Your search keyword '"MINERAL oils"' showing total 185 results

1. Photoluminescence of Cr3+ in β-Ga2O3 and (Al0.1Ga0.9)2O3 under pressure.

Author

Barmore, Lauren M., Jesenovec, Jani, McCloy, John S., and McCluskey, Matthew D.

Subjects

*PHOTOLUMINESCENCE, *MINERAL oils, *X-ray diffraction measurement, *DIAMOND anvil cell, *HYDROSTATIC pressure

Abstract

The effects of pressure on single crystals of Cr-doped gallium oxide (β-Ga2O3:Cr3+) and aluminum gallium oxide [(Al0.1Ga0.9)2O3] were examined by measuring the wavelength shift in the spectral R lines. Photoluminescence (PL) spectra of these materials were collected from samples in diamond anvil cells at pressures up to 9 GPa. The β-Ga2O3:Cr3+R lines were found to shift linearly under hydrostatic pressure. The (Al0.1Ga0.9)2O3R lines also show a linear shift but the R1 line shifted less than for β-Ga2O3:Cr3+. The ratio of R2 to R1 peak areas vs pressure is dominated by nonradiative recombination. X-ray diffraction measurements of (Al0.1Ga0.9)2O3 indicate that its equation of state is similar to that of β-Ga2O3. β-Ga2O3:Cr3+ was examined under non-hydrostatic conditions by using mineral oil as a pressure transmitting medium. Similar to the case in ruby, the R1 line is much more sensitive to non-hydrostatic stress than R2. Spatially resolved PL of a sample at 8 GPa in mineral oil showed significant variations in the R1 emission wavelength. These results suggest that the R1 line can serve as a sensitive probe of alloy composition and non-hydrostatic stress, while the R2 line is insensitive to these perturbations. [ABSTRACT FROM AUTHOR]

Published

2023

2. Thermal performance characteristics of sunflower seed oil as a renewable bio fluid.

Author

Ibraheem, Dalal J., Jabal, Mohammed Hassan, and Ismael, Samar Jaafar

Subjects

*SUNFLOWER seed oil, *VEGETABLE oils, *MINERAL oils, *FLUIDS, *RENEWABLE natural resources, *ELECTRIC motors

Abstract

Mineral-based products can now be replaced with bio-fluids (vegetable oils). They can be obtained in high quantities from renewable resources. The purpose of this study is to discover if using sunflower seed oil for cooling will increase electric motor performance in the same method that mineral oil can at different load levels. The four-ball tester was used in the investigation. ASTM D4172-B oil was utilized in the experiments. A pumping system was used to test the motor's performance, and the results indicate that sunflower seed oil has appropriate cooling qualities when compared to commercial cooling fluid. Depending on their characteristics, they have the potential to become key sources of bio fluids. [ABSTRACT FROM AUTHOR]

Published

2024

3. Thermal performance features of the bio-pumping unit with automatic controller based on neural network.

Author

Ibraheem, Dalal J., Ismail, Samar Jaafar, and Jabal, Mohammed Hassan

Subjects

*SUNFLOWER seed oil, *ARTIFICIAL neural networks, *MINERAL oils, *VEGETABLE oils, *PID controllers

Abstract

Utilizing bio-oils in liquid pumping unites are considered as a one of the most important parts in the water filtration and pumping stations especially in the area of automatic control. In this paper using bio-oils are being investigated which have high degradability and it is environmentally friendly. The thermal performance features of the liquid pumping unit lubricated with bio sunflower seed vegetable oil was investigated and compared with the performance features with mineral oil (MO10W-30). The study includes, oil temperature, density, power and tourq under different rational speed (1200-1500 rpm) for the pump. From experimental investigations carried out in this study, it can be concluded that biodegradable vegetable oils are adequate alternative to the mineral oil as a renewable bio cooling and lubricate. An automatic pumping unit was implemented (three tanks one as a source and two auxiliary) based on two types of controllers. These two are: PID controller and artificial neural networks. The results in neural back propagation that more accurate than PID controller. The over shoot is improving in artificial network is zero where compare with PID result 0.8 m3/s flow rate [ABSTRACT FROM AUTHOR]

Published

2024

4. Experimental study of tribological properties of oil-based with TiO2 nano-gel.

Author

Abdulridha, Lamyaa A., Kahdhum, Quraish A., Hameed, Taghreed M., Abbas, Zuhair K., Mohamed, Bushra I., and Khudhair, Muna M.

Subjects

*MINERAL oils, *BASE oils, *MECHANICAL wear, *METALLIC surfaces, *TITANIUM dioxide

Abstract

The revolution of nano materials had arisen in the last few years due to the important role of these materials in different applications nowadays. In this research the role of nano materials and its applications, both wear performance and the coefficient of friction for the mineral base oils were studied at different loads (15N, 30N and 45N) in (Pin-on-Disk) tribometer. It is achieved by adding a nano-gel of Titanium dioxide to the mineral base oil at different concentrations (0.5-2.5 vol.%). An ultrasonic techniquewas employed for a good mixing and to insure a consistency between the nano material and the mineral base oil. The stability of the resultant nano oil and the precipitation time of nano material were investigated, as well as, a significant impacts improvement in wear performance and a reduction in coefficient of friction which gave a good efficiency in about (38.98%), (35.2%) and (33.7%) at the loads 45N, 30N and 15N, respectively. This is due to the coated thin film of nanomaterial that has belted on the metal surface and as a result a reduction in wear rate. [ABSTRACT FROM AUTHOR]

Published

2024

5. Thermally-controlled generation of uniform droplets in an axisymmetric co-flow-focusing device.

Author

Naji, Sarvin, Peregrino, Giordana, Bazargan, Vahid, and Marengo, Marco

Subjects

*MINERALS in water, *MINERAL oils, *MINERAL waters, *HARMONIC generation, *UNIFORMITY, *MONODISPERSE colloids

Abstract

Today, droplet generation in microfluidic chips has many applications The monodispersity and uniformity of droplets play a crucial role in most of these applications, ensuring optimal performance and reliable results. The monodispersity is achieved through the dripping regime, while to attain uniformity, precise control of the formation of the droplets is needed. In this numerical study, we used a microfluidic chip with axisymmetric co-flow-focusing geometry. The light mineral oil and water were the continuous and dispersed phases, respectively. At first, we studied how a change in the outer diameter of the chip affects the dripping-jetting transition boundary and found out that decreasing outer diameter results in a larger dripping regime region, therefore we could generate monodisperse droplets in a greater range. Subsequently, in addition to studying the effects of different constant inlet temperatures, our work investigated droplet generation using harmonic fluctuation of inlet temperature such that the frequency of droplet generation matched the frequency of temperature. Hence, we obtained droplets of the same size. Finally, we generated monodisperse uniform droplets using the optimum outer diameter and thermal control. [ABSTRACT FROM AUTHOR]

Published

2024

6. Tribological properties improvement of zinc induced palm oil bio-lubricant with addition of Molybdenum Dialkyldithiophosphate.

Author

Azhari, Muhamad Azwar, Ngadiman, Nor Hasrul Akhmal, Yusof, Noordin Mohd, and Idris, Ani

Subjects

*MOLYBDENUM, *BASE oils, *MINERAL oils, *ZINC, *METALLIC surfaces, *VEGETABLE oils

Abstract

Different concentration of Molybdenum Dialkyldithiophosphate is added into Zinc Dialkyldithiophosphate induced bio-lubricant with palm oil as the parent base oil to investigate the effect on friction and wear reduction. The increasing concern on depletion of mineral oil sources and the environmental impact its waste could impose causes the focus on development of lubricant to shift to a new renewable precursor. New formulated bio-lubricant with addition of 0.05wt% MoDTP in 2wt% ZDDP induced palm oil exhibited a superior anti-friction and wear reduction characteristics. From four ball test results, the friction of palm oil added with 0.05wt% MoDTP and 2 wt% ZDDP reduced to 0.072 compared to pure palm oil. The wear scar diameter reduced from 132 µm for pure palm oil to 74 µm with addition of the same additives. The combination of ZDDP and MoDTP at the desirable concentration has reduced the friction and wear scar by forming a polymer layer of phosphates between metal surfaces. [ABSTRACT FROM AUTHOR]

Published

2024

7. Friction and wear evaluation of palm oil and its blend with mineral engine oil in a pin-on-disk contact.

Author

Cupu, Dedi Rosa Putra, Ichsan, Muhammad, and Putra, Yonar Meilana Andika

Subjects

*MINERAL oils, *MECHANICAL wear, *FRICTION, *ROLLER bearings, *DIESEL motors, *PETROLEUM, *ROLLING contact, *VEGETABLE oils

Abstract

This paper investigates the coefficient of friction and wear rate of crude palm oil (CPO) and palm-mineral oil blend as lubricant in roller element bearing application at the room temperature. Contact between a rolling element and raceway in bearing is simply modeled as a pin-on-disc contact. Crude palm-based vegetable oil and its blend with a commercial mineral oil at a ratio of 1:1 by volume were used as lubricant in pin-on-disc contact tribometer. The commercial mineral oil was also evaluated for comparison purpose. Influence of palm-mineral oil composition is highlighted by comparing coefficient of friction and wear rates. The results exhibited that the blend of mineral oil and CPO has lower coefficient of friction and wear rate compared to the pure mineral oil or CPO 100%. [ABSTRACT FROM AUTHOR]

Published

2024

8. Investigation of thermal oxidative stability coefficient of mineral engine oils at high temperatures.

Author

Kolpakov, V. N., Kolpakov, I. G., Afanasov, V. I., Sergeenkov, A. D., and Kolomeitsev, V. V.

