Your search keyword '"Ranade VV"' showing total 67 results

1. Phenothiazine molecule provides the basic chemical structure for various classes of pharmacotherapeutic agents.

Author

Mosnaim AD, Ranade VV, Wolf ME, Puente J, and Antonieta Valenzuela M

Published

2006

2. Chiral cardiovascular drugs: an overview.

Author

Ranade VV, Somberg JC, Ranade, Vasant V, and Somberg, John C

Published

2005

3. The effect of magnesium sulfate on action potential duration and cardiac arrhythmias.

Author

Somberg JC, Cao W, Cvetanovic I, Ranade VV, and Molnar J

Published

2005

4. Inhalation therapy: new delivery systems.

Author

Ranade VV and Ranade, V V

Published

2001

5. Bioavailability and pharmacokinetics of magnesium after administration of magnesium salts to humans.

Author

Ranade VV, Somberg JC, Ranade, V V, and Somberg, J C

Published

2001

6. Hypocholesterolemic agents. 9. C-20 Epimeric 22,25-diazacholesterols

Author

Cousell Re, Ranade Vv, and Kohen F

Subjects

Male, Aza Compounds, Magnetic Resonance Spectroscopy, Optical Rotation, Chemistry, Stereochemistry, Anticholesteremic Agents, Stereoisomerism, Nuclear magnetic resonance spectroscopy, Rats, Structure-Activity Relationship, Cholesterol, Drug Discovery, Animals, Molecular Medicine, Structure–activity relationship, Optical rotation

Published

1972

7. Synthesis of high-efficient low-cost fertilizer carriers based on biodegradable lignin hydrogels.

Author

Khan AA, Nayak JK, Amin BU, Muddasar M, Culebras M, Ranade VV, and Collins MN

Subjects

Polyvinyl Alcohol chemistry, Phosphates chemistry, X-Ray Diffraction, Spectroscopy, Fourier Transform Infrared, Lignin chemistry, Fertilizers, Hydrogels chemistry

Abstract

Conventional fertilizers face environmental and economic challenges due to their high solubility, leading to significant losses via runoff and leachate. This study presents a biodegradable hydrogel, synthesized from lignin and polyvinyl alcohol (PVA), designed as an eco-friendly carrier for struvite (fertilizer) with controlled phosphate release. The hydrogel was analysed through scanning electron microscopy (SEM), X-ray diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR), X-ray photoelectron spectroscopy (XPS), Thermogravimetric analysis (TGA) and Differential scanning calorimetry (DSC). Furthermore, the prepared hydrogels demonstrated high water absorption capacities (963.4 %, 706.4 %, and 410 % for LH 4 , LH 8 , and LH 12 , respectively) and exhibited Fickian diffusion behaviour. Phosphate release studies showed a gradual release over 6-8 h with concentrations of 20.5 ppm, 19.45 ppm, and 17.85 ppm for St-LH 4 , St-LH 8 , and St-LH 12 . These lignin-based hydrogels offer a promising, cost-effective solution for slow-release fertilizers with high efficiency., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

8. Controlled Delivery of H 2 O 2 : A Three-Enzyme Cascade Flow Reactor for Peroxidase-Catalyzed Reactions.

Author

Arshi S, Madane K, Shortall K, Hailo G, Alvarez-Malmagro J, Xiao X, Szymanńska K, Belochapkine S, Ranade VV, and Magner E

Abstract

Peroxidases are promising catalysts for oxidation reactions, yet their practical utility has been hindered by the fact that they require hydrogen peroxide (H 2 O 2 ), which at high concentrations can cause deactivation of enzymes. Practical processes involving the use of peroxidases require the frequent addition of low concentrations of H 2 O 2 . In situ generation of H 2 O 2 can be achieved using oxidase-type enzymes. In this study, a three-enzyme cascade system comprised of a H 2 O 2 generator (glucose oxidase (GOx)), H 2 O 2 -dependent enzymes (chloroperoxidase (CPO) or horseradish peroxidase (HRP)), and a H 2 O 2 scavenger (catalase (CAT)) was deployed in a flow reactor. Immobilization of the enzymes on a graphite rod was achieved through electrochemically driven physical adsorption, followed by cross-linking with glutaraldehyde. Modeling studies indicated that the flow in the reactor was laminar (Reynolds number, R e < 2000) and was nearly fully developed at the midplane of the annular reactor. Immobilized CAT and GOx displayed good stability, retaining 79% and 84% of their initial activity, respectively, after three cycles of operation. Conversely, immobilized CPO exhibited a considerable reduction in activity after one use, retaining only 30% of its initial activity. The GOx-CAT-GRE system enabled controlled delivery of H 2 O 2 in a more stable manner with a 4-fold enhancement in the oxidation of indole compared to the direct addition of H 2 O 2 . Using CPO in solution coupled with GOx-CAT-GRE yields of 90% for the oxidation of indole to 2-oxyindole and of 93% and 91% for the chlorination of thymol and carvacrol, respectively., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

9. Feasibility and Advantages of Continuous Synthesis of Bioinspired Silica Using CO 2 as an Acidifying Agent.

Author

Shukla CA, Moghadam RP, Patwardhan SV, and Ranade VV

Abstract

In this work, we present a method for the continuous synthesis of bioinspired porous silica (BIS) particles using carbon dioxide (CO 2 ) as an acidifying agent. Typical BIS synthesis uses strong mineral acids (e.g., HCl) to initiate the hydrolysis and subsequent condensation reactions. The use of strong acids leads to challenges in controlling the reaction pH. The synthesis approach proposed in this work offers for the first time CO 2 as an attractive alternative for the synthesis of BIS and demonstrates the continuous process. The developed method leverages the mild acidic and the self-buffering nature of the CO 2 combined with additional options for controlling mass transfer rates to facilitate enhanced control of pH, which is crucial for controlling the properties of synthesized BIS. Proof of concept experiments conducted in continuous mode demonstrated a yield of over 70% and a surface area exceeding 500 m 2 /g. These results indicate the successful synthesis of BIS using CO 2 with properties in the desired range. The enhanced pH control offered by this CO 2 -based process will facilitate the implementation of a sustainable and robust continuous process for BIS synthesis., Competing Interests: The authors declare the following competing financial interest(s): Two of the authors (C.A.S. and V.V.R.) have filed a patent on CO2-based BIS synthesis (WMD133446P.GBA/Application No:GB2306193.0)., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

10. Dense Oil in Water Emulsions using Vortex-Based Hydrodynamic Cavitation: Effective Viscosity, Sauter Mean Diameter, and Droplet Size Distribution.

