematic review and meta‐analysis.

Author

Hossein‐Pour, Parnian, Rajasingham, Maya, and Muraca, Giulia M.

Subjects

*DELIVERY (Obstetrics), *PREMATURE labor, *POSTPARTUM hemorrhage, *FORCEPS, *DATA extraction

Abstract

Introduction Material and Methods Results Conclusions Cervical laceration is an obstetric injury associated with severe postpartum hemorrhage and subsequent spontaneous preterm birth. While operative vaginal delivery is a known risk factor for cervical laceration, it is unclear whether forceps and vacuum deliveries incur the same risk. The aim of this systematic review was to compare the risk of cervical laceration between operative instruments (forceps vs vacuum).Medline, Embase, Global Health, CENTRAL, Emcare, and Web of Science were searched from inception until August 2024 with terms related to operative vaginal delivery and cervical laceration. Studies comparing the risk of cervical laceration in individuals undergoing forceps or vacuum delivery were included. Two authors conducted screening, data extraction, and quality assessment of all studies. Random‐effects models were used to pool risk ratios across studies and certainty of evidence was assessed using Cochrane methods and the GRADE approach. PROSPERO Registration Number CRD42023421890.Thirteen studies were eligible for inclusion, 3 randomized controlled trials (RCTs) and 10 observational studies. The overall rate of cervical laceration was 0.35% (990/284218 births) where 1.04% of forceps deliveries (456/43817) were complicated by cervical laceration compared to 0.22% of vacuum deliveries (534/240401). The risk of cervical laceration was 2–5 fold greater in forceps deliveries than in vacuum deliveries: pooled unadjusted risk ratio [RR] 4.83, 95% confidence interval [CI] 1.56–14.98 among RCTs and pooled unadjusted RR 1.89, 95% CI 1.59–2.24 among observational studies. The overall quality of evidence was low to moderate mainly due to the lack of attention to confounding in the included literature. The GRADE assessment indicated that the certainty of evidence was very low for observational studies and moderate for RCTs.Low certainty of evidence indicates that forceps deliveries may be associated with an increased risk of cervical laceration compared to vacuum deliveries. [ABSTRACT FROM AUTHOR]

Published

2024

17. Vacuum-based and body-mounted robotic-patient interface with an integrated metasurface for MRI-guided interventions.

Author

Vogt, Ivan, Engel, Nico, Eisenmann, Marcel, Odenbach, Robert, Kowal, Robert, Düx, Daniel, Hensen, Bennet, Gutberlet, Marcel, Wacker, Frank, and Rose, Georg

Subjects

CLINICAL trials, ROBOTICS, MAGNETIC resonance imaging, WORKFLOW, MANAGEMENT

Abstract

The increased clinical relevance of image-guided procedures, particularly of interventional magnetic resonance imaging (iMRI), highlights the need for advanced devices and robotics to optimize those procedures. To enable a realistic integration of robotics into the clinical workflow, robotic-patient interfaces (RPI) are required to ensure both functionality and usability. However, current concepts have issues with patient accessibility and safety, user handling, or performing interventions on versatile body regions. This work presents a novel silicone-based RPI to flexibly mount the 'Micropositioning Robotics for Image-Guided Surgery' (μRIGS) system on differently shaped body regions through vacuum, regulated with an electronic miniature pump. Maximum holding forces of 60N at −0.1 bar and 66N at −0.2 bar relative vacuum pressure were reached depending on the applied human body area and tensile force angles. MRI with the integrated metasurface indicated up to 200% signal enhancement, enabling improved tissue contrast within the first 20mm in depth. The multifunctional design supported the incorporation of the sterile iMRI workflow concept. This RPI enables a realistic integration of future technologies such as miniature robots, tracking markers, and instrument holders into complex interventional workflows. Further long-term studies are needed to evaluate the effects of vacuum application lasting for 1-2 hours on different skin types. [ABSTRACT FROM AUTHOR]

Published

2024

18. On the global well-posedness and exponential stability of 3D heat conducting incompressible Navier-Stokes equations with temperature-dependent coefficients and vacuum.

Author

He, Jianxia and Li, Qingyan

Subjects

*EXPONENTIAL stability, *NAVIER-Stokes equations, *VISCOSITY, *THERMAL conductivity, *THERMAL properties

Abstract

This paper focuses on investigating the initial-boundary value problem of incompressible heat conducting Navier-Stokes equations with variable coefficients over bounded domains in R 3 , where the viscosity coefficient and heat conduction coefficient are powers of temperature. We obtain the global well-posedness of a strong solution under the assumption that the initial data and the measure of the initial vacuum region are sufficiently small. It is worth mentioning that the initial density is allowed to contain vacuum, and there are no restrictions on the power index of the temperature-dependent viscosity coefficient and heat conductivity coefficient. At the same time, the exponential decay-in-time results are also obtained. [ABSTRACT FROM AUTHOR]

Published

2024

19. Influence of different storage atmospheres in packaging on color stability of beef.

Author

Krell, Johannes, Poveda‐Arteaga, Alejandro, Weiss, Jochen, Witte, Franziska, Terjung, Nino, and Gibis, Monika