Subjects

*MINERAL oils, *DIESEL motors, *THERMAL stability, *HIGH temperatures, *ABSORPTION coefficients

Abstract

This document discusses the thermal oxidation stability factor of mineral engine oils at high temperatures. The determination of the coefficient of thermal oxidative stability is also considered. Based on the experiments, graphs of the dependence of evaporability on the time and temperature of evaporation of the 1800 С mineral engine oil, as well as a graph of the dependence of the coefficient of thermal oxidative stability on the coefficient of absorption of light flux and the temperature of testing the 1800 С of the mineral engine oil were built. Based on the obtained values, conclusions were drawn. [ABSTRACT FROM AUTHOR]

Published

2024

9. Air trap and removal on a pressure driven PDMS-based microfluidic device.

Author

Xu, Fan, Ma, Liang, and Fan, Yiqiang

Subjects

*MICROFLUIDIC devices, *MICROBUBBLES, *DISTILLED water, *NANOPORES, *MINERAL oils, *FLUID flow, *OIL well pumps, *CELL culture

Abstract

With the development of microfluidic technology, microfluidic chips have played a positive role in applications such as cell culture, microfluidic PCR, and nanopore gene sequencing. However, the presence of bubbles interferes with fluid flow and has a significant impact on experimental results. There are many reasons for the generation of bubbles in microfluidic chips, such as pressure changes inside the chip, air vibration inside the chip, and the open chip guiding air into the chip when driving fluid. This study designed and prepared a microfluidic device based on polydimethylsiloxane. First, air was actively introduced into the microfluidic chip, and bubbles were captured through the microfluidic device to simulate the presence of bubbles inside the chip in biological experiments. To remove bubbles trapped in the microfluidic chip, distilled water, distilled water containing surfactants, and mineral oil were pumped into the microfluidic chip. We compared and discussed the bubble removal efficiency under different driving fluids, driving pressures, and open/closed channel configurations. This study helps to understand the mechanism of bubble formation and removal in microfluidic devices, optimize chip structure design and experimental reagent selection, prevent or eliminate bubbles, and reduce the impact of bubbles on experiments. [ABSTRACT FROM AUTHOR]

Published

2024

10. Microdroplet formation of water and alumina nanofluid in a T-junction microchannel.

Author

Governo, A. F. L., Murshed, S. M. S., and Semião, V.

Subjects

*NANOFLUIDS, *INTERFACIAL tension, *INTERIM governments, *MINERAL oils, *NANOPARTICLES, *DISTILLED water

Abstract

A scarcity of studies about nanofluids' utilization in droplet formation inside microdevices currently hovers in the literature although potential applications of nanoparticles in a microfluidic environment are foreseen. For this purpose, experimentally assessing both nanofluid and microdroplet characteristics is fundamental. This work reports a series of experimental tests on the microdroplet formation of distilled water (DIW) and DIW-based aluminum oxide (Al2O3) nanofluid in a microfluidic T-junction. While water and nanofluid are used as the dispersed phase, mineral oil is used as the continuous phase. Microdroplet formation in the squeezing, transitional, and dripping regimes is characterized and scaling laws for the non-dimensional droplet volumes are presented. The effects of flow rate, capillary number, microchannel aspect ratio, and nanoparticle concentration are investigated. The addition of Al2O3 nanoparticles to the water is observed to have a major impact in the transitional regime (up to 40% increase), whereas in the dripping regime its influence is lower, with less than 10% difference. This was attributed to the nanofluid's enhanced interfacial tension and viscosity compared to the DIW, as well as possible adsorption at the surface. [ABSTRACT FROM AUTHOR]

Published

2024

11. Numerical investigation on oil–water flow characteristics and construction optimization for novel wellbore lubrication fitting.

Author

Jing, Jiaqiang, Huang, Wanni, Karimov, Rinat, Sun, Jie, and Li, Yibo

Subjects

*DRAG reduction, *PRESSURE drop (Fluid dynamics), *PIPELINE transportation, *MINERAL oils, *FLOW velocity, *DRINKING water, *SWIRLING flow

Abstract

Water-lubricated oil–water flow is an effective low-energy consumption method for pipeline transportation. This study proposes a novel wellbore lubrication fitting (WLF) for developing a core-swirling flow to reduce flow resistance and enhance lubrication efficiency. The pressure drop across the lubricating fitting, the maximum oil volume fraction at the overflow outlet and the drag reduction percentage of core-swirling flow were taken as the indicators, and the fluid calculation software Ansys Fluent was applied to optimize the structural parameters of the WLF with orthogonal and single-factor methods. The experimental study was carried out with mineral oil and tap water. The results indicate that the swirl generator can develop a stable and low-viscosity liquid annulus to isolate the oil from the pipe wall and reduce the flow resistance of viscous oil. The optimized WLF demonstrates the clear core-swirling flow with input velocity between 0.48 and 0.62 m/s. The experimental pressure drops deviate from the simulated data within ±25%. The drag reduction percentage of the core-swirling flow is above 90% with the input velocity above 0.51 m/s. The results of this study have important engineering value for efficient application of WLFs. [ABSTRACT FROM AUTHOR]

Published

2024

12. Proper treatment effects electrical properties of palm oil (PO).

Author

Felix, Stephanie Azlyn Anak, Din, Muhamad Faiz Md, Farid, Khaleeda Farisah Mohd, Ishak, Asnor Mazuan, Wang, Jian Li, Idris, Nurul Hayati, and Zamri, Wan Fathul Hakim Wan

Subjects

*BREAKDOWN voltage, *PERMITTIVITY, *MINERAL oils, *RAMAN spectroscopy, *ELECTRIC stimulation, *INSULATING oils

Abstract

Trends in the field of transformer application show most of the conducted works have focused only on enhancing mineral oil but limited studies on enhancing palm oil. In this paper, electrical properties of palm oil under different treatment were investigated. This study focused on AC breakdown voltage, dielectric dissipation factor, relative permittivity, resistivity and Raman spectroscopy on the combination of proper treated palm oil as one of the natural esters. Based on the results, sample that endures filtering and drying process possess better performance as an insulating oil. Moreover, the outcome from measurement will be discussed by using Origin Software In comparison, among all of the samples, dried palm oil has the potential in replacing mineral oil since it passes all insulation test proposed in this study. [ABSTRACT FROM AUTHOR]

Published

2024

13. Experimental investigations to evaluate the effects of palm oil-based cutting fluid in turning operation of AISI 1040 steel.

Author

Tiwari, Saurabh and Muniyappa, Amarnath

Subjects

*CUTTING fluids, *MINERAL oils, *BASE oils, *HEAT capacity, *SURFACE roughness, *MACHINE performance, *VEGETABLE oils

Abstract

Among the various machining processes, turning is one of the most common and essential process. This process generates a high temperature due to the frictional interaction of tool with the workpiece material. To reduce this temperature, cutting fluids based on mineral oil are extensively utilized as a lubricant and coolant. However, these cutting fluids have an adverse effect on human health as well as on the ecosystem. So, to accomplish sustainable machining, researchers are forced to pay attention to the development of environmentally friendly cutting fluids, which could also result in a significant improvement in machining performance. This paper describes an experimental investigation executed during the turning operation of AISI 1040 steel using palm oil as a cutting fluid, and the results are compared with dry cutting and mineral oil-based cutting fluid. The effectiveness of palm oil was evaluated by considering tool wear, chip morphology, and surface roughness. Results showed that palm oil as a cutting fluid would have a 55 percent lesser reduction in tool wear compared to dry cutting and 25 percent less compared to mineral oil-based cutting fluid. Palm oil as a lubricant also showed better heat carrying capacity from the cutting zone, which reduces the surface roughness and extends the tool life. [ABSTRACT FROM AUTHOR]

Published

2023

14. Isolation, screening of micrococcus luteus S2B1 bacteria and optimization of its biosurfactant producing conditions.

Author

Gaikwad, Shikha V., Waghdhare, Esha S., Nawal, Priyanka S., and Gaikwad, Vikrant D.