Author

Upadhyay M, Ravi A, and Ranade VV

Abstract

Vortex-based hydrodynamic cavitation offers an effective platform for producing emulsions. In this work, we have investigated characteristics of dense oil in water emulsions with oil volume fractions up to 60% produced using a vortex-based cavitation device. Emulsions were prepared using rapeseed oil with oil volume fractions of 0.15, 0.3, 0.45, and 0.6. For each of these volume fractions, the pressure drop as a function of the flow rate of emulsions through the cavitation device was measured. These data were used for estimating the effective viscosity of the emulsions. The droplet size distribution of the emulsions was measured using the laser diffraction technique. The influence of the number of passes through the cavitation device on droplet size distributions and the Sauter mean diameter was quantified. It was found that the Sauter mean diameter ( d 32 ) decreases with an increase in the number of passes as n -0.2 . The Sauter mean diameter was found to be almost independent of oil volume fraction (α o ) up to a certain critical volume fraction (α oc ). Beyond α oc , d 32 was found to be linearly proportional to a further increase in oil volume fraction. As expected, the turbidity of the produced emulsions was found to be linearly proportional to the oil volume fraction. The slope of turbidity versus oil volume fraction can be used to estimate the Sauter mean diameter. A suitable correlation was developed to relate turbidity, volume fraction, and Sauter mean diameter. The droplet breakage efficiency of the vortex-based cavitation device for dense oil in water emulsions was quantified and reported. The breakage efficiency was found to increase linearly with an increase in oil volume fraction up to α oc and then plateau with a further increase in the oil volume fraction. The breakage efficiency was found to decrease with an increase in energy consumption per unit mass ( E ) as E -0.8 . The presented results demonstrate the effectiveness of a vortex-based cavitation device for producing dense oil in water emulsions and will be useful for extending its applications to other dense emulsions., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

11. Degradation of methyl orange using hydrodynamic Cavitation, H 2 O 2 , and photo-catalysis with TiO 2 -Coated glass Fibers: Key operating parameters and synergistic effects.

Author

Merdoud R, Aoudjit F, Mouni L, and Ranade VV

Abstract

Advanced oxidation processes (AOPs) are eco-friendly, and promising technology for treating dye containing wastewater. This study focuses on investigating the removal of methyl orange (MO), an azo dye, from a synthetic wastewater through the use of hydrodynamic cavitation (HC), both independently and in combination with hydrogen peroxide (H 2 O 2 ), as an external oxidant, as well as photocatalysis (PC) employing catalyst coated on glass fibers tissue (GFT). The examination of various operating parameters, including the pressure drop and the concentration of H 2 O 2 , was systematically conducted to optimize the degradation of MO. A per-pass degradation modelwas used to interpret and describe the experimental data. The data revealed that exclusive employment of HC using a vortex-based cavitation device at 1.5 bar pressure drop, resulted in a degradation exceeding 96 % after 100 passes, equivalent to 230 min of treatment (cavitation yield of 3.6 mg/kJ for HC), with a COD mineralization surpassing 12 %. The presence of a small amount of H 2 O 2 (0.01 %) significantly reduced the degradation time from 230 min to 36 min (16 passes), achieving a degradation of 99.8 % (cavitation yield of 6.77 mg/kJ for HC) with COD mineralization rate twice as much as HC alone, indicating a synergistic effect of 4.8. The degradation time was further reduced to 21 min by combining HC with PC using TiO 2 -coated glass fibers and H 2 O 2 , (cavitation yield of 11.83 mg/kJ for HC), resulting in an impressive synergistic effect of 9.2 and COD mineralization twice as high as the HC/H 2 O 2 system. The results demonstrate that HC based hybrid AOPs can be very effective for treating and mineralizing azo dyes in water., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

12. Design of vortex-based cavitation devices/reactors: Influence of aspect ratio, number of inlets and shape.

Author

Gode A, Madane K, and Ranade VV

Abstract

Vortex-based hydrodynamic cavitation devices are being used in a wide range of applications. However, adequate information on the design of such devices is not available. In this work, we have computationally investigated the influence of key design parameters such as the aspect ratio of the vortex chamber, the number of tangential inlets and the shape of the device on resulting flow characteristics and cavitation. Experiments were carried out to validate key findings from the computational studies. These investigations revealed that the aspect ratio of the vortex chamber as six may be considered as optimum. The performance of single and multiple inlet devices was found to be comparable at the same pressure drop (that is at same energy consumption per m 3 ). Scale-up with a geometric similarity led to a reduction in the extent of cavitation for same energy consumption per m 3 . For facilitating scale-out option, an attempt was made to simplify the configuration of the vortex-based cavitation device. Computational results indicated that the cavitation performance of simplified configuration was not significantly inferior. A case of the formation of liquid-liquid emulsion was taken as a test case for evaluation of a modified cavitation device based on the present investigations. The droplet size distributions of emulsions generated by both the devices indicate that the proposed simplified configuration, which may facilitate fabrication and offer integrated scale-out options, performs almost at par with a complex configuration. The presented results will be useful for optimising designs of vortex-based hydrodynamic cavitation devices/ reactors., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

13. Novel Machine Learning-Based Method for Estimation of the Surface Area of Porous Silica Particles.

Author

Moghadam RP, Shukla CA, and Ranade VV

Abstract

This work reports a novel and quick method to estimate the surface area of porous materials. Conventionally, surface area measurement requires the BET method/N 2 adsorption experiment which is time-consuming. In this work, we developed a method based on machine learning (ML) and the adsorption of a conductive dye on porous materials. The rate and quantity of dye adsorption, which is characterized by dynamic measurement of conductivity, provide an indirect measure of surface area and zeta potential. An ML-based soft sensor is developed to relate the measured conductivity profiles with surface area and zeta potential. A phenomenological model on dye adsorption is also developed, validated, and used to augment experimental data for training the soft sensor. The developed method was tested for porous silica particles with a range of surface areas (250-1100 m 2 /g) and zeta potential (-17 mV: -29 mV). The developed soft sensor was able to estimate the surface area and zeta potential quite well. The developed approach and method reduce overall measurement time for surface area from several hours to a few minutes. The method can potentially be implemented in continuous plants producing porous materials like silica., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published

2023

14. Enhancement of biomethane potential of brown sludge by pre-treatment using vortex based hydrodynamic cavitation.

Author

Islam MS and Ranade VV

Abstract

Novel, non-thermal and economically benign pre-treatment process was developed for enhancing valorisation potential of brown sludge generated by dairy industry wastewater treatment plant (WWTP). Vortex-based hydrodynamic cavitation (HC) device was used to quantify influence of pretreatment by measuring biomethane potential (BMP) of untreated and treated brown sludge. Pre-treatment parameters, primarily, pressure drop and number of passes through the cavitation device were varied to quantify influence on BMP. BMP tests were performed at 39 °C containing 5% of total solids in each reactors using an automatic BMP measurement system containing 15 reactors with each volume of 500 mL fitted with overhead stirrer. HC treatment increased the soluble chemical oxygen demand (sCOD) by more than 25% which increased the BMP. HC treatment was able to push the BMP of treated sludge to more than 80% of the theoretical BMP. Volatile solids (VS) removal was more than 65%. Highest methane yield was 376 mL/g-VS of sludge. The methodology and results presented here show significant potential to valorise brown dairy sludge via vortex based hydrodynamic cavitation., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper, (© 2023 The Authors.)