Subjects

*COLORIMETRY, *BEEF industry, *VACUUM packaging, *COLOR of meat, *MEAT packaging

Abstract

The influence of storage atmosphere on the color development and myoglobin (Mb) redox state of beef was investigated. Beef samples were packaged in 6 different atmospheres including different degrees of vacuum, levels of oxygen, nitrogen, and a mixture with 20% CO2 and stored at 2°C for 14 days. Over this time, color and reflection of the packaged samples were measured. The used method allows quick, easy, and non‐invasive measurement of the packaged samples, without using time consuming chemical assays. The method could be implemented in beef production lines, with potential for automatization. The data was used to illustrate the L*a*b* values for insights regarding qualitative color changes. Quantitative color changes were analyzed by calculation of color difference ΔE2000. Additionally, the relative levels of the deoxymyoglobin (DMb), oxymyoglobin (OMb) and metmyoglobin (MMb) were calculated from reflection spectra. The most important findings are: there is a strong correlation (rsp = 0.80 to 0.99 with one exception at rsp = 0.69 (high vacuum), p ≤ 0.05) between a* values and relative OMb levels. Storage atmospheres containing high oxygen concentrations lead to an attractive meat color, but a decreased overall color and Mb stability (ΔE = 5.02 (synthetic air) and ΔE = 2.23 (high oxygen) after 14 days of storage). Vacuum packaged samples are most stable in regards of color and Mb stability (ΔE = 1.79 (high vacuum) and ΔE = 1.63 (low vacuum) after 14 days of storage), but lack in the vibrant red color desired for sale. The experiments showed that color measurement can be a fast, non‐invasive marker for meat quality. Practical Application: In this research article, six different storage atmospheres are compared regarding their influence on color stability and color quality of beef during storage in packaging. The results suggest which atmospheres to use in various sales‐related scenarios. The method described can easily be applied in the meat industry to quickly monitor changes during storage and wet‐aging without damaging the meat or opening the meat packages. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effect of vacuum combined with ultrasound on color protection of pomegranate juice.

Author

Jiang, Chunlu, Zhang, Min, Wang, Yuchuan, Shen, Dongbei, Law, Chung Lim, and Luo, Zhenjiang

Subjects

POMEGRANATE juice, OXIDANT status, VACUUM technology, FOOD industry, ULTRASONIC imaging, POLYPHENOL oxidase

Abstract

Pomegranate juice is prone to color fission during processing and storage due to the instability of anthocyanins, resulting in significant economic losses. This study aims to inhibit the browning of pomegranate juice during processing using the combined technology of vacuum and ultrasound for maintaining its color as much as possible. Pomegranate juice was treated with vacuum (0.5 MPa) and ultrasound (300, 600, 900, 1200, and 1500 W; 15, 20, 25, 30, and 35 min), respectively, to investigate the effects on the color, antioxidant capacity, anthocyanin/polyphenol content, and polyphenol oxidase activity of pomegranate juice. The results showed that the combined treatment of vacuum and ultrasound had a better effect on improving the total anthocyanin content of pomegranate juice than vacuum or ultrasound treatment alone. Vacuum combined with ultrasound can reduce the browning during pomegranate juice processing, increasing browning inhibition rates by 46.01% and 46.19%; reduce the activity of PPO enzyme and increase the inhibition rate of PPO enzyme activity by 35.58%; maintain a high total phenolic content, increasing the total phenolic content of pomegranate juice by 29.27% and 33.79%, respectively; and improve the ABTS scavenging rates by 2.89% and 1.92%, and increase DPPH scavenging rates by 1.35% and 3.01%. Moreover, vacuum ultrasound treatment had no significant effect on the odor of pomegranate juice. Vacuum combined with ultrasonic treatment is beneficial for protecting the color of pomegranate juice and improving its antioxidant performance during the processing. Therefore, combined technology of vacuum and ultrasound would be a promising method for future food processing. Practical applications: This study provides a simple and novel method for protecting the color of pomegranate juice during processing. The combination of vacuum and ultrasound has a certain protective effect on the color of pomegranate juice during processing, and also provides new ideas for color protection research. [ABSTRACT FROM AUTHOR]

Published

2024

21. Preliminary Removal of Mercury from Depleted Coal Sorbents by Thermal Vacuum Method with Associated Extraction of Precious Metal Composite.

Author

Kenzhaliyev, Bagdaulet, Trebukhov, Sergey, Volodin, Valeriy, Nitsenko, Alina, Kilibayev, Yerkebulan, Kolesnikova, Olga, and Linnik, Xeniya

Subjects

METALLIC composites, PRECIOUS metals, ELECTRIC furnaces, VACUUM technology, FURNACES, MERCURY

Abstract

This paper presents the results of laboratory studies for the distillation of mercury from depleted coal sorbents produced in gold recovery factories using CIP technology. The mercury content in these materials is more than 1%. The developed technology was tested in a large-scale laboratory on a pilot vacuum sublimation electric furnace with the rheological movement of dispersed material. The use of this equipment makes it possible to demercurize various materials with fairly high moisture (up to 20%). It eliminates the use of an additional technological operation—drying the material in a vacuum drying oven. It has been shown that a high degree of mercury distillation is achieved (more than 99.8%) at 350–400 °C in the reaction space and residual pressure in the system of less than 1.33 kPa, with residual mercury content in the material of less than 0.001% (10 mg/kg), which complies with the European environmental standards. Mercury-free coal sorbents are sent for combustion for the additional extraction of precious metal composites. The proposed vacuum technology is characterized by its environmental safety because the process is performed in sealed equipment, eliminating toxic emissions of mercury vapor into the atmosphere. The proposed vacuum technology equipment is characterized by reliability and ease of use. [ABSTRACT FROM AUTHOR]

Published

2024

22. 铀矿实物地质资料保护技术探究 — 以铀矿岩心保护为例.

Author

田宇, 刘丹, and 陈江源

Abstract

Copyright of Uranium Geology is the property of Uranium Geology 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

23. Research on DC switching based piezoelectric actuator.

Author

Al-Dweikat, Mohmmad, Zhang, Guogang, Liu, Yu, and Cui, Jian

Subjects

PIEZOELECTRIC actuators, HYBRID integrated circuits, ELECTRIC circuit breakers, FINITE element method, ELECTRIC circuits

Abstract

Piezoelectric actuators provide several advantages, including rapid response time, travel control, high resolution and actuation efficiency. They are a good candidate for actuating mechanical switches designed for electrical circuit breakers. This study investigates the utilisation of an Amplified Piezoelectric Actuator (APA) in Block-Free (B-F) operational mode as an actuation unit for a Fast-Mechanical Switch (FMS) and an Ultra-Fast Disconnector (UFD) to be utilised in a DC Hybrid Circuit Breaker (HCB). Initially, the principle and construction of the piezoelectric actuator actuating scheme were described and illustrated. A Finite Element Analysis (FEA) model was built to simulate and analyse the presented switch/disconnector static and dynamic behaviours. A prototype was constructed based on calculations, and the travel characteristics were experimentally validated. Subsequently, the proposed switch/disconnector was insulated once in a vacuum and later in a nitrogen gas interruption chamber. Both arrangements were integrated into a DC Hybrid Circuit Breaker test platform to investigate their interruption features. Results show that the presented switch/disconnector achieved a total gap of approximately 1 mm in 1.4 ms and interrupted a DC power of 0.6 kV/60 A within 0.85–1.5 ms in vacuum and 0.98–1.45 ms in nitrogen gas. [ABSTRACT FROM AUTHOR]