Subjects

*BIOSURFACTANTS, *MICROCOCCUS luteus, *THIN layer chromatography, *MINERAL oils, *AQUATIC habitats, *PETROLEUM

Abstract

Screening of bacteria, potentially producing biosurfactants from different aquatic habitats was performed. A total of thirteen bacterial isolates were obtained in 2% (v/v) crude oil supplemented Mineral Salt Medium (MSM). Efficient biosurfactant bacteria were selected based on two tests for example drop collapse and emulsification index (E 24%). The bacterial isolates S2B1, S2B2, S4B1, S4B2, S5B3, and S6B2 tested positive for both tests. Isolate S2B1 exhibited the greatest Colony Forming Unit (CFU) per ml, the highest E 24%, and the maximum weight for biosurfactant, so it was identified as a potent producer of biosurfactant. 16S rRNA sequencing revealed S2B1 was Micrococcus luteus. Thin Layer Chromatography (TLC) revealed that M. lutues S2B1 was producing the lipopeptide biosurfactant. The environmental and nutritional culture conditions were optimized for M. luteus S2B1 to produce biosurfactant at the highest levels. The maximum CFU per ml and the highest E 24% were obtained after 72 h of incubation, at pH of 7, and temperature 37 ±4 ° C, when the Carbon (C) source was glucose and ammonium nitrate was a source of Nitrogen (N), both were added in the respective media at 2% (w/v) separately by maintaining Single-factor optimization methodology. [ABSTRACT FROM AUTHOR]

Published

2023

15. Formulation and analysis of multipurpose grease from flushing oil.

Author

Razali, Mohd Najib, Obi, Nasreldeen Ishag, Shaidan, Muhammad Nur Hafiz, Ramli, Najmuddin Mohd, and Zuhan, Mohd Khairul Nizam Mohd

Subjects

*FOURIER transform infrared spectroscopy, *MINERAL oils, *PETROLEUM, *BASE oils, *LUBRICATING oils

Abstract

The disposal of flushing oil from lubricating industry possesses an environmental threat and incur a huge financial impact to the manufacturer. Hence, it is vital to recycle back the flushing oil to reduce environmental impact, costing, and dependency on nonrenewable energy (petroleum). The purpose of this work is to formulate and analyse multipurpose grease by using flushing oil (waste). In this study, four lithium-based grease was formulated by using gear flushing oil, engine flushing oils, and mineral base oil. Then, the physicochemical characteristics of the formulated greases were analysed by the dropping point (ASTM D-2265), cone penetration (ASTM D-217), oil separation (ASTM D-1742), and rheology tests according to the standard methods. Next, thermogravimetric analysis and Fourier transform infrared spectroscopy analysis were utilised to investigate the ageing of the formulated greases. The results obtained show that all formulations are comparable in dropping point, NLGI, and oil separation. However, GFO has the highest thermal stability with an onset temperature of 304.5°C, where no oxidation occurs in all formulated greases. Nonetheless, further research is needed to acquire a complete understanding of the processes and develop a competitive multipurpose grease. [ABSTRACT FROM AUTHOR]

Published

2023

16. Ultrasonic velocity studies in pure and adulterated edible oils.

Author

Mahammad Ali, S. K., Raju, P., Prashanthi, T. V., Shankar, J., Anjaiah, J., Nuslin Bibi, S. K., and Rajesham, S.

Subjects

*EDIBLE fats & oils, *COCONUT oil, *MINERAL oils, *ULTRASONICS, *SUNFLOWER seed oil

Abstract

Because of the cost factor of the edible oils, it became a common practice by the adulterators to adulterate the edible oils like coconut oil, Sunflower oil, Groundnut oil and ghee with low cost oils like Palm and Mineral oils and refilling it in bottles and packets of well known brands. Tests have proved that mineral oil causes hair loss and adulterated edible oils affect the human digestion system and causes gastric problems. Hence an attempt is made to find out whether edible oil is in its pure form or adulterated by using ultrasonic technique. Ultrasonic velocity was measured in six edible oils in their pure and adulterate forms at 1,2,3 and 5MHz frequencies using Ultrasonic Multi frequency Interferometer at room temperature. The present study gives information about the ultrasonic velocity changes when the oil was adulterated and data presented will be highly useful to identify whether the given oil is pure or impure. [ABSTRACT FROM AUTHOR]

Published

2023

17. Rheological analysis on cotton seed based bio lubricant for electric vehicle application.

Author

Mahapatra, Manas R. and Kotia, Ankit

Subjects

*COTTONSEED oil, *STRAINS & stresses (Mechanics), *SHEARING force, *MINERAL oils, *SYNTHETIC lubricants, *COTTONSEED

Abstract

With climate change being a serious source of concern in modern times, the need for sustainable development begs attention more than ever. An important way of realising sustainable development is by achieving emission neutrality, reducing dependency on fossil-fuels and adopting bio-degradability. Bio-lubricants are one such domain of sustainable development, capable of replacing conventional fossil-fuel based mineral and synthetic oils in use today for lubrication applications in various industrial machineries, automobiles, etc. Cottonseed Oil (CSO) is one such bio-lubricant which has demonstrated its potential as a suitable lubricant in various applications, and this study aims to evaluate its lubrication capabilities experimentally. In this work 3 samples of CSO, differentiated by method of filtration, were analysed on a Rheometer to observe rheological lubricating behaviour. Variation of viscosity with shear rate and that of shear stress with shear rate were observed. Further, the work briefly introduces the possibility of using Ionic Liquids (ILs) as a novel lubricant additive for Bio-lubricants and also touches upon the aspect of changing needs in automobile lubricants with the proliferation of electric vehicles (EVs). [ABSTRACT FROM AUTHOR]

Published

2023

18. Development of bio based nano-lubricant from walnut shell for refrigeration system.

Author

Afolalu, Sunday A., Ikumapayi, Omolayo M., Ogundipe, Adebayo T., Oloyede, Olamilekan R., and Yusuf, Olabisi O.

Subjects

*MINERAL oils, *WALNUT, *ELECTRON microscopes, *NATURAL resources, *COPPER

Abstract

The biosynthesis of nanoparticles (NPs) from agro-waste has not been explored thoroughly by the scientific research world. This synthesis method was brought about as a solution to the problem of the high pollution rate that results from the conventional methods of nanoparticle preparation. Biosynthesis using agro-waste eliminates this pollution by using readily available natural resources whose decomposition further enriches the environment, coupled with safe practices and processes. NPs have been known to enhance the performance of refrigerating systems. In this work, walnut shell ash was used as a reducing agent to synthesise copper oxide NPs. The NPs were mixed with mineral oil to investigate its effects on the refrigeration system and see if it ensured better performance than the conventional mineral oil. Microstructural and spectroscopical tests were carried out on the NPs to verify their properties, such as size and element build. Spectroscopical analysis using an electron microscope revealed 30% of Oxygen, 7% of Carbon and 63% of copper, making Copper the most abundant element. The microstructural analysis put the average size within the accepted nanometric range. The mixing ratio used for this project started with 250ml of mineral oil to 0.50g of the NP, while the concentration of the NPs increased by 0.25g as the samples progressed. The control sample of pure mineral oil was used to get a baseline for which the performance of each sample was based. Coefficient of Performance (CoP) was the parameter used in determining the performance of all the samples and control. The result showed improved performance when specific samples were used when compared to the control. Samples such as 0.75g of NP showed a CoP increase by 23.9%, and 1.25g of NP showed an increase in CoP by 125%. The other samples that showed improvements in various aspects include 0.5g of NP and 1.5g of NP. [ABSTRACT FROM AUTHOR]

Published

2023

19. A review of the potential of vegetable oils for production of eco-friendly biogrease.

Author

Amrina, Auza, Wahyuni, and Supardan, Muhammad Dani

Subjects

*VEGETABLE oils, *PETROLEUM supply & demand, *PETROLEUM reserves, *MINERAL oils, *BASE oils, *LUBRICATING oils

Abstract

Lubricants can reduce the friction and wear between the surfaces in mutual contact in the machines element. Lubricating greases are semi-solid systems consisting of base oil, a thickener and an additive. Nowadays, semi-solid lubricants or grease are generally derived from mineral oil derived from petroleum. The depletion of petroleum reserves and demands for reducing environmental pollution generated led to attention to develop and use of alternative lubricants. Vegetable oils are a potential source of environmentally friendly, biodegradability and renewability for grease production. This paper attempts to review the potential of vegetable oil as an alternative based oil for the production of environmentally friendly bio grease. [ABSTRACT FROM AUTHOR]

Published

2023

20. Evaluation of changes in the characteristics of motor oils on the Fourier infrared spectrometer.

Author

Korneev, S. V., Zhigadlo, A. P., Bakulina, V. D., and Pashukevich, S. V.

Subjects

*LUBRICATING oils, *DIESEL motors, *INTERNAL combustion engines, *DIESEL fuels, *MINERAL oils, *POWER resources

Abstract

The results of studies of model contaminated diesel fuels of motor oils produced by the Lukoil company and having various basic bases are presented. The aim of the study is to evaluate the change in the characteristics of oxidized engine oil with different diesel fuel content on a Fourier infrared spectrometer. The study subject is mineral motor oil Lukoil Standard 10W-40, synthetic motor oil Lukoil Lux 5W-40, and semi-synthetic motor oil Lukoil Super 10W-40. Hydrotreated summer diesel fuel with a sulfur content of up to 10 ppm was used as a pollutant. For the test, 7 samples of mineral, 7 samples of synthetic and 7 samples of semi-synthetic motor oils were taken. Oxidation of samples of fresh and contaminated motor oils was carried out using an apparatus for determining the stability of oils against oxidation APSM-1. Then the characteristics of samples of fresh and oxidized motor oils were evaluated on a Spectrum Two FT-IR spectrometer manufactured by PerkinElmer Inc., USA. This FTIR spectrometer is equipped with a specialized cuvette for solving problems in the analysis of lubricating oils. The result of the research is the data on the change in the characteristics of motor oils of different base bases with varying degrees of contamination with diesel fuel. The study can be the basis for developing recommendations for improving the maintenance of internal combustion engines for enterprises that have vehicles with diesel engines at their disposal to increase the resource of power units and reduce operating costs. [ABSTRACT FROM AUTHOR]

Published

2023

21. Review on biolubricants and nanoparticles as additives in machining process.

Author

Nanda, S. Aswin, Radhika, N., Mohanraj, T., Vignesh, V., Selvan, K. R. Ratana, and Jayaraman, B.

