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Artículos de revistas sobre el tema "Extraction intensification"

Autor: Grafiati
Publicado: 11 de enero de 2025
Última modificación: 31 de julio de 2025

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1

Tang, Zhigang, Zhimin He, Hongwei Li, Dong Guo, and Zhijun Zhao. "Process Intensification in Tiopronin Extraction." International Journal of Chemical Engineering and Applications 7, no. 6 (2016): 433–36. http://dx.doi.org/10.18178/ijcea.2016.7.6.620.

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2

Babenko, Yu I., and E. V. Ivanov. "Optimizing the intensification of extraction." Theoretical Foundations of Chemical Engineering 46, no. 2 (2012): 149–52. http://dx.doi.org/10.1134/s0040579512010010.

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3

Bart, H. J., C. Drumm, and M. M. Attarakih. "Process intensification with reactive extraction columns." Chemical Engineering and Processing: Process Intensification 47, no. 5 (2008): 745–54. http://dx.doi.org/10.1016/j.cep.2007.11.005.

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4

Belghith, Yosra, Imen Kallel, Maxence Rosa, et al. "Intensification of Biophenols Extraction Yield from Olive Pomace Using Innovative Green Technologies." Biomolecules 13, no. 1 (2022): 65. http://dx.doi.org/10.3390/biom13010065.

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Olive pomace is the main by-product generated by the olive oil production process. Although toxic to the environment, olive pomace is an important source of natural antioxidants due to its high content of phenolic compounds. The aim of the current study is to maximize the extraction yields of the main phenolic compounds present in olive pomace using innovative green technologies. For this purpose, the present work is divided into two parts. The first part is based on a solubility study of targeted phenolic compounds in various ethanol/water ratios at two different temperatures (20 °C and 50 °C
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5

Moskalenko, Tatiana, Valery Mikheev, and Elena Vorsina. "Intensification of humic acid extraction from lignites." E3S Web of Conferences 192 (2020): 02024. http://dx.doi.org/10.1051/e3sconf/202019202024.

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One of the methods of initial properties of solid fuels changing by their organic mass oxidation is considered in the paper. Creation of innovative ways of intensification of existing solid fuels processing and their adoption by industry has always been and remains an actual task. Thus the chemical process is the most important stage of raw materials processing into target products. Chemical exposure allows to optimize the technological mode, expanding the scope of control of technological process parameters and, to a certain extent, modify the properties of the resulting products. The article
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6

Kosheleva, M. K. "Extraction of sodium hydroxide from cotton processing facilities." Chemical Bulletin 7, no. 3 (2025): 102–8. https://doi.org/10.58224/2619-0575-2024-7-3-102-108.

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the process of extracting technological contaminants from textile materials is considered as a mass transfer process, for the intensification of which pulsed exposure to an ultrasonic field is chosen. A lightweight fabric was selected for the study in order to eliminate the influence of surface density and fabric thickness on the kinetics of the process. The results of an experimental study of the kinetics of the extraction of sodium hydroxide during washing after mercerization of a light standard cotton fabric are presented. The studies were carried out in laboratory conditions on a model ins
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7

Tamminen, Jussi, Tuomo Sainio, and Erkki Paatero. "Intensification of metal extraction with high-shear mixing." Chemical Engineering and Processing: Process Intensification 73 (November 2013): 119–28. http://dx.doi.org/10.1016/j.cep.2013.08.005.

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8

Danylenko, V. A. "Technological Complex for Intensification of Energy Bearers Extraction." Nauka ta innovacii 2, no. 5 (2006): 34–40. http://dx.doi.org/10.15407/scin2.05.034.

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9

Kashyap, Piyush, Charanjit Singh Riar, and Navdeep Jindal. "Intensification of Polyphenols Extraction from Sohiong (Prunus nepalensis) using Microwave-Assisted Extraction." Asian Journal of Chemistry 34, no. 1 (2021): 140–46. http://dx.doi.org/10.14233/ajchem.2022.23469.