Published

2024

24. Mathematical Modelling and Optimization of Seed Metering Unit Performance in Precision Peanut Seeding.

Author

Da Costa, Eudulino and Yazgi, Arzu

Subjects

RESPONSE surfaces (Statistics), MATHEMATICAL optimization, FEED quality, SOWING, MATHEMATICAL models

Abstract

The objective of this study was to determine, develop mathematical models, and optimize the in-row seed distribution uniformity performance of a vacuum-type seed metering unit in peanut seeding under different operating conditions. The greased belt stand trials based on the Central Composite Design (CCD) were. Quality of feed index, multiple index, miss index, precision, and coefficient of precision were examined as dependent variables, while the peripheral speed of the seed plate, hole diameter of the seed plate, and vacuum pressure were selected as independent variables. Based on the analysis of experimental data from five different levels of each independent variable, performed using the CCD, a meaningful mathematical model was developed in cubic form for the quality of feed index for peanut seeding, and the model was optimized. The ideal conditions were determined from the model as 0.079 ms−1, 6.94 mm, and 7.07 kPa for peripheral speed of the seed plate, hole diameter, and vacuum pressure, respectively. Based on the findings, quality in seeding by selecting the parameters that affect the performance of precision peanut seeding can be enhanced, resulting in valuable information that can be used as a useful guide to farmers, machine manufacturers, and researchers. [ABSTRACT FROM AUTHOR]

Published

2024

25. Blowup criterion for the Cauchy problem of 2D compressible viscous micropolar fluids with vacuum.

Author

Dayong Huang and Guoliang Hou

Subjects

CAUCHY problem, ROTATIONAL motion, FLUIDS, VELOCITY, DENSITY

Abstract

In this study, we establish a regular criterion for the 2D compressible micropolar viscous fluids with vacuum that is independent of the velocity of rotation of the microscopic particles. Specifically, we show that if the density verifies ||ρ||L∞(0,T;L∞) < ∞, then the strong solution will exist globally on R² x(0, T). Consequently, we generalize the results of Zhong (Discrete Contin. Dyn. Syst. Ser. B, 25 (2020), no. 12, 4603–4615) to the compressible case. In particular, we don’t need the additional compatibility condition. [ABSTRACT FROM AUTHOR]

Published

2024

26. Production of Neutron-Absorbing Zirconium-Boron Alloy by Self-Propagating High-Temperature Synthesis and Its Refining via Electron Beam Melting.

Author

Mukhachev, Anatoly, Yelatontsev, Dmytro, Kharytonova, Olena, and Grechanyuk, Nickolay

Subjects

ZIRCONIUM alloys, SELF-propagating high-temperature synthesis, ELECTRON beam furnaces, THERMAL neutron capture, CRYSTALLIZATION

Abstract

The paper presents the results of the study of the processes of self-propagating high-temperature synthesis of Zr-1%B alloy and its refining by electron beam melting. Experiments on the influence of boron's amorphous and crystalline modifications on the safety parameters of the synthesis process of Zr-1%B alloy necessitated the conversion of amorphous boron into crystalline form by electron beam melting, with an increase in its purity from 94% to 99.9%. High efficiency of vacuum induction and electron beam equipment was demonstrated, which provided a high purity of the Zr-1%B alloy of at least 99.9%. The alloy ingots had a uniform distribution of the alloying element (boron) all over the volume. The obtained alloy is suitable for the production of materials with thermal neutron capture cross-sections of up to 40 barns for neutron protection. [ABSTRACT FROM AUTHOR]

Published

2024

27. Pulsed vacuum drying of fruits, vegetables, and herbs: Principles, applications and future trends.

Author

Zhang, Wei‐Peng, Chen, Chang, Ju, Hao‐Yu, Okaiyeto, Samuel Ariyo, Sutar, Parag Prakash, Yang, Li‐Yi, Li, Suo‐Bin, and Xiao, Hong‐Wei

Subjects

FOOD quality, FARM produce, FRUIT drying, FOOD dehydration, FOOD science

Abstract

Pulsed vacuum drying (PVD) is a novel vacuum drying method that has demonstrated significant potential in improving energy efficiency and product quality in the drying of foods and agricultural products. The current work provides a comprehensive analysis of the latest advancements in PVD technology, including its historical development, fundamental principles, and mechanistic aspects. The impact of periodic pulsed pressure changes between vacuum and atmospheric pressure on heat and moisture transfer, as well as structural changes in foods at micro‐ and macro‐scales, is thoroughly discussed. The article also highlights the influential drying parameters, the integration of novel auxiliary heaters, and the applications of PVD across various fruits, vegetables, and herbs. Furthermore, the review examines the current status and needs for mathematical modeling of PVD processes, identifying key challenges, research opportunities, and future trends for industrial application. The findings suggest that PVD not only enhances drying efficiency and reduces energy consumption but also preserves the nutritional value, color, and texture of dried products better than traditional methods. Future research should focus on optimizing process parameters and integrating advanced control systems to further improve the scalability and applicability of PVD technology in the food industry. [ABSTRACT FROM AUTHOR]

Published

2024

28. THE ASTONISHING CONFLICT OF TIME DILATION WITHIN RELATIVITY.

Author

de Abreu, Rodrigo

Subjects

SPECIAL relativity (Physics), TIME dilation, VACUUM, SPEED of light, SYNCHRONIZATION

