Advances in Hydrodynamic Cavitation Applications for Environment and Human Health

Topic Information

Dear Colleagues,

Controlled hydrodynamic cavitation methods and related technologies are increasingly recognized as comparatively more efficient, affordable, feasible, and straightforwardly scalable in many different technical fields in which the acceleration of physical, chemical, and biological reactions in fluid streams is necessary. The scope of this Topic concerns advanced applications of hydrodynamic cavitation with proven scalability up to the full scale and proven comparatively higher process yield, across at least the following fields:

• green extraction of natural products;
• creation of new, improved, or functionalized products for environmental protection and human health promotion;
• food preservation and enhancement;
• purification and disinfection of waste streams;
• enhancement of biogas, bioethanol, and biodiesel generation.

Further fields could be of interest, as long as they focus on the environment and human health. Raw materials, either primary products, byproducts, waste streams, or underutilized resources, should be generally available in fairly large quantities and concentrated, in order to pursue industrial application and really make a difference. The scope of this Topic further includes structural, physicochemical, biological, and functional analysis of the products and byproducts of the above-listed hydrodynamic cavitation applications and processes. New ideas about hydrodynamic cavitation devices and methods are also welcome, provided that clear advantages and straightforward upscaling are shown.

Dr. Federica Zabini
Dr. Francesco Meneguzzo
Topic Editors

Keywords

Participating Journals

Journal Name	Impact Factor	CiteScore	Launched Year	First Decision (median)	APC
Antioxidants antioxidants	6.0	10.6	2012	15.5 Days	CHF 2900
Foods foods	4.7	7.4	2012	14.3 Days	CHF 2900
International Journal of Environmental Research and Public Health ijerph	-	7.3	2004	24.3 Days	CHF 2500
Processes processes	2.8	5.1	2013	14.4 Days	CHF 2400
Energies energies	3.0	6.2	2008	17.5 Days	CHF 2600

MDPI Topics is cooperating with Preprints.org and has built a direct connection between MDPI journals and Preprints.org. Authors are encouraged to enjoy the benefits by posting a preprint at Preprints.org prior to publication:

1. Immediately share your ideas ahead of publication and establish your research priority;
2. Protect your idea from being stolen with this time-stamped preprint article;
3. Enhance the exposure and impact of your research;
4. Receive feedback from your peers in advance;
5. Have it indexed in Web of Science (Preprint Citation Index), Google Scholar, Crossref, SHARE, PrePubMed, Scilit and Europe PMC.

Published Papers (5 papers)

Order results

Content type Publication Date

Result details

Normal Extended Compact

Journals

All Antioxidants Foods IJERPH Processes Energies

Show export options expand_more Show export options expand_less

Select all

Export citation of selected articles as:

Plain Text BibTeX BibTeX (without abstracts) Endnote Endnote (without abstracts) Tab-delimited RIS

Error

Oops... you haven't selected anything for export.

Ok

clear

attachment

Supplementary material:
Supplementary File 1 (ZIP, 705 KiB)

19 pages, 3417 KiB  

Open AccessArticle

Antioxidant Phytocomplexes Extracted from Pomegranate (Punica granatum L.) Using Hydrodynamic Cavitation Show Potential Anticancer Activity In Vitro

by Antonella Minutolo, Angelo Gismondi, Rossella Chirico, Gabriele Di Marco, Vita Petrone, Marialaura Fanelli, Alessia D’Agostino, Antonella Canini, Sandro Grelli, Lorenzo Albanese, Mauro Centritto, Federica Zabini, Claudia Matteucci and Francesco Meneguzzo

Antioxidants 2023, 12(8), 1560; https://doi.org/10.3390/antiox12081560 - 4 Aug 2023

Cited by 8 | Viewed by 1960

Abstract

Hydrodynamic cavitation (HC), as an effective, efficient, and scalable extraction technique for natural products, could enable the affordable production of valuable antioxidant extracts from plant resources. For the first time, whole pomegranate (Punica granatum L.) fruits, rich in bioactive phytochemicals endowed with [...] Read more.

Hydrodynamic cavitation (HC), as an effective, efficient, and scalable extraction technique for natural products, could enable the affordable production of valuable antioxidant extracts from plant resources. For the first time, whole pomegranate (Punica granatum L.) fruits, rich in bioactive phytochemicals endowed with anti-cancer properties, were extracted in water using HC. Aqueous fractions sequentially collected during the process (M1–M5) were lyophilized (L), filtered (A), or used as such, i.e., crude (C), and analyzed for their biochemical profile and in vitro antioxidant power. The fractions M3 and M4 from the L and C series showed the highest antiradical activity and phytochemical content. While the lyophilized form is preferable for application purposes, sample L-M3, which was produced faster and with lower energy consumption than M4, was used to assess the potential antiproliferative effect on human breast cancer line (AU565-PAR) and peripheral blood mononuclear (PBMC) cells from healthy donors. In a pilot study, cell growth, death, and redox state were assessed, showing that L-M3 significantly reduced tumor cell proliferation and intracellular oxygen reactive species. No effect on PBMCs was detected. Thus, the antioxidant phytocomplex extracted from pomegranate quickly (15 min), at room temperature (30 °C), and efficiently showed potential anticancer activity without harming healthy cells. Full article