Subjects

*CUTTING fluids, *METAL cutting, *MINERAL oils, *MACHINING, *NANOPARTICLES, *BIODEGRADABLE plastics, *VEGETABLE oils

Abstract

A paradigm shift occurs in history's environmentally conscious society, as hazardous cutting fluids are being phased out and biodegradable oil-based cutting fluids are introduced. Vegetable oils are potential ecologically friendly metal cutting fluids and have the potential to provide significant relief from a wide range of health problems caused by synthesized cutting fluids, including itchy skin, harmful particulates, ingestion, and so on. Critically, the current article evaluates the possibility of achieving the goal. We can accomplish long-term green production by utilizing environmentally friendly vegetable oil cutting fluids. According to this research series, vegetable oils could be used for synthetic fluids. This alternative may prove to be a cost-effective and effective method of achieving environmentally friendly machining. Bio-degradable oil has a high viscous index, a more excellent pour point, an increased flash point, superior mechanical properties, and is environmentally friendly. Even though biodegradable lubricants are one of the most environmentally friendly options for lubrication, their properties are slightly inferior to conventional mineral oil. Incorporating effective additives into the base stock of biodegradable oil is a popular solution to this problem. It results in a considerable improvement in the lubricant's thermal, tribological, and anti-oxidation characteristics. Nanoparticles are an effective additive that can be used to improve the properties of biodegradable lubricants. They are becoming increasingly popular. This paper discusses biodegradable oils, nanoparticles, and the improvement of biodegradable lubricant qualities due to the use of nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2023

22. Treatment of heavy oil contaminated with organometallic minerals by chemical methods and separation associated with oil operations to reduce environment pollution.

Author

Al-Dahan, Atyaf Khalid, Sultan, Mathim, and Khaild, Yahya

Subjects

*HEAVY oil, *MINERALS, *PETROLEUM, *FERROUS sulfate, *MINERAL oils, *OIL spills

Abstract

Petroleum refinery effluents are among the most important pollutants of the natural ecosystem and are wastes resulting from the processing of crude oil, fuel, and intermediate petrochemical industries. There are many organic pollutants that result from petroleum processes associated with heavy oil extraction. Organometallic pollutants represented by compounds of both nickel and vanadium are among the most important pollutants of crude oil, which requires various processing processes, including chemical treatment which was selected as an effective method. From the literature follow-up, the protoprophrin complexes are among the most important nickel and vanadium complexes, which are frequently encountered in the petroleum refinery associated with oil extraction operations. The chemical treatment via acid as sulfuric acid (6M) (H2SO4) and ferrous sulphate followed by the adsorption process are some of the important methods used to dispose of the contaminated mineral oil. On the other hand, the experiment was carried out by taking samples of wastewater and remedied chemically. Both techniques' adsorption process via the red clay as solid phase were kept in a static phase. The experiment was carried out to conduct both Nickel and vanadium protoprophrin complexes. The organometallic complexes of each nickel and vanadium were prepared in this study and then diagnosed by infrared spectroscopy. The adding of the ferrous sulphate as an agglomerate agent was important led to the formation of the bigger molecules easily removed from the media by simple filtration. The results of the research showed the removal of metal complexes from polluted wastewater in a period ranging between 20-30 minutes and at a moderate pH.(7). As a result, the chemical treatment before and after the adsorption process via the column and the batch methods onto the red clay as solid phase as efficient adsorbents in the removal of these pollutants. The chemical method conceder a quick and efficient method to process and be presented successively. [ABSTRACT FROM AUTHOR]

Published

2023

23. Impact of mineral oil/water emulsion on clay swelling reduction during drilling.

Author

Al-Yasiri, Mortatha

Subjects

*MINERAL oils, *DRILLING fluids, *DRILLING muds, *EMULSIONS, *SHALE

Abstract

Drilling difficulties through reactive shales have been forced oil companies to use oil-based drilling fluids to stabilize borehole shales and risk completion impairment. On the other hand, drilling with water-based drilling fluid is easy to clean up and substantially increases drilling risks. The development of emulsified drilling fluids has offset some of the undesirable characteristics of water-and oil-based drilling fluids. Although several studies have investigated the possibility of developing invert emulsion-based drilling fluids, without sacrificing the cost-effectiveness of oil-based systems, little attention has been paid to o/w emulsion for reactive shales. This experimental work aims to formulate stable mineral oil/water emulsions and examine their potential to inhibit montmorillonite swelling in aqueous solutions. Numerous stabilities and swelling tests were performed to reach the stated goal, and the results were quantified in terms of the swelling index. A recipe of span 80 and Tween 80 with an HLB value of 10.5 was used to form a stable emulsion. The investigations show that mineral oil/water emulsion increased the performance of water-based mud (WBM) by inhibiting shale hydration. [ABSTRACT FROM AUTHOR]

Published

2023

24. Machine learning enhanced droplet microfluidics.

Author

Barnes, Claire, Sonwane, Ashish R., Sonnenschein, Eva C., and Del Giudice, Francesco

Subjects

*MICROFLUIDICS, *MACHINE learning, *MICROFLUIDIC devices, *SOFT lithography, *MINERAL waters, *MINERAL oils, *RAPID prototyping, *MINERALS in water

Abstract

Machine learning has recently been introduced in the context of droplet microfluidics to simplify the process of droplet formation, which is usually controlled by a variety of parameters. However, the studies introduced so far have mainly focused on droplet size control using water and mineral oil in microfluidic devices fabricated using soft lithography or rapid prototyping. This approach negated the applicability of machine learning results to other types of fluids more relevant to biomedical applications, while also preventing users that do not have access to microfluidic fabrication facilities to take advantage of previous findings. There are a number of different algorithms that could be used as part of a data driven approach, and no clear comparison has been previously offered among multiple machine learning architectures with respect to the predictions of flow rate values and generation rate. We here employed machine learning to predict the experimental parameters required for droplet generation in three commercialized microfluidic flow-focusing devices using phosphate buffer saline and biocompatible fluorinated oil as dispersed and continuous liquid phases, respectively. We compared three different machine learning architectures and established the one leading to more accurate predictions. We also compared the predictions with a new set of experiments performed at a different day to account for experimental variability. Finally, we provided a proof of concept related to algae encapsulation and designed a simple app that can be used to generate accurate predictions for a given droplet size and generation rate across the three commercial devices. [ABSTRACT FROM AUTHOR]

Published

2023

25. Shear stability of base fluids for environmentally acceptable lubricants for stern tube application.

Author

Večeř, Marek and Krčková, Simona

Subjects

*FREE fatty acids, *FLUIDS, *MARITIME shipping, *MINERAL oils, *LUBRICATION & lubricants, *BASE oils

Abstract

Legislative restrictions exist on using mineral oils for loss lubrication of marine propellers. A key question is finding a functionally suitable and economically acceptable substitute for mineral lubricants. The answer will make it possible to fundamentally limit the impact of international shipping on the marine ecosystem. This work presents the results of an experimental study of four types of base fluids and the influence of seawater on their properties. The results show that base fluids based on vegetable oils have a high viscosity index, i.e., their viscosity changes slightly with temperature. However, at the same time, they contain a relatively large amount of free fatty acids, which promote corrosion (high total acid number). The viscosity of saturated and unsaturated synthetic esters is more temperature dependent. However, their total acid number is significantly lower, making them suitable candidates for these applications. [ABSTRACT FROM AUTHOR]

Published

2023

26. Impact of temperature on acid value of binary blends of vegetable oil.

Author

Puri, Prafulla, Talkit, Kailas, Sawarkar, Kalyani, and Dubey, Priyanka

Subjects

*PETROLEUM, *PETROLEUM supply & demand, *VEGETABLE oils, *BASE oils, *MINERAL oils, *OZONE layer depletion, *LUBRICATING oils

Abstract

In industries and all mechanical machines lubricating oil plays a very important role for reducing friction. Lubricating oil worked as life support to all engines and machines. These lubricating oils are made up from environmentally hazardous mineral based oils which create environmental pollution. Due to environmental pollution global warming, acid rain and ozone depletion are increases and causes huge loss of environment and human health. Huge demand of petroleum oils in industries, domestic as well as agricultural sector results depletion of petroleum oil reservoir. Petroleum oil based lubricants are comes in contact with air, water and soil which causes environmental pollution and decreases the quality of air, soil and water. Thus due to all above effects, it is very important to search alternatives for petroleum based lubricant. Vegetable oils are very good alternative to petroleum base oils due to their ecofriendly characteristics. Vegetable oil also shows high viscosity, high lubricity and renewable properties. Increase in acid value with respect to temperature is the limitations of vegetable oils for their use as base oils for lubricants. The present research work is to overcome these limitations by preparing binary blends of vegetable oils. From the above research it is found that oxidative stability of vegetable oils improves by simple blending. [ABSTRACT FROM AUTHOR]

Published

2023

27. Numerical and artificial neural network analysis of an axisymmetric co-flow-focusing microfluidic droplet generator using active and passive control.