Published

2023

15. Oxidation of Sulphur pollutants in model and real fuels using hydrodynamic cavitation.

Author

Delaney P, Sarvothaman VP, Nagarajan S, Rooney D, Robertson PKJ, and Ranade VV

Abstract

Hydrodynamic Cavitation (HC) offers an attractive platform for intensifying oxidative desulphurization of fuels. In the first part of this work, we present new results on oxidising single ring thiophene in a model fuel over the extended range of volume fraction of organic phase from 2.5 to 80 v/v %. We also present influence of type and scale of HC device on performance of oxidative desulphurization. Further experiments revealed that oxidising radicals generated in-situ by HC alone were not able to oxidise dual ring thiophenes. External catalyst (formic acid) and oxidising agents (hydrogen peroxide, H 2 O 2 ) were therefore used with HC. Based on our prior work with acoustic cavitation (AC), the volumetric ratios for H 2 O 2 and formic acid were identified as 0.95 v/v % and 6.25 v/v % respectively. The data of oxidation of dual ring thiophenes with n-dodecane and n-hexane as model fuels and typical transport fuels (diesel, kerosene, and petrol) using these oxidant and catalyst is presented. The observed performance with HC was compared with results obtained from a stirred tank and AC set-up. The presented data indicates that HC is able to intensify oxidation of sulphur species. The presented results provide a sound basis for further developments on HC based oxidative desulphurization processes., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

16. Intensifying extraction of biomolecules from macroalgae using vortex based hydrodynamic cavitation device.

Author

Mittal R and Ranade VV

Subjects

Hydrodynamics, Phycoerythrin, Carbohydrates, Seaweed, Rhodophyta chemistry

Abstract

Macroalgae have a tremendous potential to become an important renewable resource for valuable biomolecules and chemicals. New and improved ways of cell disruption and of enhancing rate as well as yield of extraction of valuable products from macroalgae are needed to fully realise this potential. In this work, hydrodynamic cavitation (HC) was used for intensifying rate and yield of extraction of phycoerythrin, proteins and carbohydrates from marine macroalgae Palmaria palmata. We use vortex-based HC devices which do not use small restrictions like orifice-based HC devices or moving parts like rotor-stator based HC devices. A bench scale setup with a nominal slurry flow rate of 20 LPM was established. Dried and powdered macroalgae was used. Influence of key operating parameters like pressure drop and number of passes on extraction performance (the rate and yield) was measured. A simple, yet effective model was developed and used for interpreting and describing experimental data. The results indicate that there exists an optimum pressure drop across the device at which extraction performance is maximum. The extraction performance with HC was found to be significantly better than the stirred vessels. HC has resulted in 2 to 20 times improvement in the rate of extraction of phycoerythrin (R-PE), proteins and carbohydrates. Based on the results obtained in this work, pressure drop of 200 kPa and number of passes through the HC devices of about 100 were found to be most effective for HC-assisted intensified extraction from macroalgae. The presented results and model will be useful for harnessing vortex-based HC devices for intensifying the extraction of valuable products from macroalgae., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

17. ANN based surrogate model for key Physico-chemical effects of cavitation.

Author

Ranade NV and Ranade VV

Abstract

Intense and localised physico-chemical effects realised by cavitation such as generation of hydroxyl radicals, high-speed jets, and very high energy dissipation rates are being harnessed for a wide range of applications from emulsions, crystallisation, reactions to water treatment and waste valorisation. Single cavity models are typically used to quantitatively estimate such localised effects of cavity collapse. However, these models demand significant computing resources for resolving fast dynamics and therefore are very difficult, if not impossible, to integrate with CFD based cavitation device or reactor scale models. This severely limits the utility of device/ reactor scale models in simulating key applications of interest. In this work, we present, for the first time, artificial neural network (ANN) based surrogate models which accurately represent complex physico-chemical effects of cavity collapse. Recently developed cavity dynamics model was used for generating training data set encompassing both acoustic and hydrodynamic cavitation. Appropriate methodology for training ANN was developed. A shallow three hidden layer dense ANN was found to be more effective for estimating three main effects of cavity collapse: jet velocity, •OH generation and localised energy dissipation rate. The performance of trained ANN was then evaluated by comparing the predictions with the totally unseen data obtained from the cavity dynamics model. The developed ANN was shown to simulate unseen data very well not just within the range of training data (interpolation) but also beyond (extrapolation). Algebraic equations representing ANN are included to facilitate incorporation in device/ reactor scale CFD models. The presented methodology and results will be useful for developing high-fidelity CFD models of cavitation devices/ reactors based on key physico-chemical effects of cavity collapse., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

18. Flow physics of planar bistable fluidic oscillator with backflow limbs.

Author

Madane K, Khalde C, Pandit A, and Ranade VV

Abstract

Fluidic oscillators (FOs) are used in a variety of applications, including process control and process intensification. Despite the simple design and operation of FOs, the fluid dynamics of FOs exhibit rich complexities. The inherently unstable flow, jet oscillations, and resulting vortices influence mixing and other transport processes. In this work, we computationally investigated the fluid dynamics of a new design of a planar FO with backflow limbs. The design comprised of two symmetric backflow limbs leading to bistable flow. The unsteady flow dynamics, internal recirculation, jet oscillations, secondary flow vortices were computationally studied over a range of inlet Reynolds numbers (2400-12,000). The nature and frequency of the jet oscillations were quantified. The computed jet oscillation frequency was compared with the experimentally measured (using imaging techniques) jet oscillation frequency. The flow model was then used to quantitatively understand mixing, heat transfer, and residence time distribution. The approach and the results presented in this work will provide a basis for designing FO's with desired flow and transport characteristics for various engineering applications., (© 2022 The Authors. AIChE Journal published by Wiley Periodicals LLC on behalf of American Institute of Chemical Engineers.)