(This article belongs to the Topic Advances in Hydrodynamic Cavitation Applications for Environment and Human Health)

►▼ Show Figures

Figure 1

23 pages, 5328 KiB  

Open AccessArticle

New Route to the Production of Almond Beverages Using Hydrodynamic Cavitation

by Cecilia Faraloni, Lorenzo Albanese, Graziella Chini Zittelli, Francesco Meneguzzo, Luca Tagliavento and Federica Zabini

Foods 2023, 12(5), 935; https://doi.org/10.3390/foods12050935 - 22 Feb 2023

Cited by 9 | Viewed by 3509

Abstract

Perceived as a healthy food, almond beverages are gaining ever-increasing consumer preference across nonalcoholic vegetable beverages, ranking in first place among oilseed-based drinks. However, costly raw material; time and energy consuming pre- and posttreatments such as soaking, blanching and peeling; and thermal sterilization [...] Read more.

Perceived as a healthy food, almond beverages are gaining ever-increasing consumer preference across nonalcoholic vegetable beverages, ranking in first place among oilseed-based drinks. However, costly raw material; time and energy consuming pre- and posttreatments such as soaking, blanching and peeling; and thermal sterilization hinder their sustainability, affordability and spread. Hydrodynamic cavitation processes were applied, for the first time, as a single-unit operation with straightforward scalability, to the extraction in water of almond skinless kernels in the form of flour and fine grains, and of whole almond seeds in the form of coarse grains, up to high concentrations. The nutritional profile of the extracts matched that of a high-end commercial product, as well as showing nearly complete extraction of the raw materials. The availability of bioactive micronutrients and the microbiological stability exceeded the commercial product. The concentrated extract of whole almond seeds showed comparatively higher antiradical activity, likely due to the properties of the almond kernel skin. Hydrodynamic cavitation-based processing might represent a convenient route to the production of conventional as well as integral and potentially healthier almond beverages, avoiding multiple technological steps, while affording fast production cycles and consuming less than 50 Wh of electricity per liter before bottling. Full article

(This article belongs to the Topic Advances in Hydrodynamic Cavitation Applications for Environment and Human Health)

►▼ Show Figures

Graphical abstract

14 pages, 3422 KiB  

Open AccessReview

Plant Extraction in Water: Towards Highly Efficient Industrial Applications

by Lorenzo Gallina, Christian Cravotto, Giorgio Capaldi, Giorgio Grillo and Giancarlo Cravotto

Processes 2022, 10(11), 2233; https://doi.org/10.3390/pr10112233 - 31 Oct 2022

Cited by 13 | Viewed by 4423

Abstract

Since the beginning of this century, the world has experienced a growing need for enabling techniques and more environmentally friendly protocols that can facilitate more rational industrial production. Scientists are faced with the major challenges of global warming and safeguarding water and food [...] Read more.

Since the beginning of this century, the world has experienced a growing need for enabling techniques and more environmentally friendly protocols that can facilitate more rational industrial production. Scientists are faced with the major challenges of global warming and safeguarding water and food quality. Organic solvents are still widely used and seem to be hard to replace, despite their enormous environmental and toxicological impact. The development of water-based strategies for the extraction of primary and secondary metabolites from plants on a laboratory scale is well documented, with several intensified processes being able to maximize the extraction power of water. Technologies, such as ultrasound, hydrodynamic cavitation, microwaves and pressurized reactors that achieve subcritical water conditions can dramatically increase extraction rates and yields. In addition, significant synergistic effects have been observed when using combined techniques. Due to the limited penetration depth of microwaves and ultrasonic waves, scaling up entails changes to reactor design. Nevertheless, the rich academic literature from laboratory-scale investigations may contribute to the engineering work involved in maximizing mass/energy transfer. In this article, we provide an overview of current and innovative techniques for solid-liquid extraction in water for industrial applications, where continuous and semi-continuous processes can meet the high demands for productivity, profitability and quality. Full article

(This article belongs to the Topic Advances in Hydrodynamic Cavitation Applications for Environment and Human Health)

►▼ Show Figures

Figure 1

10 pages, 1601 KiB  

Open AccessArticle

Cardioprotective Effects of Grapefruit IntegroPectin Extracted via Hydrodynamic Cavitation from By-Products of Citrus Fruits Industry: Role of Mitochondrial Potassium Channels

by Lorenzo Flori, Lorenzo Albanese, Vincenzo Calderone, Francesco Meneguzzo, Mario Pagliaro, Rosaria Ciriminna, Federica Zabini and Lara Testai

Foods 2022, 11(18), 2799; https://doi.org/10.3390/foods11182799 - 11 Sep 2022

Cited by 11 | Viewed by 2332

Abstract

Citrus flavonoids are well-known for their beneficial effects at the cardiovascular and cardio-metabolic level, but often the encouraging in vitro results are not confirmed by in vivo approaches; in addition, the clinical trials are also inconsistent. Their limited bioavailability can be, at least [...] Read more.