Author

Naji, Sarvin, Rahimi, Arvin, Bazargan, Vahid, and Marengo, Marco

Subjects

*MICROFLUIDICS, *TARGETED drug delivery, *MICROFLUIDIC devices, *MINERALS in water, *MINERAL oils, *MINERAL waters

Abstract

Droplet generation in microscale has gained enormous attention in recent years especially in the pharmaceutical industry due to their application in targeted drug delivery into droplets. In most of these applications, monodispersity and uniformity of droplets are essential. Microfluidic devices can generate droplets at high throughput, enabling thousands of droplet compound encapsulation per second. The monodispersity of the droplets is ensured hydrodynamically through the dripping regime and their uniformity is controlled by active and passive microflow control methods. Here, we study numerically a microfluidic chip that uses a non-embedded co-flow-focusing geometry, so that the droplet generation throughput can take advantage of the flow-focusing devices while the non-embedded co-flow geometry forecloses the surfactant addition necessity. The continuous and dispersed phases were light mineral oil and water, respectively. We investigated the formation of droplets and studied how changing the external diameter of the chip affects the transition between the dripping regime (which corresponds to monodispersity) and the jetting regime. The number of parameters to be taken into account for the optimization of the device is enormous; therefore, in order to account for the effect of many geometrical and hydrodynamical parameters, we trained an artificial neural network based on our simulation data. Using this neural network, we evaluated droplet formation in 3240 different cases. This approach resulted in a remarkable reduction of computation time, from months to seconds. Examining numerous cases in such a short period lets us choose the optimum geometry and flow rate based on the application. The optimization was able to find the best geometry to extend the region of dripping regime in the flow rate map. Finally, to harness the droplet generation frequency, we also simulated a periodically switched laser and we were able to predict the generation of droplets with the same frequency as the switching frequency. Therefore, altering and controlling the frequency and dimensions of the droplets for a given flow rate ratio could be achieved with this technique, even without satellite droplets. [ABSTRACT FROM AUTHOR]

Published

2023

28. Review on non-edible oil based as metalworking fluid for machining purposes-Calophyllum Inophyllum.

Author

Sabri, Ainaa Mardhiah, Talib, Norfazillah, and Sani, Amiril Sahab Abdul

Subjects

*EDIBLE fats & oils, *BASE oils, *FLUIDS, *MINERAL oils, *PETROLEUM waste, *VEGETABLE oils, *HEAT shock proteins

Abstract

Metalworking fluids are important in the manufacturing industry. Metalworking fluids are widely used for their ability to reduce friction, act as heat removal agents and protect against wear. The most common metalworking fluid is mineral base oil. However, the used of mineral-based oil as metalworking fluid raise concern in environmental and health issue due to its toxic properties and it is non bio-degradable. Thus, the research on vegetable oil was studied to replace mineral-based oil. Non-edible vegetable oil can be considered a promising substitute for traditional metalworking fluid. The use of non-edible oil as metalworking fluid can reduce the competition in using edible oil as metalworking fluid and for food. This review article intends to inform readers about the current trend in the use of non-edible vegetable oils as metalworking fluid. This study includes an up-to-date and detailed assessment of the newest research on the usefulness of non-edible oils and their modified forms, blended oils and nanoparticles as additives. This paper also includes the study on Calophyllum Inophyllum oil as a potential metalworking fluid that is found abundant around the world. [ABSTRACT FROM AUTHOR]

Published

2023

29. Nano-particle and its impact on the lubrication process.

Author

Singla, Amneesh and Singh, Yashvir

Subjects

*MINERAL oils, *ESSENTIAL oils, *HEAT of combustion, *FOSSIL fuels, *COMBUSTION chambers, *LUBRICATION & lubricants, *NONRENEWABLE natural resources

Abstract

Nowadays, due to the scarcity of fossil fuels, mankind is looking forward to the alternative fuel to boom the production of energy fuel so that there will be a reduction of use for non-renewable resources. Then there we get the introduction to biofuels. As the name itself has got you the meaning, it's the fuel energy extracted from the different plants. Most famous in India is Jatropha c. oil, Mahua Oil, Karanja Oil, etc. they are being mixed with the base oil or mineral oil to provide the essential physical, chemical properties, mechanical properties, etc for the process. And then we get to know about lubrication. The process of providing a film between two relatively moving bodies is called lubrication [1]. Lubrication needs to be taken in serious notes as this helps in different factors like reducing wear [2], blocking the flow of heat from the combustion chamber to the crankshaft, adsorbing the wear out particle from the relatively moving machine parts, etc. So, increasing the effectiveness of the lubricant, we can directly increase the longevity of the machinery. [ABSTRACT FROM AUTHOR]

Published

2023

30. The use of 808nm diode laser in melanoma laser treatment.

Author

AL Wash, Nahed H., AL Bakery, Solav A., Hussein, A. K., and Jawad, Ali Talib

Subjects

*SEMICONDUCTOR lasers, *LASERS, *GOLDEN hamster, *MINERAL oils, *HEAVY oil, *LASER therapy, *HEAVY minerals

Abstract

The effectiveness of photodynamic therapy vital tissues (tumor-melanomas) when exposed to irradiation diode laser, depend in the prior knowledge, on the status of the tumor and its level in the biological tissue. Increase absorbance contribute in the improvement of this treatment, in this research tumors of malacotic carried out in the skin of Syrian golden hamsters at its lower back ,by local application of chemical carcinogens(7, 12-dimethylbenz(a)anthracene 'DMBA') solved in acetone and mixed with heavy mineral oil, tumor statue and its level during a specific time period was diagnosed, to improve the efficiency of laser therapy, the tumor region injected by Photo sensitizer (cardio green 'ICG') at different concentrations, the optimal concentrations of ICG where determined. (Glycated chitosan ' GC') used as immunoadjuvant which has an important role in practical local melatonin tumor treatment, where treated by diode laser with wavelength 808nm and power 1W. This study gives efficiency and safety in treatment of pigmented lesions and melanomas, localized tumors. [ABSTRACT FROM AUTHOR]

Published

2023

31. Thermal characteristic of corn fluid blends as renewable bio-fluid.

Author

Hassan, Mohammed, Khudhair, Ahmed A., Ani, Farid Nasir, Anead, Hosham Salim, Jalil, Jalal M., Hussein, Hashim Abed, Mahel, Farag, Ibrahim, Raheek I., and Mohammed, Jamal A.

Subjects

*MINERAL oils, *PETROLEUM products, *CORN, *FLUIDS, *BASE oils, *DIESEL motors

Abstract

Investigating kinds of vegetable oil was done to substitute products with petroleum base because they have environmentally friendly features as well as they become vital sources for bio-fluids. The vegetable oil is useful because it is available as a renewable source. Moreover, the lubricants having bases of vegetable oil nature have designated potential for decreasing carbon dioxides as well as hydrocarbon emissions once they operate within an interior combusting engine also within industry process. Two methods for using vegetables' fluids as bio-fluids, the first is by direct using of neat vegetables' fluids with no blending and the second is by using specific rate of blending the vegetable oils along with the commercial fluids. Regarding the current work, investigating the mixing rate effects of mineral oil with double kinds of vegetable fluid was done on the thermal characteristics then a comparison was done with commerce oils using machine of four-ball type. Corn fluid (CON) and castor fluid (CAS) got blended separately at volumetric rate that ranges between 20 up to 80% with commercial mineral oils. Each experimentation work conforms to ASTM D4172. According to the outcomes, a number of blends of corn and castor fluids along with commerce oils reduced the scar diameter and increase the flash temperature parameter (thermal performance) compared to mineral fluid. Both blends exhibit lower friction's constant in comparison with oils of commercial lubricants. One could conclude that some blends of corn or castor fluid with commerce oils have well-performance in comparison with commerce oils or neat corn or neat castor fluid. [ABSTRACT FROM AUTHOR]

Published

2022

32. The effect of volume ratio of methanol and temperature on yields and properties of biodiesel from callophylum inophylum oil.

Author

Haryanto, Haryanto, Suppiah, Raja Rajeswary, Rohman, Ade, and Mulyadi, Abdul Haris

Subjects

*VEGETABLE oils as fuel, *PETROLEUM, *ALTERNATIVE fuels, *FATTY acid methyl esters, *MINERAL oils, *VEGETABLE oils, *PETROLEUM as fuel, *METHANOL

Abstract

Renewable energy is an alternative energy to anticipate the decrease of fuel oil. The vegetable oil based fuels are expected to reduce the dependence on unrenewable fuels. Calophyllum inophyllum oil is naturally organic, has similar physical properties with a mineral oil base. It was extracted from Calophyllum inophyllum plant which is abundant and called Nyamplung in Indonesia. So it is important to conduct research using callophlyum inophylum oil to produce an alternative biofuel. The aim of this work is to investigate the effect of methanol volume ratio and temperature on yield and properties of biodiesel. The methanol volume ratio was set up in a range of 5%, 10%, 15%, 20%, and 25% while temperature was 400C, 500C, 600C, 700C, and 800C. The results show that methanol volume ratio and temperature have an effect on biodiesel yield. The maximum yield of 83,7% was reached at methanol volume ratio of 20% and temperature of 60°C. The characteristics of biodiesel at that point are density value of 882 kg/m3, acid number value of 0.493 mg-KOH/G, and Iod number 22.84 G-I2/100g. These properties have fulfilled the standard quality of biodiesel according to SNI-7182:2015. [ABSTRACT FROM AUTHOR]

Published

2022

33. Effect of the composition of the lubricating and cooling fluid on the roughness and corrosion resistance of surface parts after processing.