Published

2023

19. Modeling of Hydrodynamic Cavitation Reactors: Reflections on Present Status and Path Forward.

Author

Ranade VV

Abstract

Hydrodynamic cavitation (HC) is finding ever increasing applications in water, energy, chemicals, and materials sectors. HC generates intense shear, localized hot spots, and hydroxyl radicals, which are harnessed for realizing desired physicochemical transformations. Despite identification of HC as one of the most promising technology platforms, its potential is not yet adequately translated in practice. Lack of appropriate models for design, optimization, and scale-up of HC reactors is one of the primary reasons for this. In this work, the current status of modeling of HC reactors is presented. Various prevailing approaches covering empirical, phenomenological, and multiscale models are critically reviewed in light of personal experience of their application. Use of these approaches for different applications such as biomass pretreatment and wastewater treatment is briefly discussed. Some comments on extending these models for other applications like emulsions and crystallization are included. The presented models and discussion will be useful for practicing engineers and scientists interested in applying HC for a variety of applications. Some thoughts on further advances in modeling of HC reactors and outlook are shared, which may stimulate further research on improving the fidelity of computational models of HC reactors., Competing Interests: The author declares no competing financial interest., (© 2022 The Author. Published by American Chemical Society.)

Published

2022

20. Emulsions Using a Vortex-Based Cavitation Device: Influence of Number of Passes, Pressure Drop, and Device Scale on Droplet Size Distributions.

Author

Thaker AH and Ranade VV

Abstract

Liquid-liquid emulsions are used in a variety of industry sectors, including personal care, home care, food, and nutrition. The development of compact and modular systems and devices for creating emulsions with desired droplet size distribution (DSD) is becoming increasingly important. In this work, we have shown use of vortex-based cavitation devices for producing emulsions at nominal flow rate of 1 LPM and 20 LPM. We present new experimental results providing quantitative information on influence of multiple passes through the vortex based hydrodynamic cavitation (HC) device, type of oil and device scale on the breakage process and resulting DSDs. Multiple pass experiments were performed for generating oil-in-water emulsions containing 5 and 15% of oil. Rapeseed oil (RO) and tetrachloroethylene (TCE) were used as oil phases with densities of 915 and 1620 kg/m 3 , respectively. The effect of pressure drop across the HC device in the range of 50-250 kPa on DSD was examined. The HC device was shown to exhibit significant higher efficiency compared to alternative emulsion making devices (i.e., homogenizers, venturi, and orifice-based HC devices), and the Sauter mean drop size was found to reduce from 66 μm to less than 2 μm after about 50 passes in all the device scales. The DSD of the RO-water system showed a bimodal nature, whereas monomodal DSD was found for TCE-water system. Preliminary simulations using the computational fluid dynamics-population balance model (CFD-PBM) models developed in the previous work indicated the inadequacy of developed models to capture the influence of cavitation on DSDs. By carrying out Hinze scale analysis of bimodal DSD, we for the first time showed the existence of two different mechanisms (one based on conventional turbulent shear and the other based on collapsing cavities) of droplet breakage in HC devices. The order of magnitude of turbulence energy dissipation rates generated due to collapsing cavity estimated using Hinze scale analysis showed good agreement with the values reported from cavity dynamics models. The presented experimental results and analysis will be useful for researchers and engineers interested in developing computational models and compact devices for producing emulsions of the desired DSD., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published

2022

21. Quantifying OH radical generation in hydrodynamic cavitation via coumarin dosimetry: Influence of operating parameters and cavitation devices.

Author

De-Nasri SJ, Sarvothaman VP, Nagarajan S, Manesiotis P, Robertson PKJ, and Ranade VV

Subjects

Hydroxyl Radical, Coumarins, Oxygen, Hydrodynamics, Hydrogen Peroxide

Abstract

Hydrodynamic cavitation (HC) has been extensively investigated for effluent treatment applications. Performance of HC devices or processes is often reported in terms of degradation of organic pollutants rather than quantification of hydroxyl (OH) radicals. In this study, generation of OH radicals in vortex based cavitation device using coumarin dosimetry was quantified. Coumarin was used as the chemical probe with an initial concentration of 100 µM (15 ppm). Generation of OH radicals was quantified by analysing generated single hydroxylated products. The influence of operating parameters such as pH and type of acid used to adjust pH, dissolved oxygen, and inlet and outlet pressures was investigated. Acidic pH was found to be more conducive for generating OH radicals and therefore subsequent experiments were performed at pH of 3. Sulphuric acid was found to be more than three times effective than hydrochloric acid in generating OH radicals. Effect of initial levels of dissolved oxygen was found to influence OH radical generation. Performance of vortex based cavitation device was then compared with other commonly used cavitation devices based on orifice and venturi. The vortex based cavitation device was found to outperform the orifice and venturi based devices in terms of initial per-pass factor. Influence of device scale (nominal flow rate through the device) on performance was then evaluated. The results presented for these devices unambiguously quantifies their cavitational performance. The presented results will be useful for evaluating computational models and stimulate further development of predictive computational models in this challenging area., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Vivek Ranade reports a relationship with VIVIRA Process Technologies that includes: board membership., (Copyright © 2022 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2022

22. Solvent Free Upgrading of 5-Hydroxymethylfurfural (HMF) with Levulinic Acid to HMF Levulinate Using Tin Exchanged Tungstophosphoric Acid Supported on K-10 Catalyst.

Author

Tiwari MS, Wagh D, Dicks JS, Keogh J, Ansaldi M, Ranade VV, and Manyar HG

Abstract

The manufacture of high-value products from biomass derived platform chemicals is becoming an integral part of the biorefinery industry. In this study, we demonstrate a green catalytic process using solvent free conditions for the synthesis of hydroxymethylfurfural (HMF) levulinate from HMF and levulinic acid (LA) over tin exchanged tungstophosphoric acid (DTP) supported on K-10 (montmorillonite K-10 clay) as the catalyst. The structural properties of solid acid catalysts were characterized by using XRD, FT-IR, UV-vis, titration, and SEM techniques. Partial exchange of the H + of DTP with Sn ( x = 1) resulted in enhanced acidity of the catalyst and showed an increase in the catalytic activity as compared to the unsubstituted DTP/K-10 as the catalyst. The effects of different reaction parameters were studied and optimized to get high yields of HMF levulinate. The kinetic model was developed by considering the Langmuir-Hinshelwood-Hougen-Watson (LHHW) mechanism, and the activation energy was calculated to be 41.2 kJ mol -1 . The prepared catalysts were easily recycled up to four times without any noticeable loss of activity, and hot filtration test indicated the heterogeneous nature of the catalytic activity. The overall process is environmentally benign and suitable for easy scale up., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published

2022

23. Pretreatment of milled and unchopped sugarcane bagasse with vortex based hydrodynamic cavitation for enhanced biogas production.