Citrus flavonoids are well-known for their beneficial effects at the cardiovascular and cardio-metabolic level, but often the encouraging in vitro results are not confirmed by in vivo approaches; in addition, the clinical trials are also inconsistent. Their limited bioavailability can be, at least in part, the reason for these discrepancies. Therefore, many efforts have been made towards the improvement of their bioavailability. Hydrodynamic cavitation methods were successfully applied to the extraction of byproducts of the Citrus fruits industry, showing high process yields and affording stable phytocomplexes, known as IntegroPectin, endowed with great amounts of bioactive compounds and high water solubility. The cardioprotective effects of grapefruit IntegroPectin were evaluated by an ex vivo ischemia/reperfusion protocol. Further pharmacological characterization was carried out to assess the involvement of mitochondrial potassium channels. Grapefruit IntegroPectin, where naringin represented 98% of the flavonoids, showed anti-ischemic cardioprotective activity, which was better than pure naringenin (the bioactive aglycone of naringin). On cardiac-isolated mitochondria, this extract confirmed that naringenin/naringin were involved in the activation of mitochondrial potassium channels. The hydrodynamic cavitation-based extraction confirmed a valuable opportunity for the exploitation of Citrus fruits waste, with the end product presenting high levels of Citrus flavonoids and improved bioaccessibility that enhances its nutraceutical and economic value. Full article

(This article belongs to the Topic Advances in Hydrodynamic Cavitation Applications for Environment and Human Health)

►▼ Show Figures

Graphical abstract

attachment

Supplementary material:
Supplementary File 1 (ZIP, 138 KiB)

17 pages, 1728 KiB  

Open AccessFeature PaperArticle

Concentration, Health Risk, and Hydrological Forcing of Heavy Metals in Surface Water Following Water-Sediment Regulation of the Xiaolangdi Dam in the Yellow River

by Qinghe Zhao, Shengyan Ding, Zihan Geng, Xunling Lu, Zhendong Hong, Yi Liu and Jinhai Yu

Int. J. Environ. Res. Public Health 2022, 19(9), 5713; https://doi.org/10.3390/ijerph19095713 - 7 May 2022

Cited by 2 | Viewed by 2129

Abstract

Water and sediment regulation aimed at aquatic ecosystems and preserving reservoir capacity to minimize the negative consequences of dams can fundamentally change the distribution of heavy metals (HMs) in the reservoir and downstream reaches. However, the effects of water and sediment regulation on [...] Read more.

Water and sediment regulation aimed at aquatic ecosystems and preserving reservoir capacity to minimize the negative consequences of dams can fundamentally change the distribution of heavy metals (HMs) in the reservoir and downstream reaches. However, the effects of water and sediment regulation on variation in HMs are still poorly understood. In this study, the variations in concentration, contamination, human health risk, potential sources, and influencing factors of the metalloid As and HMs (Cr, Hg, Ni, Pb, and Zn) in surface water in the reservoir and the downstream reach of the Xiaolangdi Dam (XLD) following the operation of the water-sediment regulation scheme (WSRS) were determined. These results indicate that HM concentrations in the two post-WSRS seasons were much lower than the water quality standards, but were significantly increased over time due to the trapping effects of the XLD (p < 0.05, except for Zn). However, As concentration in the reservoir was significantly lower than that observed in downstream reaches, likely due to anthropogenic input from agricultural activities. Meanwhile, HM concentrations varied with distance to the dam, which displayed a distinct accumulation closer to the dam in the post-WSRS II season. The contamination of HMs, the carcinogenic risk of exposure to As, and the noncarcinogenic risks associated with exposure to Hg, Ni, Pb, and Zn via the direct ingestion pathway of drinking water were all within acceptable levels following the WSRS, but increased over time. The carcinogenic risk of Cr in the post-WSRS II season was at an unacceptably high level, particularly at sites near the dam. Hydrological characteristics (water level and flow rate) were the dominant factors in determining the distribution of HMs. These results can provide new insight for a better understanding of the variations in HMs following the water and sediment regulation practices, and guide future management in regulating the trapping effects of dams. Full article

(This article belongs to the Topic Advances in Hydrodynamic Cavitation Applications for Environment and Human Health)

►▼ Show Figures

Figure 1

Show export options expand_more Show export options expand_less

Select all

Export citation of selected articles as:

Plain Text BibTeX BibTeX (without abstracts) Endnote Endnote (without abstracts) Tab-delimited RIS

 

Error

Oops... you haven't selected anything for export.

Ok

clear

Displaying articles 1-5