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Microwave-assisted extraction (MAE) was investigated to extract polyphenols from sohiong (Prunus nepalensis) fruit. The effect of process variables (solvent concentration, solvent-solid ratio, microwave power and time) on yield and total phenol content (TPC) of fruit extract were studied using response surface methodology. The best conditions for extraction of polyphenolic extract were solvent concentration (55.17%), solvent-solid ratio (26.09%), microwave power (500 W) and time (238 s). Under optimized MAE conditions, the yield, TPC, DPPH and FRAP of sohiong extracts were 47.25%, 146.61 mgGAE
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10

Smelcerovic, Andrija, Sinisa Djordjevic, Zika Lepojevic, and Dragan Velickovic. "The analysis of the kinetics of extraction of resinoids and hypericines from the amber, Hypericum perforatum L." Journal of the Serbian Chemical Society 67, no. 6 (2002): 457–63. http://dx.doi.org/10.2298/jsc0206457s.

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The kinetics of the extraction of the overall extracted materials (resinoids), total hypericine, hypericine and pseudohypericine from amber (Hypericum perforatum L) was investigated by the procedure of maceration both with and without ultra-sound, using methanol as the extractant. It was found that the period of fast extraction with intensification of the extraction of resinoid by ultra-sound was significantly shorter (about 20 minutes) than was needed for the extraction without ultra-sound (about 5 h). Similar results were also obtained for the extraction of the other tested substances. It ca
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11

G., Deynichenko, Guzenko V., Omelchenko O., Melnik O., and Malych V. "INTENSIFICATION OF THE PROCESS OF EXTRACTING PECTIN FROM SUGAR PRODUCTION WASTES." INTENS IFICATION OF THE P ROCESS OF EXTRACTING P ECTIN FROM S UGAR P RODUCTION WAS TES 1(29) (June 30, 2019): 103–14. https://doi.org/10.5281/zenodo.3263706.

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<em>Experimental research of acid extraction of pectin containing raw materials (beet pulp) is highlighted with the use of a new model of the mixing element compared to the usual lattice mixer. The experimental setting and the method of processing the results of the study of extracting pectin substances from pectin containing raw materials (beet pulp) with the use of a new combined mixing element have been developed. Mathematical models are constructed in the form of nonlinear regression equations based on the method of planning a multifactor experiment with the input parameters of temperature
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12

Alexandre, Agostinho M. R. C., Ana A. Matias, Maria Rosário Bronze, Maria Jose Cocero, and Rafael Mato. "Phenolic Compounds Extraction of Arbutus unedo L.: Process Intensification by Microwave Pretreatment." Processes 8, no. 3 (2020): 298. http://dx.doi.org/10.3390/pr8030298.

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Arbutus unedo L., commonly known as the strawberry-tree fruit, is an endemic species of the Mediterranean flora. Microwave extraction technology has been considered as a fast and “green” method for the production of extracts rich in bioactive compounds, although the energy consumption is high. To overcome this bottleneck, microwave was used as a pretreatment procedure in short time periods. This technique promotes the burst of intracellular vacuoles leading to an increase in the lixiviation of phenolic compounds. Different approaches were tested, namely a solvent-free irradiation (SFI), a solv
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13

Guan, Xiao, Lv Li, Jing Liu, and Sen Li. "Effects of Ultrasonic-Microwave-Assisted Technology on Hordein Extraction from Barley and Optimization of Process Parameters Using Response Surface Methodology." Journal of Food Quality 2018 (July 8, 2018): 1–8. http://dx.doi.org/10.1155/2018/9280241.

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We investigated the process intensification of ultrasonic-microwave-assisted technology for hordein extraction from barley. Response surface methodology was utilized to optimize the extraction conditions and to analyze the interaction between four selected variables: temperature, microwave power, ultrasonic power, and extraction time. The validated extraction yield of hordein reached 8.84% at 78°C, microwave power 298 W, and ultrasonic power 690 W after 20 min as optimum conditions. Compared with traditional water-bath extraction (4.7%), the ultrasonic-microwave-assisted technology effectively
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14

Bandura, Valentyna. "INNOVATIVE ENERGY EFFICIENT TECHNOLOGIES OF THE SOYE EXTRACTION PROCESS." ENGINEERING, ENERGY, TRANSPORT AIC, no. 1(108) (August 27, 2020): 82–90. http://dx.doi.org/10.37128/2520-6168-2020-1-10.