Author

Nagarajan S and Ranade VV

Subjects

Biofuels, Biomass, Cellulose, Hydrodynamics, Saccharum

Abstract

Anaerobic digestion can potentially valorise sugarcane bagasse to biogas and fertiliser. Pretreatment is however required to overcome recalcitrance and enhance the biogas yields. Literature reporting the investigation of various biomass pretreatments often use milled biomass as substrate rather than as-received fibrous biomass. This does not establish the true influence of the pretreatment type on biogas generation. Additionally, milling energy is also ignored when calculating net energy gains from enhanced biogas yields and are thus misleading. In this work, a vortex-based hydrodynamic cavitation device was used to enhance the biomethane yields from fibrous as-received biomass for the first time. Clear justification on why milled biomass must not be used as substrates for demonstrating the effect of pretreatment on biogas production is also discussed. The net energy gain from milled hydrodynamic cavitation pre-treated bagasse can be similar to as-received bagasse only when the specific milling energy is ≤700 kWh/ton., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2022

24. Removal of single and dual ring thiophene's from dodecane using cavitation based processes.

Author

Delaney P, Sarvothaman VP, Colgan R, Nagarajan S, Deshmukh G, Rooney D, Robertson PKJ, and Ranade VV

Subjects

Alkanes, Carboxylic Acids, Oxidants, Thiophenes, Hydrogen Peroxide, Sulfur

Abstract

Utilising cavitation for enhancing oxidative desulphurization has been investigated for nearly-two decades with recent investigations shifting focus from low-capacity acoustic cavitation (AC) to scalable hydrodynamic cavitation (HC). This work focuses on developing a viable means for removing thiophene's from fuels. In the first phase of this work, use of vortex based HC devices for removal of single and dual ring thiophenes from dodecane was investigated. HC was shown to be able to remove single ring thiophene from dodecane without using any external catalyst or additives. However, in absence of catalyst or additives, it was not possible to remove dual ring thiophenes such as dibenzothiophene using HC. Therefore, in the second phase of this work, various strategies based on use of catalyst or additives to augment cavitation based process were investigated. AC based experiments were opted for shortlisting suitable catalysts and additives for intensifying cavitation based processes. The influence of using oxidant (H 2 O 2 ) and carboxylic acid catalysts on efficacy of removal of dual ring thiophenes is presented. Several conditions were tested, and the optimal volumetric ratios of 0.95 v/v % H 2 O 2 and 6.25 v/v % HCOOH was identified and utilised throughout the remainder of the study. Regeneration of extractant which accumulates oxidised sulphur species from dodecane was also investigated using AC. The additives and process conditions reported in this work are useful for enhancing desulphurization performance., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Vivek V. Ranade reports a relationship with VIVIRA Process Technologies Pvt. ltd. that includes: board membership., (Copyright © 2022 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2022

25. A simplified model for simulating anaerobic digesters: Application to valorisation of bagasse and distillery spent wash.

Author

Nagarajan S, Prasad Sarvothaman V, Knörich M, and Ranade VV

Subjects

Anaerobiosis, Biofuels, Cellulose, Bioreactors, Methane

Abstract

Current anaerobic digestion (AD) design methods rely on crude empirical models or sophisticated anaerobic digestion models (like ADM1) requiring a large number of parameters which are difficult to obtain experimentally. A simplified model for simulating AD was developed in this work. The model requires knowledge of CH 4 /CO 2 ratio in biogas or indigestible fraction in substrate and batch biomethane potential (BMP) data for estimating three kinetic parameters (maximum specific growth rate, half velocity constant and cell death rate). Reported lab scale BMP data of sugarcane bagasse and spent wash were used to first estimate the kinetics and then to simulate corresponding largescale AD. Simulated results of specific methane yield and digester performance were consistent with available largescale AD data. The potential of the model to simulate single and multi-stage AD were illustrated. The presented approach and model will be useful for effectively valorising a variety of complex biomass substrates to biogas., (Copyright © 2021. Published by Elsevier Ltd.)

Published

2021

26. Estimation of chemical and physical effects of cavitation by analysis of cavitating single bubble dynamics.

Author

Pandit AV, Sarvothaman VP, and Ranade VV

Abstract

Cavitation events create extreme conditions in a localized 'bubble collapse' region, leading to the formation of hydroxyl radicals, shockwaves and microscopic high-speed jets, which are useful for many chemical and physical transformation processes. Single bubble dynamics equations have been used previously to investigate the chemical and physical effects of cavitation. In the present study, the state of the art of the single bubble dynamics equations was reviewed and certain noteworthy modifications were implemented. Simulations reaffirmed previously reported collapse temperatures of the order ~5,000 K and collapse pressures well over ~1,000 bar under varying operating conditions. The chemical effects were assessed in terms of the hydroxyl radical generation rate (OHG), calculated by applying the minimization of the Gibb's Free Energy method using simulated collapse conditions. OHG values as high as 1x10 12 OH molecules per collapse event were found under certain operating conditions. A new equation was proposed to assess the physical effects, in terms of the impact pressure of the water jet - termed as the jet hammer pressure (JHP), formed due to the asymmetrical collapse of a bubble near a wall. The predicted JHP were found to be within a range of ~100 to 1000 bar under varying operating conditions. Important issues such as the onset of cavitation and chaotic solutions, for a cavitating single bubble dynamics were discussed. The Blake threshold pressure was found to be a sufficient criterion to capture the onset of cavitation. The impact of key operating parameters on the chemical and physical effects of cavitation were investigated exhaustively through simulations, over the parameter ranges relevant to acoustic and hydrodynamic cavitation processes. Presented methodology and results will be useful for optimisation and further investigations of a broad range of acoustic and hydrodynamic cavitation-based applications., (Copyright © 2021 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

27. ANN based modelling of hydrodynamic cavitation processes: Biomass pre-treatment and wastewater treatment.

Author

Ranade NV, Nagarajan S, Sarvothaman V, and Ranade VV

Subjects

Biomass, Hydrodynamics, Neural Networks, Computer, Waste Disposal, Fluid, Wastewater chemistry

Abstract

We have developed artificial neural network (ANN) based models for simulating two application examples of hydrodynamic cavitation (HC) namely, biomass pre-treatment to enhance biogas and degradation of organic pollutants in water. The first case reports data on influence of number of passes through HC reactor on bio-methane generation from bagasse. The second case reports data on influence of HC reactor scale on degradation of dichloroaniline (DCA). Similar to most of the HC based applications, the availability of experimental data for these two applications is rather limited. In this work a systematic methodology for developing ANN model is presented. The models were shown to describe the experimental data very well. The ANN models were then evaluated for their ability to interpolate and extrapolate. Despite the limited data, the ANN models were able to simulate and interpolate the data for two very different and complex HC applications very well. The extrapolated results of biomethane generation in terms of number of passes were consistent with the intuitive understanding. The extrapolated results in terms of elapsed time were however not consistent with the intuitive understanding. The ANN model was able to generate intuitively consistent extrapolated results for degradation of DCA in terms of number of passes as well as scale of HC reactor. The results will be useful for developing quantitative models of complex HC applications., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