Abstract

We show that if we assume the existence of a frame in vacuum where the oneway speed of light is c (c is the measured value of the two-way speed of light in vacuum) than for another frame moving with velocity v1 in relation to that frame we can have time dilation, time contraction or no difference of proper times change at all. Therefore, the standard formulation is a result of a misinterpretation of the mathematical expression between the relation of the proper time of the moving frame in relation to the difference of times of Lorentzian clocks, the so-called time dilation. This is an astonishing conflict that standard formulation cannot solve. This result is easily obtained if we assume time dilation in relation to Einstein Frame (EF) the frame where the speed of light is isotropic. [ABSTRACT FROM AUTHOR]

Published

2024

29. Multi-step thermal design of microwave vacuum heating to basaltic regolith simulant towards lunar base construction

Author

Kunihiko Kato and Takashi Shirai

Subjects

Regolith, Microwave, Lunar base construction, Vacuum, FJS-1, Medicine, Science

Abstract

Abstract Humanned exploration and extended stay on the Moon are the hottest challenges today. We report highly robust materials by microwave heating under high-vacuum conditions (10− 3 Pa) from a basaltic regolith simulant (FJS-1) to ensure the feasibility of lunar infrastructure construction. The violent degassing dynamics were revealed by monitoring vacuum pressure during heating and analyzing the compounds evolved from basaltic silicate compounds: thermal pyrolysis of silicate compounds became more pronounced above 1000 oC, leading to a catastrophic deformation accompanied by forming countless pores of several hundred µm sizes. The preferential formation of the magnetite phase in vacuum heating dominantly caused the radical change in microwave absorption capacity compared with conventional heating routes using an electrical furnace in atmospheric conditions. Besides, the in-situ measurement of dielectric properties during microwave vacuum heating clarified the increase in one order of magnitude from 100 to 1000 oC. Based on the presumed phenomena during microwave-vacuum heating for basaltic regolith, we propose a new thermal design concept to overcome the practical limitations of microwave technology. The multi-step temperature profile successfully fabricated a highly robust product that demonstrated world-class mechanical performance, equivalent to the compressive strength of 65 MPa without any vigorous hydrostatic cold press as a pre-treatment.

Published

2024

30. Silage harvesting for small farms by using vacuum sealing in flexible polymer containers on a converted trailer

Author

Kanat Khazimov, Yelaman Zhumagaliyev, Zhanat Khazimov, and Marat Khazimov

Subjects

ensiling, flexible container, forage trailer, livestock machinery, silage, vacuum, River, lake, and water-supply engineering (General), TC401-506, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978

Abstract

The article presents an analysis of milk production in Kazakhstan and identifies the reason for its low level, which is due to deficient feed, especially in small farms and in the private sector. The difficulty of saving the limited silage volume is due to the lack of preparation technology for preventing spoilage. The objective of this work is to complete the necessary equipment of a mobile tractor-trailer to reduce the specific energy consumption when preparing silage in flexible containers using a vacuum seal to increase the productivity of dairy cattle farming in smallholder and the private sector of the Republic. The basic rational parameters for sealing the silage by vacuum in the field on a mobile tractor-trailer for ease of transport and storage are obtained: silage weight in a flexible container – 769.6 kg, geometric dimensions of the sealed container by height (0.90 m), width (0.85 m) and length (0.85 m). The efficiency of the specific energy consumption of the proposed method for silage preparation is established at 35% compared with the traditional method. The recommended technology of silage preparation in flexible containers will be possible when conventional tractor-trailers are retrofitted with standard portable equipment (internal combustion engine-based (ICE) electric generator, vacuum pump, film welder).

Published

2024

31. Thin-film electrodes of dielectric elastomer-based actuators for an active vibration control system

Author

V. S. Shcherbakova, A. M. Bazinenkov, S. V. Sidorova, A. D. Kouptsov, and D. A. Ivanova

Subjects

vibration control, vibration isolation, dielectric elastomer, actuator, deformation, vacuum, thin films, ion treatment, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Precision research and technological equipment, as a rule, is not able to provide its specification characteristics without a high-quality vibration protection system. Active vibration control of an object is provided with the help of an additional source of movement, an actuator. The most promising high accuracy actuators are based on smart materials, such as materials with shape memory, piezoelectric and magnetostrictive materials, electro- and magnetic active fluids and elastomers. Dielectric elastomer is one of the types of electroactive polymers. Actuators based on a dielectric elastomer show high performance in terms of accuracy and speed and operate due to the controllable deformation of the elastomer under the action of a high voltage electric field. The paper provides a comparison of actuators based on sheet and thin film control electrodes. The influence of the quality of the polymer surface and the type of electrodes on the travel range of the actuator and maximum amplitude of vibrations the system can suppress on the basis of a dielectric elastomer is estimated. The formation of the electrode by magnetron sputtering in vacuum makes it possible to create a thin-film layer of copper that covers the elastomer, despite the developed surface. The effect of ion treatment of an elastomer before coating on the quality of the formed electrode is considered. After the ion treatment, the surface of the elastomer acquires a more uniform regular structure. A thin-film electrode layer is formed according to the topology of the elastomer to an accomplished standard.

Published

2024

32. Design, test, and verification of in-situ condition preserved coring and analysis system in lunar-based simulation environment

Author

Haichun Hao, Mingzhong Gao, Yan Wu, Zheng Gao, Yongcheng Li, Xuemin Zhou, Peng Chu, Xuan Wang, Jiahua Li, Lang Zhou, Jie Song, Tianxiang Ao, and Yikun Yang

Subjects

Lunar-based, Large temperature difference, Vacuum, Drilling and coring, System design, Mining engineering. Metallurgy, TN1-997

