Recent advances of ultrasound applications in the oil
Luo et al. [56] provided a summary review for oil extraction from oily sands including US-assisted methods. Even though most of their research and references dated back to a
A recent study was conducted to determine the most effective processing time for ultrasonic treatment of oil, with a focus on the kinematic viscosity of the oil over a 50 min period . The results showed that there were
A review on application of ultrasound
A recent study by Senrayan and Venkatachalam compared UAE with traditional solvent extraction (SE) in an orbital shaker and Soxhlet extraction (SXE) for the extraction Kapok seed oil. The study revealed a 92.29% of oil recovery within
The present study, ultrasound-assisted extraction (UAE) was used to extract Croton macrostachyus leaf oil, which enhances the rate of reaction and temperature in a shorter length of
Advance in Ultrasound-Assisted Extraction
Ultrasonic waves cause an increase in oil ex traction efficiency through their mechanical effects, cavitation, and the energy gen erated by th is phenomenon. T emperature, time, solvent to s ample
Abramov et al [9] conducted a field study at the Demkinskoe oil production facility using ultrasonic elements in order to determine their effect on viscosity and oil recovery. The oil field
Ultrasound-assisted enzymatic extraction of oil ScienceDirect
Sonication plays two major roles during the extraction of oil from oilseeds. First, it acts as an abundant source of energy to disrupt oil-bearing cells to discharge the oil, and second, it
The recovery of flaxseed oil was higher with hexane followed by dichloromethane. The ultrasonic treatment at frequency of 40 kHz, temperature of 30 C, extraction time of 40 min and solid to
Ultrasonic supported oil extraction, process modeling,
oil extraction from Croton macrostachyus leaf. In addition, no reports have been published examining various ultrasonic extraction conditions to obtain oil from Croton macrostachyus leaves. This
The parametric study of the oil extraction from palm oil mill effluent (POME) has never been done before. Therefore, four organic solvents including n-hexane, methanol, ethanol, and toluene were
Optimization and technoeconomic analysis of biooil extraction
In the present investigation, the bio-oil extraction from Calophyllum inophyllum seeds using an ultrasonic-assisted heterogeneous solvent technique has been carried out in order to
The flaxseed oil extraction process has been investigated and enhanced by applying Ultrasonic-Assisted Extraction (UAE), and Mixer-Assisted Extraction (MAE) methods in this study.
TRACEUltrasound and Microwave Assisted Extraction of Soybean Oil
Soybeans, one of the world's leading cash crops, contain appropriately 20% lipid. Currently, soybean oil is the principal vegetable oil used in the U.S. and the world market, totaling
The extraction and transesterification of
Faculty of ScienceUltrasonic assisted Extraction of Kaempferia galanga
ultrasonic-assisted extraction is implemented to extract the essential oil. Thus, for this study, K. galanga, a medicinal herb plant, is chosen for the research of essential oil extraction and
Extraction of microalgae oil Ultrasonic techniques In this study, the time taken for the sonication was set at 20 min with 5 min time lapse. Time lapse is important in this process because the solvents
- Can Ultrasound-assisted extraction improve Croton macrostachyus leaf oil recovery?
- The present study, ultrasound-assisted extraction (UAE) was used to extract Croton macrostachyus leaf oil, which enhances the rate of reaction and temperature in a shorter length of time while also ensuring the highest oil recovery.
- How do ultrasonic waves affect oil extraction efficiency?
- Ultrasonic waves cause an increase in oil extraction efficiency through their mechanical effects, cavitation, and the energy generated by this phenomenon. Temperature, time, solvent to sample ratio, solvent type, and ultrasonic power are the most effective factors in the ultrasound-assisted extraction of oils.
- Can ultrasonic technology improve oil & gas production?
- In the last two decades, ultrasound (US) technologies research has increasingly earned attention for applications in the oil and gas industry. Numerous laboratory and field research have proven ultrasonics as an efficient, sustainable and cost-effective technology for improving well productivity.
- How does ultrasonic treatment affect crude oil?
- Crude oil containing paraffins and resins has a periodic colloidal structure formed at elevated temperatures and pressures in reservoir conditions. Ultrasonic treatment destroys the colloidal structure, and a new structuring occurs under new conditions, which changes the colloidal particles themselves and increases the viscosity of the oil.
- Can Ultrasound-assisted enzymatic extraction improve oil recovery from oilseeds?
- 11.1. Introduction In recent years, ultrasound-assisted enzymatic extraction (UAEE) has gained immense popularity, and the synergistic effect of ultrasound and enzymes in oil recovery from oilseeds and other oil-bearing substances is widely explored.
- How do ultrasonic waves affect oil recovery and emulsification?
- A comprehensive review of the ultrasonic waves’ mechanisms of action for enhanced oil recovery (EOR) and emulsification/demulsification was conducted. Despite the lack of consensus regarding the mechanisms, cavitation and thermal effects on wellbore fluid and formation rock have been widely accepted as two of the most influencing mechanisms.