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The key process for extracting oils from raw materials is extraction. In this case, extraction is a complex and time-consuming process. The extraction process is characterized by low intensity. One of the most promising and innovative methods of extracting plant material is the use of microwave technologies. As there are no generally accepted recommendations for microwave extraction regimens and extract properties, this makes it impossible to create the appropriate technology and to develop a microwave extractor to obtain the target substances. The article reviews the existing equipment for ex
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15

Panda, Debabrata, and Sivakumar Manickam. "Cavitation Technology—The Future of Greener Extraction Method: A Review on the Extraction of Natural Products and Process Intensification Mechanism and Perspectives." Applied Sciences 9, no. 4 (2019): 766. http://dx.doi.org/10.3390/app9040766.

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With growing consumer demand for natural products, greener extraction techniques are found to be potential alternatives especially for pharmaceutical, nutraceutical, and cosmetic manufacturing industries. Cavitation-based technology has drawn immense attention as a greener extraction method, following its rapid and effective extraction of numerous natural products compared to conventional techniques. The advantages of cavitation-based extraction (CE) are to eliminate the application of toxic solvents, reduction of extraction time and to achieve better extraction yield, as well as purity. The c
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16

Andryushayev, Oleksiy, Olena Ruban, Yuliia Maslii, and Inna Rusak. "Intensification of the extraction process of phenolic compounds from Acorus calamus leaves." ScienceRise: Pharmaceutical Science, no. 4(32) (August 31, 2021): 4–10. http://dx.doi.org/10.15587/2519-4852.2021.238329.

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The aim. To determine the intensified method of extraction of phenolic compounds from Acorus calamus leaves and optimal conditions for the process.&#x0D; Materials and methods. In order to develop the optimal intensified method of extraction samples were prepared in different conditions of raw materials-extractant ratio, temperature, time and multiplicity. As a raw materials spectrophotometrically pre-standardized Acorus calamus leaves were used. The extraction was carried out in a hermetically sealed ultrasonic extraction reactor PEX 1 (REUS, Contes, France). As the criteria of extraction eff
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17

Oleksiy, Andryushayev, Ruban Olena, Maslii Yuliia, and Rusak Inna. "Intensification of the extraction process of phenolic compounds from Acorus calamus leaves." ScienceRise: Pharmaceutical Science, no. 4(32) (August 31, 2021): 4–10. https://doi.org/10.15587/2519-4852.2021.238329.

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<strong>The aim</strong>. To determine the intensified method of extraction of phenolic compounds from Acorus calamus leaves and optimal conditions for the process. <strong>Materials and methods</strong>. In order to develop the optimal intensified method of extraction samples were prepared in different conditions of raw materials-extractant ratio, temperature, time and multiplicity. As a raw materials spectrophotometrically pre-standardized Acorus calamus leaves were used. The extraction was carried out in a hermetically sealed ultrasonic extraction reactor PEX 1 (REUS, Contes, France). As th
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18

Herbina, Nataliia, Olena Ruban, Oleksiy Andryushayev, and Larisa Hohlova. "Intensification of the Extraction Process of Flavonoids and Hydroxycinnamic Acids from Tanacetum vulgare L. Flowers." Journal of Reports in Pharmaceutical Sciences 11, no. 1 (2022): 125–31. http://dx.doi.org/10.4103/jrptps.jrptps_133_21.