Abstract

The lunar surface and its deep layers contain abundant resources and valuable information resources, the exploration and exploitation of which are important for the sustainable development of the human economy and society. Technological exploration and research in the field of deep space science, especially lunar-based exploration, is a scientific strategy that has been pursued in China and worldwide. Drilling and sampling are key to accurate exploration of the desirable characteristics of deep lunar resources. In this study, an in-situ condition preserved coring (ICP-Coring) and analysis system, which can be used to test drilling tools and develop effective sampling strategies, was designed. The key features of the system include: (1) capability to replicate the extreme temperature fluctuations of the lunar environment (−185 to 200 °C) with intelligent temperature control; (2) ability to maintain a vacuum environment at a scale of 10−3 Pa, both under unloaded conditions within a ϕ580 mm × 1000 mm test chamber, and under loaded conditions using a ϕ400 mm × 800 mm lunar rock simulant; (3) application of axial pressures up to 4 MPa and confining pressures up to 3.5 MPa; (4) sample rotation at any angle with a maximum sampling length of 800 mm; and (5) multiple modes of rotary-percussive drilling, controlled by penetration speed and weight on bit (WOB). Experimental studies on the drilling characteristics in the lunar rock simulant-loaded state under different drill bit-percussive-vacuum environment configurations were conducted. The results show that the outgassing rate of the lunar soil simulant is greater than that of the lunar rock simulant and that a low-temperature environment contributes to a reduced vacuum of the lunar-based simulated environment. The rotary-percussive drilling method effectively shortens the sampling time. With increasing sampling depth, the temperature rise of the drilling tools tends to rapidly increase, followed by slow growth or steady fluctuations. The temperature rise energy accumulation of the drill bits under vacuum is more significant than that under atmospheric pressure, approximately 1.47 times higher. The real-time monitored drilling pressure, penetration speed and rotary torque during drilling serve as parameters for discriminating the drilling status. The results of this research can provide a scientific basis for returning samples from lunar rock in extreme lunar-based environments.

Published

2024

33. Production of Neutron-Absorbing Zirconium-Boron Alloy by Self-Propagating High-Temperature Synthesis and Its Refining via Electron Beam Melting

Author

Anatoly Mukhachev, Dmytro Yelatontsev, Olena Kharytonova, and Nickolay Grechanyuk

Subjects

zirconium, boron, calcium, argon, vacuum, electron beam furnace, Engineering (General). Civil engineering (General), TA1-2040, Mining engineering. Metallurgy, TN1-997, Chemical technology, TP1-1185

Abstract

The paper presents the results of the study of the processes of self-propagating high-temperature synthesis of Zr-1%B alloy and its refining by electron beam melting. Experiments on the influence of boron’s amorphous and crystalline modifications on the safety parameters of the synthesis process of Zr-1%B alloy necessitated the conversion of amorphous boron into crystalline form by electron beam melting, with an increase in its purity from 94% to 99.9%. High efficiency of vacuum induction and electron beam equipment was demonstrated, which provided a high purity of the Zr-1%B alloy of at least 99.9%. The alloy ingots had a uniform distribution of the alloying element (boron) all over the volume. The obtained alloy is suitable for the production of materials with thermal neutron capture cross-sections of up to 40 barns for neutron protection.

Published

2024

34. Parton cascades at DLA: The role of the evolution variable.

Author

Andrés, Carlota, Apolinário, Liliana, Armesto, Néstor, Cordeiro, André, Dominguez, Fabio, and Milhano, José Guilherme

Subjects

*QUENCHING (Chemistry), *PARTONS, *DECOHERENCE (Quantum mechanics), *VACUUM, *QUANTUM mechanics

Abstract

The theoretical treatment of jet quenching lacks a full description of the interplay between vacuum-like emissions, usually formulated in momentum space, and medium induced ones that demand an interface with a spacetime picture of the expanding medium and thus must be formulated in position space. In this work we build a toy Monte-Carlo parton shower ordered in formation time, virtual mass, and opening angle, which are equivalent at leading logarithmic accuracy. Aiming to explore a link with jet substructure, we compute the Lund plane distributions for the different ordering prescriptions. Further, we investigate the sensitivity of ordering prescriptions to medium effects by counting the number of events eliminated by a decoherence condition. [ABSTRACT FROM AUTHOR]

Published

2024

35. Vacuum Ultraviolet (VUV) Light Photofunctionalization to Induce Human Oral Fibroblast Transmigration on Zirconia.

Author

Suzumura, Toshikatsu, Komatsu, Keiji, Sugita, Yoshihiko, Maeda, Hatsuhiko, Ogawa, Takahiro, and Matsuura, Takanori

Subjects

dental and orthopedic implants, hydrocarbon, hydrophilic, implant pellicle, titanium, Humans, Surface Properties, Vacuum, Fibroblasts, Silicon Dioxide

Abstract

Soft tissue adhesion and sealing around dental and maxillofacial implants, related prosthetic components, and crowns are a clinical imperative to prevent adverse outcomes of periodontitis and periimplantitis. Zirconia is often used to fabricate implant components and crowns. Here, we hypothesized that UV treatment of zirconia would induce unique behaviors in fibroblasts that favor the establishment of a soft tissue seal. Human oral fibroblasts were cultured on zirconia specimens to confluency before placing a second zirconia specimen (either untreated or treated with one minute of 172 nm vacuum UV (VUV) light) next to the first specimen separated by a gap of 150 µm. After seven days of culture, fibroblasts only transmigrated onto VUV-treated zirconia, forming a 2.36 mm volume zone and 5.30 mm leading edge. Cells migrating on VUV-treated zirconia were enlarged, with robust formation of multidirectional cytoplastic projections, even on day seven. Fibroblasts were also cultured on horizontally placed and 45° and 60° tilted zirconia specimens, with the latter configurations compromising initial attachment and proliferation. However, VUV treatment of zirconia mitigated the negative impact of tilting, with higher tilt angles increasing the difference in cellular behavior between control and VUV-treated specimens. Fibroblast size, perimeter, and diameter on day seven were greater than on day one exclusively on VUV-treated zirconia. VUV treatment reduced surface elemental carbon and induced superhydrophilicity, confirming the removal of the hydrocarbon pellicle. Similar effects of VUV treatment were observed on glazed zirconia specimens with silica surfaces. One-minute VUV photofunctionalization of zirconia and silica therefore promotes human oral fibroblast attachment and proliferation, especially under challenging culture conditions, and induces specimen-to-specimen transmigration and sustainable photofunctionalization for at least seven days.