28. Improving efficiency for removal of ammoniacal nitrogen from wastewaters using hydrodynamic cavitation.

Author

Patil PB, Bhandari VM, and Ranade VV

Abstract

The present study reports significant improvements in the removal of ammoniacal nitrogen from wastewater which is an important problem for many industries such as dyes and pigment, distilleries and fisheries. Pilot plant studies (capacity, 1 m 3 /h) on synthetic wastewater using 4-amino phenol as model nitrogen containing organic compound and two real industrial effluents of high ammoniacal nitrogen content were carried out using hydrodynamic cavitation. Two reactor geometries were evaluated for increased efficiency in removal-orifice and vortex diode. Effect of initial concentration (100-500 mg/L), effect of pressure drop (0.5-5 bar) and nature of cavitating device (linear and vortex flow for cavitation) were evaluated along with effect of salt content, effect of hydrogen peroxide addition and aeration. Initial concentration was found to have significant impact on the extent of removal: ~ 5 g/m 3 removal for initial concentration of 100 mg/L and up to 12 g/m 3 removal at high concentration of 500 mg/L. Interestingly, significant improvement of the order of magnitude (up to 8 times) in removal of ammoniacal nitrogen could be obtained by sparging air or oxygen in hydrodynamic cavitation and a very high removal of above 80% could be achieved. The removal of ammoniacal nitrogen by vortex diode was also found to be effective in the industrial wastewaters and results on two different effluent samples of distillery industry indicated up to 75% removal, though with longer time of treatment compared to that of synthetic wastewater. The developed methodology of hydrodynamic cavitation technology with aeration and vortex diode as a cavitating device was found to be highly effective for improving the efficiency of the conventional cavitation methods and hence can be highly useful in industrial wastewater treatment, specifically for the removal of ammoniacal nitrogen., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

29. Scale-up of vortex based hydrodynamic cavitation devices: A case of degradation of di-chloro aniline in water.

Author

Ranade VV, Prasad Sarvothaman V, Simpson A, and Nagarajan S

Abstract

Hydrodynamic cavitation (HC) is being increasingly used in a wide range of applications. Unlike ultrasonic cavitation, HC is scalable and has been used at large scale industrial applications. However, no information about influence of scale on performance of HC is available in the open literature. In this work, we present for the first time, experimental data on use of HC for degradation of complex organic pollutants in water on four different scales (~200 times scale-up in terms of capacity). Vortex based HC devices offer various advantages like early inception, high cavitational yield and significantly lower propensity to clogging and erosion. We have used vortex based HC devices in this work. 2,4 dichloroaniline (DCA) - an aromatic compound with multiple functional groups was considered as a model pollutant. Degradation of DCA in water was performed using vortex-based HC devices with characteristic throat dimension, d t as 3, 6, 12 and 38 mm with scale-up of almost 200 time based on the flow rates (1.3 to 247 LPM). Considering the experimental constraints on operating the largest scale HC device, the experimental data is presented here at only one value of pressure drop across HC device (280 kPa). A previously used per-pass degradation model was extended to describe the experimental data for the pollutant used in this study and a generalised form is presented. The degradation performance was found to decrease with increase in the scale and then plateaus. Appropriate correlation was developed based on the experimental data. The developed approach and presented results provide a sound basis and a data set for further development of comprehensive multi-scale modelling of HC devices., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

30. Destroying antimicrobial resistant bacteria (AMR) and difficult, opportunistic pathogen using cavitation and natural oils/plant extract.

Author

Mane MB, Bhandari VM, Balapure K, and Ranade VV

Subjects

Acoustics, Disinfection methods, Green Chemistry Technology methods, Methicillin-Resistant Staphylococcus aureus drug effects, Plant Extracts chemistry, Plant Oils chemistry, Pseudomonas aeruginosa drug effects, Water Microbiology, Water Purification methods, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial, Hydrodynamics, Plant Extracts pharmacology, Plant Oils pharmacology

Abstract

The present study reports, for the first time, a new and techno-economic strategy for effective removal of antimicrobial resistant bacteria (AMR) and difficult, opportunistic pathogen using cavitation and natural oils/plant extract. A hybrid methodology using natural oils of known health benefits has been discussed in combination with conventional physico-chemical method of hydrodynamic cavitation that not only provides efficient and effective water disinfection, but also eliminates harmful effects of conventional methods such as formation of disinfection by-products apart from reducing cost of treatment. A proof-of concept is demonstrated by achieving exceptionally high rates for practically complete removal of antimicrobial resistant (AMR) and relatively less researched, gram-negative opportunistic pathogen, Pseudomonas aeruginosa and gram-positive methicillin resistant, Staphylococcus aureus using a natural oil-Peppermint oil and two different cavitating reactors employing vortex flow (vortex diode) and linear flow (orifice) for hydrodynamic cavitation. >99% disinfection could be obtained, typically in less than 10 min, using vortex diode with operating pressure drop of 1 bar and low dose of 0.1% peppermint oil as an additive, depicting very high rates of disinfection. The rate of disinfection can be further increased by using simple aeration which can result in significant lowering of oil dose. The conventional device, orifice requires relatively higher pressure drop of 2 bar and comparatively more time (~20 min) for disinfection. The cost of the disinfection was also found to be significantly lower compared to most conventional processes indicating techno-economic feasibility in employing the developed hybrid method of disinfection for effectively eliminating bacteria including AMR bacteria from water. The developed approach not only highlights importance of going back to nature for not just conventional water disinfection, but also for eliminating hazardous AMR bacteria and may also find utility in many other applications for the removal of antimicrobial bacteria., Competing Interests: Declaration of Competing Interest One of the author Prof. (Dr.) Vivek V. Ranade is a founder of VIVIRA process Technologies Pvt. Ltd. which commercially offers vortex diode based cavitation device., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

31. A novel hybrid cavitation process for enhancing and altering rate of disinfection by use of natural oils derived from plants.