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Background and Purpose: It has been shown that taking into account the polyvalence of action, tansy (Tanacetum vulgare L.) is a promising raw material for obtaining substances based on it as active pharmaceutical ingredients for the development of new potential herbal medicinal products. Materials and Methods: Ultrasound-assisted extraction (UAE) has been considered as one of the promising methods to optimize the technology of extracting biologically active substances (BAS) from T. vulgare flowers. Results: The advantages of the method, the mechanism of ultrasound action on plant cells, and th
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19

Bakin, I. A., A. S. Mustafina, L. A. Aleksenko, and M. N. Shkolnikova. "Intensification of extraction of phytocomponents from berry raw materials." IOP Conference Series: Earth and Environmental Science 640, no. 2 (2021): 022066. http://dx.doi.org/10.1088/1755-1315/640/2/022066.

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20

Gavarić, Aleksandra, Senka Vidović, Krunoslav Aladić, Stela Jokić, and Jelena Vladić. "Supercritical CO2 extraction of Marrubium vulgare: intensification of marrubiin." RSC Advances 11, no. 16 (2021): 9067–75. http://dx.doi.org/10.1039/d0ra10253a.

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21

Gradov, Oleg M., Yulia A. Zakhodyaeva, Inna V. Zinov’eva, and Andrey A. Voshkin. "Ultrasonic Intensification of Mass Transfer in Organic Acid Extraction." Processes 9, no. 1 (2020): 15. http://dx.doi.org/10.3390/pr9010015.

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The mechanism of ultrasonic extraction was discovered and analyzed in detail for the liquid membrane technique from the consideration of the specific features of the radial vibrations of a droplet of the dispersed phase placed into an immiscible continuous phase subjected to ultrasonic irradiation. Analytical formulas were derived for the rate of mass transfer as a function of the amplitude of acoustic pressure oscillations and the time of ultrasonic treatment of an extraction system. Conditions for achieving the maximum efficiency of the extraction of a substance under the stimulating effect
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22

Rezzoug, S. A., and N. Louka. "Thermomechanical process intensification for oil extraction from orange peels." Innovative Food Science & Emerging Technologies 10, no. 4 (2009): 530–36. http://dx.doi.org/10.1016/j.ifset.2009.05.008.

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23

Gogate, Parag R., and Sathish G. Nadar. "Ultrasound-assisted Intensification of Extraction of Astaxanthin fromPhaffia rhodozyma." Indian Chemical Engineer 57, no. 3-4 (2015): 240–55. http://dx.doi.org/10.1080/00194506.2015.1026947.

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24

Kosheleva, M. K., O. R. Dornyak, and E. N. Shirokopoyas. "IMPROVING THE EFFICIENCY OF THE EXTRACTION PROCESS IN PRODUCTION OF HYGROSCOPIC FIBROUS MATERIALS." Vestnik Tambovskogo gosudarstvennogo tehnicheskogo universiteta 28, no. 1 (2022): 094–102. http://dx.doi.org/10.17277/vestnik.2022.01.pp.094-102.

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The aim of the paper is to make a reasonable choice of a resource-saving method to increase the efficiency of producing medical hygroscopic cotton wool, which is a strategically important dressing material. The paper explores the possibility of practical use of the chosen method of intensification and the proposed formulation of the technological solution to increase the efficiency of the extraction process (decoction), which largely determines the quality of the target product. The process is carried out in periodic devices with sodium hydroxide and other chemical reagents, and is characteriz
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Zhao, Jinghan, Stephen Vanderburgt, Rafael M. Santos, and Yi Wai Chiang. "Process Intensification of Dichlorodiphenyltrichloroethane Detection Methods for Determining Trace Concentrations in Soils." Sustainable Chemistry 1, no. 1 (2020): 63–74. http://dx.doi.org/10.3390/suschem1010006.

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Dichlorodiphenyltrichloroethane (DDT) residue in Ontario soil is expected to be found at trace levels, since it has been banned for over 45 years in Canada. This presents challenges to the efficiency and accuracy of conventional detection methods. This study intensified the conventional DDT detection method, in the characterization of aged soil samples collected from historically-treated sites in Ontario. Recovery, time consumption, and labor intensity were considered for the intensification evaluation. Ultrasonic probe extraction was found to significantly shorten the extraction time, with si
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Ascrizzi, R., J. González-Rivera, C. S. Pomelli, et al. "Ionic liquids, ultra-sounds and microwaves: an effective combination for a sustainable extraction with higher yields. The cumin essential oil case." Reaction Chemistry & Engineering 2, no. 4 (2017): 577–89. http://dx.doi.org/10.1039/c7re00075h.