Published

2023

36. Peroxides on the Surface of Organic Aerosol Particles Using Matrix-Assisted Ionization in Vacuum (MAIV) Mass Spectrometry

Author

Qin, Yiming, Perraud, Véronique, Finlayson-Pitts, Barbara J, and Wingen, Lisa M

Subjects

Analytical Chemistry, Chemical Sciences, Physical Chemistry, Earth Sciences, Atmospheric Sciences, Peroxides, Tandem Mass Spectrometry, Vacuum, Hydrogen Peroxide, Aerosols, peroxides, particle surface analysis, heterogeneousoxidation, "magic" ionization, matrix-assistedionization in vacuum, peroxy radical self-reaction, OH oxidation, heterogeneous oxidation, matrix-assisted ionization in vacuum, “magic” ionization, Environmental Sciences

Abstract

Organic peroxides are key intermediates in the atmosphere but are challenging to detect, especially in the particle phase, due to their instability, which has led to substantial gaps in the understanding of their environmental effects. We demonstrate that matrix-assisted ionization in vacuum (MAIV) mass spectrometry (MS), which does not require an ionization source, enables in situ characterization of peroxides and other products in the surface layers of organic particles. Hydroxyl radical oxidation of glutaric acid particles yields hydroperoxides and organic peroxides, which were detected with signals of the same order of magnitude as the major, more stable products. Product identification is supported by MS/MS analysis, peroxide standards, and offline high-resolution MS. The peroxide signals relative to the stable carbonyl and alcohol products are significantly larger using MAIV compared to those in the offline bulk analysis. This is also the case for analysis using fast, online easy ambient sonic-spray ionization mass spectrometry. These studies demonstrate the advantage of MAIV for the real-time characterization of labile peroxides in the surface layers of solid particles. The presence of peroxides on the surface may be important for surface oxidation processes as well as for the toxicity of inhaled particles.

Published

2023

37. Yeast cell vacuum infusion into fungal pellets as a novel cell encapsulation methodology.

Author

Lúquez-Caravaca, Lara, Moreno, Juan, García-Martínez, Teresa, Mauricio, Juan, Jiménez-Uceda, Juan, Moreno-García, Jaime, Rai, Rewa, Nitin, Nitin, and Ogawa, Minami

Subjects

Cell immobilization, Cell retention, Vacuum infusion, Winemaking, Yeast biocapsules, Saccharomyces cerevisiae, Cell Encapsulation, Vacuum, Fermentation, Wine

Abstract

Immobilized yeast cells are used industrially in winemaking processes such as sparkling wine and Sherry wine production. Here, a novel approach has been explored for the infusion and immobilization of yeast cells into filamentous fungal pellets, which serve as a porous natural material. This was accomplished through vacuum application to force the yeast cells towards the core of the fungal pellets followed by culture in YPD medium to promote their growth from the interior. This method represents an improved variation of a previous approach for the assembly of yeast biocapsules, which entailed the co-culture of both fungal and yeast cells in the same medium. A comparison was made between both techniques in terms of biocapsule productivity, cell retention capacity, and cell biological activity through an alcoholic fermentation of a grape must. The results indicated a substantial increase in biocapsule productivity (37.40-fold), higher cell retention within the biocapsules (threefold), and reduction in cell leakage during fermentation (twofold). Although the majority of the chemical and sensory variables measured in the produced wine did not exhibit notable differences from those produced utilizing suspended yeast cells (conventional method), some differences (such as herbaceous and toasted smells, acidity, bitterness, and persistence) were perceived and wines positively evaluated by the sensory panel. As the immobilized cells remain functional and the encapsulation technique can be expanded to other microorganisms, it creates potential for additional industrial uses like biofuel, health applications, microbe encapsulation and delivery, bioremediation, and pharmacy. KEY POINTS: • New approach improves biocapsule productivity and cell retention. • Immobilized yeast remains functional in fermentation. • Wine made with immobilized yeast had positive sensory differences.

Published

2023

38. THE NINE MYTHS OF VIG.

Author

KOCER, CENK and SIMKO, TOM

Subjects

GLAZING (Glass installation), ARCHITECTURAL glass, HYDROCARBONS, VACUUM, ATMOSPHERIC pressure

Published

2024

39. Global Strong Solution to the Cauchy Problem of One-dimensional Viscous Two-fluid MHD Model.

Author

Tao, Qiang and Zhai, Yuxin

Subjects

*DENSITY

Abstract

In this paper, we study on the Cauchy problem of one-dimensional compressible viscous two-fluid MHD model and establish the global existence and uniqueness of strong solutions for large initial data. The initial density is permitted to vanish and even can have compact support. By introducing the flow map Lagrangian coordinate, the uniform upper bounds on the density is obtained. [ABSTRACT FROM AUTHOR]

Published

2025

40. Global strong solutions to the 3D incompressible Navier–Stokes equations with zero heat conduction.

Author

Xu, Hao and Ye, Xia

Abstract

This paper concerns the global regularity of strong solutions to the Cauchy problem of inhomogeneous incompressible Navier–Stokes fluids with vacuum, zero heat conduction, and density–temperature‐dependent viscosity. The existence of global‐in‐time strong solutions is proved when the initial energy is suitably small or the lower bound of the viscosity coefficient is large enough. Moreover, some exponential decay‐in‐time rates of strong solutions are obtained via time‐weighted a priori estimates. [ABSTRACT FROM AUTHOR]

Published

2024

41. A blow-up criterion for the strong solutions to the two-dimensional non-isothermal inhomogeneous liquid crystal flow with density-dependent viscosity.