Author

Gaidar, S. M., Pydrin, A. V., Najm, Naji A., Pikina, A. M., Golubev, M. I., Shaaban, Fatma, and Sudnik, Yuri

Subjects

*SURFACE resistance, *CORROSION resistance, *MINERAL oils, *COPPER corrosion, *COPPER alloys, *BASE oils

Abstract

The purpose of the research is to assess the effect of the cutting coolant composition on the roughness and corrosion resistance of the part surfaces after machining. Three types of commercial cutting coolants having a concentration of 10% were selected as the tested compositions. The first composition (sample 1) is a balanced mixture of mineral oils, emulsifier, corrosion inhibitor and other components (analogous to "Emulsoifiers type" compositions). The second composition (sample 2) is a semi-synthetic cutting coolant containing about 15% mineral oil, as well as a corrosion inhibitor, biocidal additives, an emulsifier and other components. The third composition (sample 3) is a synthetic cutting coolant that does not contain mineral oils. The coolant flow rate was 10 L / min in all the experiments. Research to determine the roughness of the machined surface was carried out on the 16R25 screw lathe. The following cutting conditions were selected for machining the workpiece: a cutting depth of 0.25 mm; a spindle speed of 590 rpm; a feed of 0.2 mm / rev.; a cutting rate of 85 m / min. The protective efficiency of the coolant was assessed using the gravimetric method for determining the rate of corrosion of metals, which has two main applications: determining the increase in weight due to the formation of corrosion products on the surface of the sample and determining the loss of weight after removing the corrosion products formed. The second option was used in the research. Corrosion products were removed using special solutions. The tested samples were flat plates having a size of 50x50x3 mm and made of St3 GOST 380-2005 steel grade and M1 GOST 859-2001 copper grade. The investigated cutting coolant compositions reduced the height of microroughness on the surface of parts after turning. The most effective formulations were based on a synthetic cutting coolant (sample 3), which do not contain mineral oils. The greatest anticorrosive protective effect for the surfaces of steel parts was possessed by the compositions of cutting coolants based on synthetic cutting coolants (sample 3). It was revealed that compositions based on mineral oils (samples 1 and 2) upon contact with copper stimulated the corrosion process, therefore they were not recommended for use in the machining of parts made of copper and copper alloys. [ABSTRACT FROM AUTHOR]

Published

2022

34. Evaluating the use of composite rapeseed and mineral diesel-fuel oil in automotive diesel engines and the effect of its heating on the operating conditions of fuel-injection equipment.

Author

Averyanov, A. S., Vlasov, S. N., Khokhlov, A. L., and Khokhlov, A. A.

Subjects

*DIESEL motors, *MINERAL oils, *FUEL pumps, *DIESEL fuels, *RAPESEED, *RAPESEED oil

Abstract

The paper presents the results of the experimental research aimed at evaluating the effect that the heating of composite diesel-fuel oil produces on the fuel pressure at the high-pressure injection pump adapter output, as well as on the speed and the time of the fuel pressure wave transmission through the fuel pressure line. The research was conducted with a fixed regulating rod at different injection pump camshaft rotation rates (rounds per minute), from starting (200 RPM) to rated (1100 RPM) in increments of 100 RPM. The high-pressure injection pump operated on the mineral diesel fuel of the JT-0,2-40 line and various composite diesel-fuel oils. Prior to the research the injection pump had been adjusted for the cyclic injection (72±1,5 cmm per cycle), which corresponds with the.D-243 diesel operation on mineral diesel fuel. The data analysis results show that with the increase in the injection pump camshaft RPM and the rapeseed oil content of the composite diesel fuel at 30° centigrade, the fuel pressure at the injection pump adapter output experiences a steep rise, which is moderated upon the application of heat. The same tendency is observed with the change in the speed of the fuel pressure wave transmission through the fuel pressure line. [ABSTRACT FROM AUTHOR]

Published

2022

35. Investigation of dielectric properties of blended ester oils and dielectric fluids used in transformer at different temperatures.

Author

Khandai, Sujit, Jasper, D., Adhikari, Krishanlal, Kumbhakar, Partha, Kumbhakar, Pathik, and Roy, Nirmal Kumar

Subjects

*DIELECTRIC properties, *LIQUID dielectrics, *MINERAL oils, *INSULATING oils, *BREAKDOWN voltage, *DIELECTRIC loss, *ESTERS

Abstract

The insulating oil is the most critical element of the transformers. For better performance of the transformers, the dielectric properties (AC Breakdown voltage (AC BDV), DC BDV, dielectric losses, and insulation resistance) should be in a considerable range. In the present scenario, mineral oils are used as dielectric insulation oil in the transformers, which is very hazardous to the environment as well as has a limited resource. In the present work, the dielectric behavior of blended ester oils (Natural and Synthetic) and mineral oil at different temperature levels have been investigated by using a 100 kV motorized AC/DC breakdown voltage test set and loss tangent, permittivity, and resistivity test set. The results revealed that the blend of coconut oil and synthetic oil (M4) gives better dielectric properties, i.e., AC BDV increases by about 51%, and DC BDV increases by 61% as compared to mineral oil. Thus, it is established that blended ester oils can be an alternative to traditionally used mineral oil. [ABSTRACT FROM AUTHOR]

Published

2022

36. Rheology of polydisperse nonspherical graphite particles suspended in mineral oil.

Author

Larsen, Th., Søbye, A. L., Royer, J. R., Poon, W. C. K., Larsen, T., Andreasen, S. J., Drozdov, A. D., and Christiansen, J. D. C.

Subjects

*MINERAL oils, *RHEOLOGY, *PSEUDOPLASTIC fluids, *ACTIVATION energy, *MICROPHYSICS, *CURVE fitting

Abstract

We study the role of filler concentration and microphysics on the rheology of polydisperse flake-graphite particles suspended in Newtonian mineral oil. Under steady shear, our samples exhibit shear thinning, and yielding behavior is observed for volume fractions ϕ > --> 0.18. Time-temperature superposition was observed using an Arrhenius-type horizontal shift factor, giving a flow activation energy that is dependent on the graphite volume fraction, suggesting concentration-dependent contributions to relaxation processes in the suspensions. The flow curves are fitted by a constraint-based model, indicating that the flow behavior is controlled by frictional and adhesive contacts, with the model suggesting that the adhesive stress is temperature dependent. [ABSTRACT FROM AUTHOR]

Published

2023

37. New insights on carbon black suspension rheology—Anisotropic thixotropy and antithixotropy.

Author

Wang, Yilin and Ewoldt, Randy H.

Subjects

*THIXOTROPY, *CARBON-black, *RHEOLOGY, *TRANSIENTS (Dynamics), *MINERAL oils, *FIXED interest rates, *STRESS relaxation (Mechanics)

Abstract

We report a detailed experimental study of peculiar thixotropic dynamics of carbon black (CB, Vulcan XC-72) suspensions in mineral oil, specifically the observation of sequential stress increase then decrease at a fixed shear rate in a step-down test. We verify that such dynamics, though peculiar, come from a true material response rather than experimental artifacts. We also reveal how this long-time stress decay is associated with antithixotropic structural change rather than viscoelastic stress relaxation by using orthogonal superposition (OSP) rheometry to probe viscoelastic moduli during the step-down tests. The orthogonal storage and loss moduli are present, showing this two-timescale recovery then decay response, which demonstrates that this response is antithixotropic, and it involves shear-induced structuring. We further show a mechanical anisotropy in the CB suspension under shear using OSP. Based on the rheological results, a microstructural schematic is proposed, considering qualitatively thixotropic structure build-up, antithixotropic densification, and anisotropic structure evolution. Our observation for these CB suspensions is outside the standard paradigm of thixotropic structure-parameter models, and the elastic response provides us with new insight into the transient dynamics of CB suspensions. [ABSTRACT FROM AUTHOR]

Published

2022

38. Improvement of the transformer insulation oils by adding nanoparticle.

Author

Ali, Sajeda Abd, Hasan, Ibtisam A., and Hussain, Ekbal

Subjects

*TRANSFORMER insulation, *NANOFLUIDS, *INSULATING oils, *MINERAL oils, *TEMPERATURE distribution, *FINITE element method

Abstract

For a distribution transformer, a suggested thermal model is analyzed. In order to attain temperature distribution in three-phase transformer (250 KVA 11/.416 KV core type, mineral oil) by 'COMSOL Software,' a 30 simulation was performed by a transient analysis in the light of Finite Element Method (FEM). Meanwhile, using the proposed model, the oil type effects on the HOST are examined. Two types of nano particles (Al2O3) and (CuO) with a volume concentration of 0.3, 0.5, 0.8 percent, where the maximum temperature decreased by around 9 °C to 0.8 percent of Al2O3, were used to measure the effect of nanoparticles on the heat transfer process by replacing the insulation oil with nano fluid. In contrast to realistic calculation, the current model has successfully achieved the expectation of temperature distribution at every location in the transformer. [ABSTRACT FROM AUTHOR]

Published

2022

39. Insights into the dynamics of non-Newtonian droplet formation in a T-junction microchannel.

Author

Kumari, Pooja and Atta, Arnab

Subjects

*PSEUDOPLASTIC fluids, *XANTHAN gum, *VISCOSITY, *TRANSITION flow, *MINERAL oils, *AQUEOUS solutions

Abstract

The non-Newtonian shear-thinning droplet formation mechanism in a T-junction microchannel is experimentally investigated using the aqueous solutions of xanthan gum as the dispersed phase and mineral oil as the continuous phase. Influences of both phase flow rates and polymer concentration on flow regime transition are explored. It is observed that the initial vertical expansion stage is present only for the Newtonian and lower shear-thinning systems. The droplet evolution rate shows the influence of continuous phase flow rate and shear-thinning properties on the dynamics of necking stages, viz., squeezing, transition, pinch-off, and filament thinning. Analysis of Ohnesorge number (Oh) reveals that inertial force dominates in the squeezing stage, whereas viscous and interfacial force control in the filament thinning stage. Longer and stable filament generation is detected as a discerning feature for non-Newtonian systems that appears more prominent with increasing dispersed phase shear-thinning properties. The results also indicate an inverse relation of droplet length with the continuous phase flow rate and xanthan gum concentration, while the droplet formation frequency and its polydispersity vary directly with those parameters. [ABSTRACT FROM AUTHOR]

Published

2022

40. Results of the study of the influence of oxidative processes on the viscosity-temperature characteristics of mineral motor oils.