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Fialkovska, Larisa. "EXAMINATION OF THE EXTRACTION PROCESS IN THE INSTALLATION FOR EXTREME IN THE ELECTROMAGNETIC INTENSIFICATION." ENGINEERING, ENERGY, TRANSPORT AIC, no. 2(105) (May 31, 2019): 75–79. http://dx.doi.org/10.37128/2520-6168-2019-2-10.

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Іn the article an overview of the methods of extraction of oilseeds is carried out. The purpose of the work was to carry out the study of the extraction process at the installation for extraction in an electromagnetic intensifier (EEMI). The only way to ensure virtually complete oil extraction is the extraction method, in which the forces that convert the oil into a solution exceed the forces that hold oil in the extracted material. Today, the extraction method for oil extraction at Ukrainian plants is leading, as it provides greater yield of oil than with the use of the press process. The obj
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Khudeev, Illarion I., Elena S. Lebedeva, Artem I. Artemiev, Ilya V. Kazeev, and Natalya V. Menshutina. "INTENSIFICATION OF SUPERCRITICAL EXTRACTION OF TRITERPENE SAPONINS FROM ARALIA MANDSHURICA AND PANAX GINSENG." ChemChemTech 66, no. 3 (2023): 108–18. http://dx.doi.org/10.6060/ivkkt.20236603.6737.

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This work is devoted to experimental research of the extraction of triterpene saponins from Aralia mandshurica and Panax ginseng using the supercritical extraction process. Triterpene saponins of Aralia mandshurica and Panax ginseng are polar compounds. Therefore, the supercritical extraction process was carried out in a supercritical carbon dioxide using a co-solvent – an aqueous solution of ethanol. A technique for carrying out the supercritical extraction process is described and a schematic diagram of a supercritical extraction apparatus proprietary design with an extractor volume of 22 ml
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29

Assmann, Nora, and Philipp Rudolf von Rohr. "Extraction in microreactors: Intensification by adding an inert gas phase." Chemical Engineering and Processing: Process Intensification 50, no. 8 (2011): 822–27. http://dx.doi.org/10.1016/j.cep.2011.05.009.

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Karmakar, Sudhanya, Avijit Bhowal, and Papita Das. "Process Intensification of Liquid-Liquid Extraction in Rotating Packed Bed." Materials Science Forum 998 (June 2020): 146–50. http://dx.doi.org/10.4028/www.scientific.net/msf.998.146.

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The object of this study is to intensify the liquid-liquid extraction. Experiments were carried out inside a Rotating Packed Bed (RPB) operating at centrifugal force varying between 100g and 1000g. The system chosen for experimentation was removal of hexavalent chromium from aqueous solution using aliquat-336 as an extractant. The effect of centrifugal force on overall volumetric mass transfer coefficient () was investigated. Mass transfer characteristics of RPB were observed with the variation in rotational speed (300-1100rpm), aqueous phase (0.4-1.2 L/min) and organic phase (0.05-0.15 L/min)
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Chakraborty, Mousumi, Z. V. P. Murthy, Chiranjib Bhattacharya, and Siddhartha Datta. "Process Intensification: Extraction of Chromium(VI) by Emulsion Liquid Membrane." Separation Science and Technology 40, no. 11 (2005): 2353–64. http://dx.doi.org/10.1080/01496390500202555.

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Suliman, Sazmin Sufi, Norasikin Othman, Muhammad Abbas Ahmad Zaini, Norul Fatiha Mohamed Noah, and Izzat Naim Shamsul Kahar. "Intensification and enhancement of phenolic compounds extraction using cooperative formulation." Chemical Engineering and Processing - Process Intensification 211 (May 2025): 110220. https://doi.org/10.1016/j.cep.2025.110220.