Author

Li, Huanyuan and Liu, Jieqiong

Abstract

We study an initial and boundary value problem to the two dimensional non-isothermal inhomogeneous nematic liquid crystal flow with non-negative density. It is shown that the strong solution exists globally if the gradient of viscosity satisfies $ \|\nabla \mu(\rho)\|_{L^{\infty}(0, T; L^p)} < \infty. $ As an application, we establish the global well-posedness of strong solution to the two-dimensional non-isothermal inhomogeneous nematic liquid crystal flow with constant viscosity for general large initial data. [ABSTRACT FROM AUTHOR]

Published

2024

42. Analysis of the Effect of Vacuum Pressure Variations on the Fluidity, form Ability, Hardness, and Density of the RTV 10A Silicon Rubber Composites with 30% Talc

Author

Agus Suprihanto, Wahyu Caesarendra, Dwi Basuki Wibowo, Marian Bartoszuk, and Gyula Varga

Subjects

vacuum, talc, silicone rubber, casting, composite, Engineering (General). Civil engineering (General), TA1-2040

Abstract

RTV 10A silicone rubber composites have many applications in forming many medical products and one of the recent applications is for orthotic insoles. This is because the RTV silicon rubber has excellent flexibility, elasticity, and resistance against splitting. However, these mechanical properties still need improvement when applied in certain medical applications. One way to improve mechanical properties is by adding talc. The process of mixing silicon rubber with talc requires special techniques to prevent the formation of porosity that may lead to unexpected mechanical properties. This porosity occurs due to trapped air during the mixing process or pouring into molds. Efforts to eliminate this porosity include Vacuum Die Casting (VDC) techniques. This study presents the mechanical properties improvement of RTV 10A silicon rubber composite with the addition of using 30% talc. The objective is to achieve a more convenient orthotic insole to reduce the pain in human foot joints during walking due to planar stress. This study aims to reduce the porosity and minimize the trapped air by adding 30% talc into RTV 10A silicone rubber composite using VDC. In the experiment, the pressure variation was determined at -0.04 MPa, -0.06 MPa, -0.08 MPa, and -0.1 MPa through a mold size of 45 mm in diameter and thickness of 7 mm. Fluidity, density, porosity, and hardness were tested during the experiment. The results show that by decreasing vacuum pressure, the density and the hardness increase. This is because the size and distribution of porosity are decreased and more homogeny. Furthermore, it also produces higher fluidity. However, the porosity of the specimen after vacuum casting is not partially filled.

Published

2024

43. Assessment of the endurance limit of light structural metal components using the fatigue surface development method

Author

R. A. Zalyaev and V. A. Kirpichev

Subjects

light structural metals, vacuum, aggressive environment effect, endurance limit, fatigue surface, loading cycle, model adequacy, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

The paper presents a numerical method developed by the authors. The method consists in obtaining a three-dimensional component fatigue surface model according to the results of tests corresponding to two to four values of the operational factor, making it possible to plot the fatigue limit – operational parameter curve. A description of the algorithm of the method is presented, its validity is confirmed. The results show good agreement with outside empirical data for other values of the operational parameters. A model of the fatigue surface is constructed. The model specifies the calculation of strength of aircraft elements operating in rarified atmosphere (e.g. engine compartments of space complexes and upper stages of carrier rockets). The model increases the endurance calculation accuracy and enables structural mass optimization.

Published

2024

44. Investigation Effect of Liquid Arenga Sugar’s Evaporation Temperature under Vacuum Pressure

Author

Erwin Erwin, Slamet Wiyono, and Hilmi Maulana Yusuf

Subjects

arenga, evaporator, liquid, process, vacuum, Food processing and manufacture, TP368-456

Abstract

The use of high temperatures in conventional liquid arenga sugar processing can trigger the Maillard reaction, which causes some of the nutritional content of liquid arenga sugar to decrease. Therefore, liquid arenga sugar processing needs to be processed below 100 °C, using the vacuum evaporator process. The evaporation rate in the previously developed liquid arenga sugar processing technology is still lower than the conventional technology, which is due to the unoptimized temperature and vacuum pressure settings. In this study, a number of experiments were carried out with the aim of investigating the vacuum pressure and temperature that has the optimum evaporation rate. By utilizing the venturi effect, it can maintain vacuum conditions during the experiment. Data acquisition starts when the sample is boiling and finishes when the sample mass remains at 20%. The temperature variants comprise 60, 70, and 80 °C. While the vacuum pressure variants were 0.4 bar(-0.6 gauge), 0.3 bar(-0.7 gauge), and 0.2 bar(-0.8 gauge). Based on the conducted experiments, at a vacuum pressure of 0.3 bar(-0.7 gauge), the temperature variable dominantly affects the evaporation rate. Variant C3, at a temperature of 80 °C and a vacuum pressure of 0.2 bar(-0.8 gauge), showed better performance than the other variants. The peak value of mass loss of 7.18 kg and the peak value of mass reduction percentage of 73.12% represented it. Based on the vacuum pressure and temperature conditions of variant C3, it is estimated that processing 10 kg of liquid arenga sugar takes 2 h and 17 min, there was a reduction of almost 80% from the previous process which took 9 h 20 min.

Published

2024

45. Global Well-Posedness and Exponential Decay of Strong Solution to the Three-Dimensional Nonhomogeneous Bénard System with Density-Dependent Viscosity and Vacuum.

Author

Li, Huanyuan and Liu, Jieqiong

Subjects

*VISCOSITY, *VELOCITY, *DENSITY, *TEMPERATURE

Abstract

In this paper, we are concerned with the three-dimensional nonhomogeneous Bénard system with density-dependent viscosity in bounded domain. The global well-posedness of strong solution is established, provided that the initial total mass ∥ ρ 0 ∥ L 1 is suitably small. In particular, the initial velocity and temperature can be arbitrarily large. Moreover, the exponential decay of strong solution is also obtained. It is worth noting that the vacuum of initial density is allowed. [ABSTRACT FROM AUTHOR]

Published

2024

46. Insights into the issues during hot‐pressing and vacuum sintering of 10 mol.% CaO doped zirconia ceramics.

Author

Reddy, Jejitti Aravind, Lakshya, Annu Kumar, and Chowdhury, Anirban

Subjects

*ELECTRON paramagnetic resonance, *TRANSPARENT ceramics, *HOT pressing, *SINTERING, *CERAMICS, *ZIRCONIUM oxide, *CRYSTAL grain boundaries, *X-ray diffraction, *YTTRIUM aluminum garnet