Author

Kovalsky, B. I., Bezborodov, Yu. N., and Efremova, E. A.

Subjects

*LUBRICATING oils, *MINERAL oils, *TEMPERATURE control, *OPACITY (Optics), *VISCOSITY

Abstract

The results of the study of the influence of oxidative processes on the viscosity-temperature characteristics of mineral motor oils Rosneft M-10G2k and Lukoil Super 15W-40 SG/CD at temperature control temperatures of 180,170 and 160 degrees Celsius are presented. The potential resource and the criterion of the viscosity-temperature characteristic, determined by the product of the optical density and the viscosity index, are proposed as an indicator for justifying the maximum permissible temperature of the working capacity of motor oils. [ABSTRACT FROM AUTHOR]

Published

2021

41. Flow regime mapping for a two-phase system of aqueous alginate and water droplets in T-junction geometry.

Author

Mehraji, Sima and Saadatmand, Maryam

Subjects

*ALGINIC acid, *LEVEL set methods, *MINERAL oils, *JETS (Fluid dynamics), *LAMINAR flow, *DROPLETS, *ALGINATES

Abstract

Microfluidic systems are an interesting topic for investigation due to their wide-spreading applications. Nowadays, polymeric solutions are used mainly for the generation of microparticles in biomedical engineering, food, and pharmaceutical industries. Droplet-based microfluidic devices have proposed an extensive interest in many applications such as chemical/biological/nanomaterial preparation to understand deeply the droplet size and formation in microchannels. However, numerous experimental and numerical studies have been done for oil–water combination, polymeric solutions behavior in the presence of oil has not been investigated widely. Therefore, it is important to understand the droplet formation mechanisms in a microfluidic device for both water and polymeric solutions to determine the flow regime mapping in order to control the characteristic of the produced droplets. Also, in many studies, the length of the droplets as a parameter to investigate the droplet size was studied. In this study, droplet generation in the T-shaped microfluidic junction with an enlarged horizontal outlet channel was studied to have opportunity to determine the diameter of spherical droplets. The water and the alginate 1% (w/v) solutions were used separately as a dispersed phase, and the mineral oil was used as the continuous phase in which the solution's flow rates were varied over a wide range. To perform numerical simulations of the droplet formation, a two-phase level set method was used which is a suitable method for the investigation and simulation of immiscible fluids. The flow regime mapping for the two different aqueous solutions was obtained. Furthermore, the influences of flow rates on droplet size, droplet generation frequency was quantified. In this study, flow regime, droplet size, and droplet frequency were studied. In general, flow rates of the oil and aqueous fluids readily control five main flow regimes including backflow, laminar flow, dripping flow, squeezing flow, jetting flow, and fluctuated flow. It was observed that generated droplets with alginate solution as dispersed phase were more in the region of the jetting flow regime while water droplets were more in the region of the dripping flow regime, this can be due to the difference in characteristics of polymeric solution and water. For both aqueous phases, larger droplets were obtained when flow rates of oil were decreased and aqueous phases were increased. Also, the frequency of droplet generation increases and decreases by increasing oil phase flow rate and increasing aqueous phase flow rate, respectively. In the same flow rates of aqueous phase and oil, the sizes of water droplets are larger than the alginate droplets and also water has a higher frequency of droplet generation compared to alginate. Finally, we characterized all the obtained data for flow regimes due to the capillary number (Ca) of the continuous phase. The findings of this study can help for better understanding of the detailed process of droplet generation of water and alginate solution as dispersed phase separately with mineral oil as the continuous phase in a T-junction geometry microfluidic and know the effect of characteristics of solutions as a dispersed flow in flow regimes. [ABSTRACT FROM AUTHOR]

Published

2021

42. Performance evaluation of nano-enhanced coconut oil as sustainable lubricant.

Author

Sadiq, Ibrahim Ogu, Suhaimi, Mohd Azlan, Sharif, Safian, Yusof, Noordin Mohd, Park, Kyung-Hee, Rahim, Shayfull Zamree Abd, Alias, Nuruljannah, Razak, Rafiza Abd, Abdullah, Mohd Mustafa Al Bakri, Tahir, Muhammad Faheem Mohd, Mortar, Nurul Aida Mohd, and Jamaludin, Liyana

Subjects

*COCONUT oil, *MINERAL oils, *KINEMATIC viscosity, *BASE oils, *THERMOPHYSICAL properties, *VEGETABLE oils, *LUBRICATION & lubricants

Abstract

Lubricants are used to reduce friction between contacting surfaces, especially involving mechanical parts. There has been considerable effort to develop a lubricant that will aid sustainable process and efficient performance. Because of their environmental friendliness, biodegradability, less toxic, and good lubricity, vegetable oils are considered a better substitute for mineral oils. However, their thermal and oxidative stability of vegetable needs to be improved for efficient lubrication. This research is aimed at developing and performance evaluation of vegetable oil-based nanolubricants with maghemite nanoparticles at different volume concentrations for sustainable lubrication. Maghemite nanolubricants were prepared by dispersion of the maghemite (γFe2O3) nanoparticles into vegetable oil at a different level of inclusions (0.1, 0.2, and 0.3 vol.%). The result indicated an improvement in the thermophysical properties of the nanolubricants with increased concentration, while an increase in temperature decreases their enhancement. The kinematic viscosity of coconut oil is enhanced with an increase of volume fractions that enable them to form a protective thin film under higher temperature operation. At the temperature of 80 °C, an increase of 30.68% was observed in the viscosity of nanolubricant over the pure base oil. The highest thermal conductivity enhancement over the base fluid is 7.33%, corresponding to a ratio of 1.079 times improved performance at a concentration of 0.3 vol.% inclusion over the pure base oil. The tribological properties showed that the wear scar diameter and coefficient of friction decrease with an increase of concentration. Thus making the addition of maghemite nanaoparticles in biolubricants a promising nanolubricant for sustainable machining. [ABSTRACT FROM AUTHOR]

Published

2020

43. Influence of the concentration and particle size of rock powders on the anti-wear properties of oils.

Author

Skotnikova, M. A., Breki, A. D., Evsin, M. G., Kalinin, V. Y., Wasilewski, M. R., and Shalygin, Mikhail Gennady

Subjects

*OHMIC resistance, *MINERAL oils, *SERPENTINITE, *SYNTHETIC lubricants, *PETROLEUM

Abstract

Using optical microscopy, evaluation of the ohmic resistance of oil layers in tribocontact, and tribological studies, the results of the influence of the particle size of soft rocks of the serpentine group: antihorites, lizardites, and chrysotiles on the anti - wear properties of liquid lubricants-LUKOIL Standard 10W40 mineral oil and synthetic Castrol SLX 5W40. The optimal size of serpentine particles is 3...5 microns. The inefficiency of serpentine modification of Castrol SLX 5w40 synthetic oil is proved based on the results of wear intensity testing and measurement of the ohmic resistance of the oil layer in tribocontact. [ABSTRACT FROM AUTHOR]

Published

2020

44. Experimental analysis of tribological performance of modified Jatropha oil enriched with nanoparticle additives for machining application.

Author

Jamaluddin, N. A., Talib, N., Sani, A. S. A., Rahim, Shayfull Zamree Abd, Saad, Mohd Nasir Mat, Abdullah, Mohd Mustafa Al Bakri, Tahir, Muhammad Faheem Mohd, and Mortar, Nurul Aida Mohd

Subjects

*VEGETABLE oils, *MINERAL oils, *JATROPHA, *KINEMATIC viscosity, *EDIBLE fats & oils, *SURFACE roughness

Abstract

The intensified developments of the vegetable-based metalworking fluids have been growing rapidly due to the environmental and health issue of the utilization of the mineral based oil. The vegetable oils are a great potential substitution of the mineral based oil which has been explored in recent years due to their high biodegradability, renewability and low toxicity in comparable with mineral oil. Non-edible vegetable oil had attracted an attention of the researches in contrast with edible oil which significantly compete with the human food supply. The main focus of this study was to evaluate a new formulation of vegetable-based nanofluid from chemically modified jatropha oil (MJO) blended with hexagonal boron nitride (hBN), graphene and copper oxide (CuO) nanoparticles at 0.05 wt.% concentration. The physicochemical testing was carried out in term of kinematic viscosity, viscosity index and flash point and was compare with commercial synthetic ester (SE). The analysis of MJO mixed with nanoparticles in the perspective of it tribological has been performed through a four ball tribo testing to determine the coefficient of friction, mean wear scar diameter, friction torque, surface roughness and volume wear rate. The results showed that the tribological performance the MJO+0.05wt.% CuO exhibit lowest value in of coefficient of friction and friction torque followed by MJO+0.05wt.% graphene, MJO+0.05wt.% hBN and SE. Nevertheless, the MJO+0.05wt.% graphene and MJO+0.05wt.% hBN provided the significant improvement by providing the lowest value of the mean wear scar diameter and surface roughness respectively. It concluded that the modified jatropha oil enriched with nanoparticles had a great improvement on their tribological performance, hence it's a highly potential substitution of the SE for machining process. [ABSTRACT FROM AUTHOR]

Published

2020

45. Minimum quality lubrication: A comprehensive review.

Author

Khetre, Subhash, Bongale, Arunkumar, Kumar, Satish, Bongale, Anupkumar, Sugumaran, P., and Raj, Jennifer S.