Author

Mane MB, Bhandari VM, Balapure K, and Ranade VV

Subjects

Anti-Bacterial Agents pharmacology, Escherichia coli drug effects, Staphylococcus aureus drug effects, Disinfectants pharmacology, Plant Oils pharmacology

Abstract

The present study is an attempt to improvise the hydrodynamic cavitation methodology for effective disinfection of water and also to suggest prototype development for practical application. The enhancement in the disinfection efficiency was evaluated specifically for the effect of pressure, temperature, pH, microbial inoculum size and also on effect of different additives for the two model microbial strains, gram-negative (Escherichia coli) and gram-positive (Staphylococcus aureus). The efficacy of the hydrodynamic cavitation is evaluated for the two types of flows/cavitation devices - linear flow in the case of orifice and vortex flow for vortex diode. The vortex diode requires significantly lower pressures, 50% lower as compared to orifice for the similar extent of disinfection. While the bacterial disinfection at high temperature is known, the usefulness of hydrodynamic cavitation is especially evident at ambient conditions and the process is effective even at very high concentrations of bacteria, not reported so far. The reactor geometry also has significant effect on the disinfection. The present study, for the first time, reports possible use of different natural oils such as castor oil, cinnamon oil, eucalyptus oil and clove oil in conjunction with hydrodynamic cavitation. The nature of oil modifies the cavitation behavior and an order of magnitude enhancement in the cavitation rate was observed for the two oils, eucalyptus and clove oil for a very small concentration of 0.1%. The increased rates of disinfection, of the order of 2-4 folds, using oil can drastically reduce the time of operation and consequently reduce cost of disinfection. A possible mechanism is proposed for the effect of oil and hydrodynamic cavitation in cell destruction through the rupture of cell wall, oxidative damage and possible DNA denaturation. A cavitation model using per pass disinfection was used to correlate the data. The increased efficiency using oils and possible benefits of the developed process, where natural oils can be perceived as biocatalysts, can have significant advantages in practical applications., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

32. Hydrodynamic cavitation using vortex diode: An efficient approach for elimination of pathogenic bacteria from water.

Author

Jain P, Bhandari VM, Balapure K, Jena J, Ranade VV, and Killedar DJ

Subjects

Disinfection, Escherichia coli, Staphylococcus aureus, Water, Hydrodynamics, Water Purification

Abstract

The present study successfully demonstrates greener methodology of hydrodynamic cavitation using rotational flows for disinfection of water. Disinfection of two model microbial strains-gram- negative (Escherichia coli) and gram-positive (Staphylococcus aureus) using vortex diode was evaluated. The removal efficacy was quantified for two different cavitation reactors. Practically complete elimination of E. coli was achieved (99%) after 1 h of cavitation at a pressure drop of only 0.5 bar. However, elimination of S. aureus using vortex diode was observed to be lower in comparison to the removal of E. coli and only 60% disinfection could be achieved under similar conditions, which can be subsequently enhanced up to 98% by increasing pressure drop. The results were compared with another cavitating device that employs linear flow for cavitation, orifice. The reactor geometry has significant impact on the disinfection process and orifice was found to require significantly higher pressure drop (10 bar) conditions for disinfection and for eliminating gram-positive bacteria with high efficiency. A plausible mechanism for disinfection was proposed to elucidate the role of cavitation in cell destruction leading to death of cells through the rupture of cell wall, oxidative damage and possible DNA denaturation. Also, a cavitation model using per pass disinfection was developed that can provide meaningful physical description of the disinfection process as against the conventional first order reaction rate model. This study would provide meaningful insight into cavitation process based on hydrodynamic cavitation for the destruction of both gram-negative and gram-positive bacteria from various water sources, including industrial wastewaters., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

33. A Non-catalytic Deep Desulphurization Process using Hydrodynamic Cavitation.

Author

Suryawanshi NB, Bhandari VM, Sorokhaibam LG, and Ranade VV

Abstract

A novel approach is developed for desulphurization of fuels or organics without use of catalyst. In this process, organic and aqueous phases are mixed in a predefined manner under ambient conditions and passed through a cavitating device. Vapor cavities formed in the cavitating device are then collapsed which generate (in-situ) oxidizing species which react with the sulphur moiety resulting in the removal of sulphur from the organic phase. In this work, vortex diode was used as a cavitating device. Three organic solvents (n-octane, toluene and n-octanol) containing known amount of a model sulphur compound (thiophene) up to initial concentrations of 500 ppm were used to verify the proposed method. A very high removal of sulphur content to the extent of 100% was demonstrated. The nature of organic phase and the ratio of aqueous to organic phase were found to be the most important process parameters. The results were also verified and substantiated using commercial diesel as a solvent. The developed process has great potential for deep of various organics, in general, and for transportation fuels, in particular., Competing Interests: The authors declare competing financial interests. Intellectual property pertaining to the materials presented in this Report is protected by two patents (WO 2013054362 A2 20130418; 2015-INV-0092: 0230NF2015).

Published

2016

34. Microarrays and microneedle arrays for delivery of peptides, proteins, vaccines and other applications.

Author

Chandrasekhar S, Iyer LK, Panchal JP, Topp EM, Cannon JB, and Ranade VV

Subjects

Animals, Humans, Microarray Analysis instrumentation, Drug Delivery Systems, Peptides administration & dosage, Pharmaceutical Preparations administration & dosage, Protein Array Analysis, Proteins administration & dosage, Vaccines administration & dosage

Abstract

Introduction: Peptide and protein microarray and microneedle array technology provides direct information on protein function and potential drug targets in drug discovery and delivery. Because of this unique ability, these arrays are well suited for protein profiling, drug target identification/validation and studies of protein interaction, biochemical activity, immune responses, clinical prognosis and diagnosis and for gene, protein and drug delivery., Areas Covered: The aim of this review is to describe and summarize past and recent developments of microarrays in their construction, characterization and production and applications of microneedles in drug delivery. The scope and limitations of various technologies in this respect are discussed., Expert Opinion: This article offers a review of microarray/microneedle technologies and possible future directions in targeting and in the delivery of pharmacologically active compounds for unmet needs in biopharmaceutical research. A better understanding of the production and use of microarrays and microneedles for delivery of peptides, proteins and vaccines is needed.

Published

2013

35. Mono- and bis(aminomethyl)phenylacetic acid esters as short-acting antiarrhythmic agents. 2.

Author

Chorvat RJ, Black LA, Ranade VV, Barcelon-Yang C, Stout DM, Brown BS, Stampfli HF, and Quon CY

Subjects

Animals, Anti-Arrhythmia Agents pharmacokinetics, Anti-Arrhythmia Agents pharmacology, Dogs, Guinea Pigs, Half-Life, Humans, Phenylacetates pharmacokinetics, Phenylacetates pharmacology, Pyrrolidines pharmacokinetics, Pyrrolidines pharmacology, Structure-Activity Relationship, Anti-Arrhythmia Agents chemical synthesis, Phenylacetates chemical synthesis, Pyrrolidines chemical synthesis

Abstract

The synthesis, antiarrhythmic activity, and blood hydrolysis properties of a series of mono- and bis(aminomethyl)phenylacetic acid esters related to a previously reported class Ic antiarrhythmic agent (ACC-9358) are described. Of the various oxa-, aza-, thia-, and carbacyclic esters initially prepared in the bis(pyrrolidinomethyl)-4-hydroxyphenylacetic acid series, the 1,4-benzodioxanyl-2-methyl(3q) and the thienyl-2-methyl(31) esters were evaluated in vivo for antiarrhythmic efficacy. In addition, a number of monoappended phenylacetic esters of 3q with or without the 4-hydroxy group were also prepared for evaluation of antiarrhythmic, lipophilic, and metabolic properties. Of these compounds, 3q possessed the most desirable pharmacological and pharmacokinetic profile.