Abstract

A vacuum environment is usually preferred for reducing the dwell time and sintering temperature for doped zirconia ceramics. However, for the present work with 10 mol.% CaO‐doped ZrO2 (10CaSZ) ceramics, both hot‐pressing and vacuum sintering techniques yielded ceramics with open pores (ρ ∼ 93%) and significant amounts of the deleterious monoclinic phase (>$ > $50%). This is in stark contrast with the conventionally sintered highly dense (>99%) 10CaSZ ceramics, where only tetragonal and cubic phases were noted. Probing via electron paramagnetic resonance (EPR) depicted the trapping of oxygen vacancies by vacancies generated in vacuum at high temperature. A possible change in the local coordination (of ions) and the subsequent chemical environment was confirmed by the observed asymmetric signal shape and broader linewidth of the EPR signals. Potential loss of oxygen and deviation from stoichiometry (for dopant) was confirmed via EPR analysis along with the support of energy dispersive spectra analysis. Despite no noticeable shift in the XRD pattern for Ca2+ depletion, the observed compositional gradient differences in the calcium elemental mapping suggested dopant segregation at the grain boundaries. The conclusions from the present work point toward specificity of a given materials system for its beneficial densification under hot pressing or vacuum sintering. [ABSTRACT FROM AUTHOR]

Published

2024

47. Cape Gooseberry (Physalis peruviana L.) Volatile Compounds Determination by Vacuum-Assisted Sorbent Extraction (VASE)—Selected Aspects.

Author

Jeleń, Henryk H. and Marcinkowska, Monika

Subjects

*CAPE gooseberry, *EXTRACTION techniques, *SAMPLE size (Statistics), *QUANTITATIVE research, *VASES

Abstract

Vacuum-Assisted Sorbent Extraction (VASE) is a novel extraction technique that uses vacuum to facilitate the transfer of volatile compounds from the matrix to the sorbent. This technique was explored for extraction of volatiles from cape gooseberry fruit, for both qualitative and quantitative analyses. Selected extraction parameters were tested: sample size, extraction temperature and time, influence of tissue disintegration on release of volatiles, and also addition of Ag+1 ions in the form of AgNO3 to stop enzymatic formation of volatile compounds. For selected conditions (10 g sample, extraction for 30 min. at 40 °C of volatiles from blended fruit) quantitative aspects were explored. Twenty-two compounds of cape gooseberry were tested. The method was characterized with a very good linearity in a range of 10–5000 µg/kg and good reproducibility. The experiments proved the usefulness of VASE in both volatile profiling and quantitative analyses of cape gooseberry and in prospective other fruit. [ABSTRACT FROM AUTHOR]

Published

2024

48. Concentration and cavitation in the Riemann solution for the relativistic Euler equations with non-ideal isothermal dusty gas.

Author

Shan, Bencui, Zhang, Yanyan, and Zhang, Yu

Subjects

*SHOCK waves, *RIEMANN-Hilbert problems, *CAVITATION, *PROBLEM solving, *GASES

Abstract

AbstractThe phenomena of concentration and cavitation in the Riemann solutions of the relativistic Euler equations with non-ideal isothermal dusty gas are considered. The Riemann problem is solved first, and the solutions consisting of rarefaction waves and shock waves are obtained. Then, by the vanishing pressure approach, we investigate the limiting behaviors of Riemann solutions and observe the concentration and cavitation phenomena. It is rigorously proved that as the dusty gas pressure vanishes with double parameters, the solution containing two shock waves and two rarefaction waves respectively converges to the delta-shock wave and vacuum state of the pressureless relativistic Euler equations. [ABSTRACT FROM AUTHOR]

Published

2024

49. The use of negative pressure therapy for the treatment of gunshot wounds in a limited resource setting in eastern part of the Democratic Republic of Congo: Case series.

Author

Munguakonkwa, Paul Budema, de Dieu Namegabe Tumsifu, Jean, Murhula, Gauthier Bahizire, Kuhigwa, Georges Toha, Cikomola, Fabrice Gulimwentuga, Kabesha, Théophile Barwamire, Kibendelwa, Zacharie Tsongo, Mukuku, Olivier, and Okitotsho, Stanis Wembonyama

Subjects

*SOFT tissue injuries, *MEDICAL personnel, *SKIN grafting, *LENGTH of stay in hospitals, *WOUND infections, *NEGATIVE-pressure wound therapy, *GUNSHOT wounds

Abstract

Key Clinical Message: The use of negative pressure therapy in the management of gunshot wound have a favorable outcome, NPT is easy to build, accelerates wound budding, reduces patient's stay in hospital and its low cost. It showed reassuring results in the management of wound with soft tissue lost, comparatively to other dressing. Wounds due to gunshot injuries are common in east of Republic Democratic of Congo and its management should be well known by surgeons and other health practitioners. Reconstruction is possible with simple surgeries using skin grafts and negative pressure therapy (NPT). In this study, we present our results of wounds treatment after gunshot injury with a simple non‐surgical procedure using NPT. We present four patients with soft tissue losses caused by gunshot injury. These patients underwent an average of four to eight sessions of vacuum dressing, the length of hospital stay was decrease and soft tissue losses were reconstructed using at the end skin grafts. [ABSTRACT FROM AUTHOR]

Published

2024

50. Mechanical properties and interfacial characteristics of 6061 Al alloy plates fabricated by hot-roll bonding.

Author

Luo, Zongan, Zhang, Xin, Liu, Zhaosong, Zhou, Hongyu, Wang, Mingkun, and Xie, Guangming

Abstract

This work aims to investigate the mechanical properties and interfacial characteristics of 6061 Al alloy plates fabricated by hot-roll bonding (HRB) based on friction stir welding. The results showed that ultimate tensile strength and total elongation of the hot-rolled and aged joints increased with the packaging vacuum, and the tensile specimens fractured at the matrix after exceeding 1 Pa. Non-equilibrium grain boundaries were formed at the hot-rolled interface, and a large amount of Mg2Si particles were linearly precipitated along the interfacial grain boundaries (IGBs). During subsequent heat treatment, Mg2Si particles dissolved back into the matrix, and Al2O3 film remaining at the interface eventually evolved into MgO. In addition, the local IGBs underwent staged elimination during HRB, which facilitated the interface healing due to the fusion of grains at the interface. This process was achieved by the dissociation, emission, and annihilation of dislocations on the IGBs. [ABSTRACT FROM AUTHOR]

Published

2024