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Božinović, Marko, Renata Vičević, Nikolina Zekić, Anita Šalić, Ana Jurinjak Tušek, and Bruno Zelić. "Intensification of endo-1,4-Xylanase Extraction by Coupling Microextractors and Aqueous Two-Phase System." Processes 11, no. 2 (2023): 447. http://dx.doi.org/10.3390/pr11020447.

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The extraction of xylanase was performed using an aqueous two-phase system (ATPS) based on polyethylene glycol (PEG1540) and various salts. Preliminary studies in a batch extractor showed that the highest extraction efficiency, E = 79.63 ± 5.21%, and purification factor, PF = 1.26 ± 0.25, were obtained with sodium citrate dihydrate-H2O-PEG1540-based ATPS for an extraction time of 10 min. The process was optimized using the experimental Box-Behnken design at three levels with three factors: extraction time (t), xylanase concentration (γ), and mass fraction of PEG in the ATPS (wPEG). Under optim
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Kulneva, Nadezhda, Lyudmila Korobova, Irina Matytsina, Natalia Matvienko, and Svetlana Chernyaeva. "Intensification of the process of extraction of sucrose from sugar beet of different technological advantage." BIO Web of Conferences 161 (2025): 00024. https://doi.org/10.1051/bioconf/202516100024.

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Unfavorable climatic conditions have a negative impact on the storage and processing of sugar beets. Low quality of the raw material during storage causes intensive development of microbiological processes, which leads to high losses of sucrose. Leuconostoc mesenteroides bacteria develop especially intensively in spoiled beets, causing a disease of root crops (mucous bacteriosis), which is activated in the washing department of the plant. The product of the bacteria’s vital activity, the polysaccharide dextran, passes into the diffusion juice during the extraction process, complicating further
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de la Vega-Leinert, Anne Cristina, and Peter Clausing. "Extractive Conservation." Environment and Society 7, no. 1 (2016): 50–70. http://dx.doi.org/10.3167/ares.2016.070104.

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ABSTRACTIn view of the Aichi international policy targets to expand areas under conservation, we analyze to what extent conservation has become an inherent element of extraction. We scrutinize the Land Sparing versus Land Sharing debate by explicitly incorporating environmental justice issues of access to land and natural resources. We contend that dominant conservation regimes, embedded within Land Sparing, legitimize the displacement of local people and their land use to compensate for distant, unsustainable resource use. In contrast, the Land Sharing counternarrative, by promoting spatial i
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Dong, Zhijun, and Weitian Xia. "Extraction of Bioactive Macromolecules Using Supercritical Carbon Dioxide Technology." Transactions on Environment, Energy and Earth Sciences 4 (December 12, 2024): 207–13. https://doi.org/10.62051/46g23k15.

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The complex structure of biological macromolecules makes it play an important role in various fields, and its demand is increasing day by day, so its extraction technology has also become a hot research object. For example, essential oils can be able to extract from different parts of plants. Because they are rich in a variety of special chemical groups, they endow them with unique physical and chemical properties, making them widely used in various fields. Conventional extraction methods, such as steam distillation, cold pressing and solvent extraction, all have certain limitations and disadv
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Safina, Albina, Lenar Ismailov, and Ruslan Safin. "Intensification of water extraction of non-fruit parts of sea buckthorn (Hippóphaë rhamnóides)." E3S Web of Conferences 371 (2023): 01092. http://dx.doi.org/10.1051/e3sconf/202337101092.

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The healing properties of extracts from sea buckthorn fruits have been confirmed by numerous studies, however, the infertile parts remaining after harvesting or after pruning young trees also contain valuable components. Leaves, bark, shoots and woody parts of sea buckthorn are very promising raw materials for the extraction of biologically active substances. The introduction of non-waste technologies, issues of resource conservation, the search for rational ways to isolate valuable components from the non-fruit part of sea buckthorn determined the relevance of this study. The choice of the op
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Pessoa, Fernando Luiz Pellegrini, and Luis Alcides Brandini De Boni. "FROM ACADEMIA TO INDUSTRY: A JOURNEY OF INNOVATION IN CHEMICAL ENGINEERING - INTERVIEW WITH PROFESSOR FERNANDO LUIZ PELLEGRINI PESSOA. ENGLISH VERSION." SOUTHERN JOURNAL OF SCIENCES 32, no. 38 (2024): 66–72. https://doi.org/10.48141/2764-5959.07.v32.n38.2024_pellegrini_pgs_66_72.pdf.