Subjects

*MACHINABILITY of metals, *MINERAL oils, *LUBRICATION & lubricants, *SYNTHETIC lubricants, *VEGETABLE oils, *GRINDING & polishing, *MANUFACTURING industries, *COOLANTS

Abstract

Nowadays, the minimum quantity lubrication method has become the eye apple of many manufacturing industries. MQL is a cooling procedure in which a very small volume of high quality refrigerant / lubricant is sprayed directly onto the work piece-tool interface. MQL machining has gained popularity over other cooling techniques due to its ability to produce superior surface quality, lower machining temperature, lower tool wear and lower coolant / lubricant consumption. Several researchers are continuing their work on new methods to strengthen the properties of coolants / lubricants. In this paper, efforts are being made to present important work by different researchers on the role of different coolant / lubricant in enhancing MQL environmental capability. A detailed overview of the functions of various processing fluids is presented in this text. such as vegetable oils, mineral oils, synthetic oils and nano-fluid-based machining fluids, in improving the machinability of MQL in spinning, milling and grinding operations. This paper also addresses the role of machining fluids in the enhancement of machining aspects such as surface strength, machining temp erature, tool wear and cutting insert life. [ABSTRACT FROM AUTHOR]

Published

2020

46. Combined effects of water emulsion and CH3NO2 (nitromethane) additive on combustion performance and emissions characteristics of a single-cylinder diesel engine using neem and cotton seed oil as biodiesel blends.

Author

Rajasekar, R., Premnath, S., Sankar, S. Lakshmi, Sakthivel, R., Dhinakaran, V, Kumaresan, G, and Raju, Ramesh

Subjects

*EXHAUST gas recirculation, *DIESEL motors, *NEEM oil, *FUEL additives, *BIODIESEL fuels, *DIESEL motor exhaust gas, *EMULSIONS, *MINERAL oils, *COMBUSTION

Abstract

In the present study, the effects of water emulsion and CH3NO2 (nitromethane) additive on the combustion performance and emission characteristics using biodiesel blends are investigated on single cylinder diesel engine. The emulsification technique is used to reduce the oxides of nitrogen emission. Biodiesel is produced from cotton seed, neem oil and blended with mineral diesel to form different blend compositions with Nitromethane as an additive. Blends 10, 20, 30, 40 and 100% diesel are the blending proportion. The experiment was undergone in single-cylinder diesel engine coupled with an exhaust gas analyzer. For making emulsion, surfactant blends were screened for their effectiveness in stabilizing water in biodiesel emulsion system. The Biodiesel was mixed with water in different the ratios to investigate the stability & characteristic of fuel. Effective results were obtained with blend of SPAN 80/TWEEN 80. A high-speed mixing homogenizer technique was used to obtain the resultant water in biodiesel emulsion containing blend of SPAN 80/TWEEN 80. Effective results were foreseen on the combination of B20 proportion with CH3NO2 blend in specific fuel consumption and envisioned amount of reduced emission behaviour was observed. [ABSTRACT FROM AUTHOR]

Published

2020

47. Study on characteristics of calophyllum inophyllum oil as a new alternative cutting fluid.

Author

Wulandari, Wahyu Nuri, Darsin, Mahros, Wibowo, Robertoes Koekoeh Koentjoro, Anam, Khairul, Wiyono, Retno Utami Agung, Darmayanti, Rizki Fitria, Setiawan, Felix Arie, and Rohman, Abdur

Subjects

*CUTTING fluids, *CALOPHYLLUM inophyllum, *METALWORKING lubricants, *MINERAL oils, *VEGETABLE oils

Abstract

Nyamplung tree or calophyllum inophyllum is widely spread and plentiful in Indonesia. Its seed is rich of oil (65-75% oil content) and potentially developed as non-edible oil. However, in fact it is not commercially yet. At the moment, some research has been carried out by using its oil for biodiesel, basic ingredients for soap, beauty products and medicines. The purpose of this paper is to investigate the feasibility of calophyllum inophyllum oil for cutting fluids. Previously, some vegetable cutting oils have been tried and they are potentially succeed as a replacing mineral oil. Previously, some vegetable cutting oils have been tried and they are potentially succeed for replacing mineral based ones. The calophyllum inophyllum oil is made from their seed in several steps: (i) drying for 4-6 hours, (ii) milling, (iii) drying with oven temperature of 65°C for 21 days, (iv) pressing in a press machine, (v) extraction mechanically and then (vi) separation by washing in a-4000 rpm centrifugal machine for 30 minutes. The examined characteristics are viscosity, flash point, and pour point. The test methods that used for each physical properties are in accordance with standards ASTM D445-04 and ASTM D 2270, ASTM D 93-02a, ASTM D 97-05 respectively. The observation results showed the characteristics of the oil are (i) viscosity of 58,887 cSt (at 40°C) and of 11,879 cSt (at 100°C), (ii) flash point of 104°C, (iii) pour point 176°C. If compared to mineral cutting fluids, the physical characteristics of calophyllum inophyllum oil are not much different. It implies that calophyllum inophyllum oil can be used as a new environmentally friendly cutting fluid. The utilization of calophyllum inophyllum oil for cutting fluids will be able to elevate the economic potential of the society. [ABSTRACT FROM AUTHOR]

Published

2020

48. Research processes of oil and paper insulation of high-voltage equipment during operation.

Author

Lakshmi, G. Sree, Oleksandr, Rubanenko, Olena, Rubanenko, Iryna, Hunko, Rani, G Neeraja, Anjaiah, J, and Raju, P

Subjects

*MINERAL oils, *PETROLEUM, *CURRENT transformers (Instrument transformer), *SERVICE life, *TRANSFORMER insulation

Abstract

The article analyzes the factors that accelerate the aging process of the oil-paper insulation of the condenser type and shorten its service life. Attention is drawn to the fact that the breakdown of flat insulation made of condenser paper occurs at the location of the inclusion, which approximately corresponds to the field of uniform field. An example of damage to the insulation of a current transformer due to its aging and moisture is given. This work was analysed the influence of thickness and density of paper, grade of mineral oil on short-term electrical strength. The characteristics of the insulating papers of the permeable composition largely determine the electrical strength of the paper-oil insulation.Since paper-oil insulation consists of a series of successive layers of paper and oil, it is advisable to present such insulation by the equivalent scheme shown in fig. 1, in which the thickness of the paper-oil dielectric is divided into two layers: paper (fiber) and mineral oil, connected in series. [ABSTRACT FROM AUTHOR]

Published

2020

49. Biodegradable Cutting Fluids for Manufacturing Processes.

Author

V., Sharan, Jesudoss Hynes, N. Rajesh, and Sankaranarayanan, R.

Subjects

*CUTTING fluids, *MANUFACTURING processes, *METALWORK, *MINERAL oils, *HUMAN ecology, *METAL cutting

Abstract

Cutting fluid is an essential and basic part of manufacturing process especially in metal cutting works. It performs various functions such as friction reduction, heat curtailment, surface enhancement etc. In spite of several technical benefits, cutting fluids such as mineral oils, petroleum based fluids, synthetic fluids etc. contaminates the working environment including human health. Here the necessity arises for bio-friendly cutting fluids where research works are in full swing. Natural cutting fluids considered to be highly eco-friendly and creates healthy workplace in the engineering industry. The current paper overview the prospects of biodegradable cutting fluids for manufacturing Processes. [ABSTRACT FROM AUTHOR]

Published

2020

50. Apparent wall slip effects on rheometric measurements of waxy gels.

Author

Marinho, Thiago O., Marchesini, Flávio H., de Oliveira, Márcia C. K., and Nele, Márcio

Subjects

*YIELD stress, *PIPELINE transportation, *SHEARING force, *PETROLEUM pipelines, *CONFIGURATIONS (Geometry), *MINERAL oils

Abstract

The effects of apparent wall slip on rheometric measurements of waxy gels are quantified for gels consisting of a macrocrystalline wax added in mineral oil in concentrations of 3.0 and 7.5 wt. %. The waxy gels are formed in situ in a stress-controlled rheometer, and rheological properties are then obtained. Seven different geometry configurations, including parallel plates, concentric cylinders, and vane, are employed. The surface roughness of the different geometries and wax crystals size are assessed to provide insight into the apparent wall slip phenomenon. In the presence of smooth surfaces, a decrease in approximately 80% in the measured yield stress value is observed in oscillatory tests, regardless of system composition. In addition, the storage modulus measurements are substantially different when obtained from smooth or grooved geometries. In creep experiments, the yield stress measurements decrease by 68%. As expected, apparent wall slip markedly affects the shape of the flow curves obtained, causing the appearance of kinks for smooth Couette geometry. Apparent slip velocities are calculated in the regime just above the yield stress, and it is found that for low concentrations apparent slip increases with concentration and decreases with the ratio between the shear stress and dynamic yield stress. The gathered results also demonstrate that the reproducibility of rheological measurements is improved by using geometries with grooved parts. By quantifying the effects of apparent wall slip on rheological measurements of waxy gels for different geometries, this work can provide useful information for the design of pipelines and oil transportation processes. [ABSTRACT FROM AUTHOR]

Published

2021