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Background: The interview with Professor Dr. Fernando Luiz Pellegrini Pessoa covers his extensive career and contributions to chemical engineering, focusing on innovations and sustainability. Objectives: To explore Professor Pellegrini's experiences in various areas of chemical engineering, including teaching methods, research in supercritical extraction, biodiesel production, and process intensification. Methods: Semi-structured interview addressing topics such as academic and industrial career, teaching methods, ongoing research, and future perspectives for the chemical industry. Results: Pr
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Pessoa, Fernando Luiz Pellegrini, and Luis Alcides Brandini De Boni. "FROM ACADEMIA TO INDUSTRY: A JOURNEY OF INNOVATION IN CHEMICAL ENGINEERING - INTERVIEW WITH PROFESSOR FERNANDO LUIZ PELLEGRINI PESSOA." PERIÓDICO TCHÊ QUÍMICA 21, no. 48 (2024): 109–15. https://doi.org/10.52571/ptq.v21.n48.2024_08_pellegrini_pgs_109_115.pdf.

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Background: The interview with Professor Dr. Fernando Luiz Pellegrini Pessoa covers his extensive career and contributions to chemical engineering, focusing on innovations and sustainability. Objectives: To explore Professor Pellegrini's experiences in various areas of chemical engineering, including teaching methods, research in supercritical extraction, biodiesel production, and process intensification. Methods: Semi-structured interview addressing topics such as academic and industrial career, teaching methods, ongoing research, and future perspectives for the chemical industry. Results: Pr
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Pessoa, Fernando Luiz Pellegrini, and Boni Luis Alcides Brandini De. "FROM ACADEMIA TO INDUSTRY: A JOURNEY OF INNOVATION IN CHEMICAL ENGINEERING - INTERVIEW WITH PROFESSOR FERNANDO LUIZ PELLEGRINI PESSOA. ENGLISH VERSION." SOUTHERN JOURNAL OF SCIENCES 32, no. 38 (2025): 66–72. https://doi.org/10.48141/2764-5959.07.v32.n38.2024_PELLEGRINI_pgs_66_72.pdf.

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Background: The interview with Professor Dr. Fernando Luiz Pellegrini Pessoa covers his extensive career and contributions to chemical engineering, focusing on innovations and sustainability. Objectives: To explore Professor Pellegrini's experiences in various areas of chemical engineering, including teaching methods, research in supercritical extraction, biodiesel production, and process intensification. Methods: Semi-structured interview addressing topics such as academic and industrial career, teaching methods, ongoing research, and future perspectives for the chemical industry. Results: Pr
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41

Pessoa, Fernando Luiz Pellegrini. "FROM ACADEMIA TO INDUSTRY: A JOURNEY OF INNOVATION IN CHEMICAL ENGINEERING - INTERVIEW WITH PROFESSOR FERNANDO LUIZ PELLEGRINI PESSOA." PERIÓDICO TCHÊ QUÍMICA 21, no. 48 (2025): 109–15. https://doi.org/10.52571/PTQ.v21.n48.2024_08_PELLEGRINI_pgs_109_115.pdf.

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Background: The interview with Professor Dr. Fernando Luiz Pellegrini Pessoa covers his extensive career and contributions to chemical engineering, focusing on innovations and sustainability. Objectives: To explore Professor Pellegrini's experiences in various areas of chemical engineering, including teaching methods, research in supercritical extraction, biodiesel production, and process intensification. Methods: Semi-structured interview addressing topics such as academic and industrial career, teaching methods, ongoing research, and future perspectives for the chemical industry. Results: Pr
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42

Malyushevskaya, А. P., V. N. Tsurkin, А. V. Ivanov, and А. N. Yushchishina. "Intensification of Polysaccharides Extraction from Plant Raw Materials under the Influence of Electric Current." Elektronnaya Obrabotka Materialov 57, no. 5 (2021): 66–77. http://dx.doi.org/10.52577/eom.2021.57.5.66.

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The article presents the results of the studies of the intensification of the processes of extraction of water-soluble polysaccharides from plant raw materials – medicinal hyssop (Hyssopus officialis L.) under the action of an electric current. The effect of direct, alternating, and pulsed electric currents on the degree of polysaccharides extraction was studied in comparison with the traditional pharmacopoeiсal method. It is shown that the energy consumption for the extraction process, intensified by a pulsed electric current, is significantly lower compared to extraction by convection heatin
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43

Aleksanyan, Igor Yurevich, Albert Hamed-Harisovich, Roman Vakhaevich Mutsaev, Miguel Antonio Salvatierra Barzola, and Thi Sen Nguen. "Raising Intensity and Modeling the Process of Inulin Extraction from Raw Materials of Plant Origin." Materials Science Forum 987 (April 2020): 149–56. http://dx.doi.org/10.4028/www.scientific.net/msf.987.149.

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The key and most energy-consuming process in obtaining inulin is the extraction process. The effectiveness of technology as a whole depends on this procedure. The present research is devoted to studying statics and kinetics of inulin water extraction from artichoke with the purpose of intensification, optimization and modeling of extraction process. Analysis of technical and patent literature has allowed to reveal the ways of aggregation of inulin extraction, in particular, by influence of ultrasonic oscillations on the object of processing. To study the statics of the extraction process, i.e.
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44

Vainberg, R. Sh, S. A. Bogdanov, and N. D. Butskii. "Intensification of Extraction of Thermolabile Organic Polymers into a Liquid Electrolyte." Heat Transfer Research 29, no. 1-3 (1998): 140–45. http://dx.doi.org/10.1615/heattransres.v29.i1-3.130.

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45

DAUDOVA, T. N., T. A. ISIGOVA, L. A. DAUDOVA, and M. M. OMAROVA. "INTENSIFICATION OF ANTHOCYANIN DYE EXTRACTION BY ULTRASONIC TREATMENT OF WILD FRUITS." AIC development problems of the region, no. 1 (2021): 160–63. http://dx.doi.org/10.52671/20790996_2021_1_160.

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46

Santos, DiegoT, Renata Vardanega, and M. A. De Almeida. "Intensification of bioactive compounds extraction from medicinal plants using ultrasonic irradiation." Pharmacognosy Reviews 8, no. 16 (2014): 88. http://dx.doi.org/10.4103/0973-7847.134231.

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47

Miloudi, Kaddour, Abderrahmane Hamimed, Youcef Benmimoun, Yassine Bellebna, Ahmed Taibi, and Amar Tilmatine. "Intensification of Essential Oil Extraction of theMarrubium vulgareUsing Pulsed Electric Field." Journal of Essential Oil Bearing Plants 21, no. 3 (2018): 811–24. http://dx.doi.org/10.1080/0972060x.2018.1484820.

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48

Tan, J., Z. D. Liu, Y. C. Lu, J. H. Xu, and G. S. Luo. "Process intensification of H2O2 extraction using gas–liquid–liquid microdispersion system." Separation and Purification Technology 80, no. 2 (2011): 225–34. http://dx.doi.org/10.1016/j.seppur.2011.04.030.

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49

Flórez-Fernández, Noelia, María Dolores Torres, María Jesús González-Muñoz, and Herminia Domínguez. "Potential of intensification techniques for the extraction and depolymerization of fucoidan." Algal Research 30 (March 2018): 128–48. http://dx.doi.org/10.1016/j.algal.2018.01.002.

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50

Holbach, Alexander, Erkan Çalışkan, Ho-Suk Lee, and Norbert Kockmann. "Process intensification in small scale extraction columns for counter-current operations." Chemical Engineering and Processing: Process Intensification 80 (June 2014): 21–28. http://dx.doi.org/10.1016/j.cep.2014.03.013.

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