Published

1993

36. Studies of serum gentamicin disposition after parenteral administration in ewes.

Author

Toke SK, Gatne MM, Nemade PK, and Ranade VV

Subjects

Animals, Biological Availability, Female, Gentamicins administration & dosage, Gentamicins pharmacokinetics, Half-Life, Injections, Intramuscular veterinary, Injections, Intravenous veterinary, Metabolic Clearance Rate, Sheep blood, Gentamicins blood, Sheep metabolism

Published

1993

37. Significance of cholesterol in health and disease.

Author

Ranade VV

Subjects

Adolescent, Age Factors, Animals, Arteriosclerosis prevention & control, Child, Child, Preschool, Coronary Disease etiology, Female, Humans, Lipids blood, Lipoproteins blood, Male, Risk Factors, Arteriosclerosis etiology, Cholesterol blood

Abstract

A large number of studies indicate that the process of atherosclerosis begins in childhood; and that this process is related to elevated levels of serum cholesterol which are often predictive of elevated serum cholesterol levels in adulthood. Despite substantial success in reducing coronary heart disease (CHD) mortality in the past two decades, CHD disease remains the leading cause of death worldwide. Preventing or slowing the atherosclerotic process in childhood and adolescence could mean years of healthy life for many people. The US Department of Health and Human Services has recently published a report on these findings [National Cholesterol Education Program: Report of the expert panel on blood cholesterol levels in children and adolescents 1991]. In this and following series of articles, a summary from these data is discussed. The articles have been arranged in the following sub groups: 1) Cholesterol levels in children and adolescents. 2) Nutrition recommendations for healthy children and adolescents for cholesterol control. 3) Cholesterol detection, diagnosis and evaluation in individuals, and 4) treatment for normalizing levels of cholesterol.

Published

1993

38. Safety assessment of injectable neomycin in calves.

Author

Gatne MM, Telang AG, Toke SK, and Ranade VV

Subjects

Animals, Blood Urea Nitrogen, Cattle, Creatinine blood, Injections, Intramuscular, Safety, Neomycin administration & dosage

Published

1992

39. Drug delivery systems. 6. Transdermal drug delivery.

Author

Ranade VV

Subjects

Administration, Cutaneous, Chemistry, Pharmaceutical, Delayed-Action Preparations, Humans, Skin anatomy & histology, Skin Absorption, Pharmaceutical Preparations administration & dosage

Abstract

Transdermal drug delivery system has been in existence for a long time. In the past, the most commonly applied systems were topically applied creams and ointments for dermatological disorders. The occurrence of systemic side-effects with some of these formulations is indicative of absorption through the skin. A number of drugs have been applied to the skin for systemic treatment. In a broad sense, the term transdermal delivery system includes all topically administered drug formulations intended to deliver the active ingredient into the general circulation. Transdermal therapeutic systems have been designed to provide controlled continuous delivery of drugs via the skin to the systemic circulation. The relative impermeability of skin is well known, and this is associated with its functions as a dual protective barrier against invasion by micro-organisms and the prevention of the loss of physiologically essential substances such as water. Elucidation of factors that contribute to this impermeability has made the use of skin as a route for controlled systemic drug delivery possible. Basically, four systems are available that allow for effective absorption of drugs across the skin. The microsealed system is a partition-controlled delivery system that contains a drug reservoir with a saturated suspension of drug in a water-miscible solvent homogeneously dispersed in a silicone elastomer matrix. A second system is the matrix-diffusion controlled system. The third and most widely used system for transdermal drug delivery is the membrane-permeation controlled system. A fourth system, recently made available, is the gradient-charged system. Additionally, advanced transdermal carriers include systems such as iontophoretic and sonophoretic systems, thermosetting gels, prodrugs, and liposomes. Many drugs have been formulated in transdermal systems, and others are being examined for the feasibility of their delivery in this manner (e.g., nicotine antihistamines, beta-blockers, calcium channel blockers, non-steroidal anti-inflammatory drugs, contraceptives, anti-arrhythmic drugs, insulin, antivirals, hormones, alpha-interferon, and cancer chemotherapeutic agents). Research also continues on various chemical penetration enhancers that may allow delivery of therapeutic substances. For example, penetration enhancers such as Azone may allow delivery of larger-sized molecules such as proteins and polypeptides.

Published

1991

40. Drug delivery systems 5B. Oral drug delivery.

Author

Ranade VV

Subjects

Administration, Oral, Humans, Hydrogen-Ion Concentration, Intestinal Absorption, Ion Exchange Resins chemistry, Prodrugs chemistry, Tablets, Enteric-Coated, Chemistry, Pharmaceutical, Delayed-Action Preparations

Published

1991

41. Drug delivery systems. 4. Implants in drug delivery.

Author

Ranade VV

Subjects

Chlorofluorocarbons, Methane, Contraception, Equipment Design, Humans, Insulin Infusion Systems, Prostheses and Implants trends, Infusion Pumps, Implantable

Abstract

In comparison with many of the other drug delivery systems, implantable pumps and implants for variable rate delivery are at a crude stage of development. Although exceptions exist, the typical implantable pump consists of an electromechanically complex mechanism to regulate drug delivery from a percutaneous refillable reservoir, while power to drive the system comes from a transcutaneous energy transmission system. The potential for electrical or mechanical failure is high, and the systems are not yet sufficiently convenient or easy to use to recommend in a routine therapy. Problems with refilling of an apparently well designed implanted reservoir have been observed while, at the same time, cutaneous energy transmission systems are not well established. In most instances, the development of an elementary osmotic pump system dosage form follows a well defined path of physical-chemical formulation and clinical testing. The benefits most often provided by the dosage form are expected to be (1) increase in selectivity of drug action achieved by the system's zero-order release rate, and (2) decrease in frequency of administration. The success in achieving these values is quantifiable from the pharmacology of the drug substance and its pharmacokinetics. Osmotic and other technical approaches to producing economical, rate-controlled dosage forms will make it possible for all new pharmaecutical products to carry kinetic specification of rate as well as static specification of content. This review considers the characteristics of the ideal implantable pump, the clinical situations which require pumps, the limitations of portable pumps, and the detailed characteristics of existing implantable pumps and implants. Most of the review, however, focuses on insulin delivery because of the importance of this subject.

Published

1990

42. Drug delivery systems: 3B. Role of polymers in drug delivery.

Author

Ranade VV

Subjects

Humans, Molecular Weight, Delayed-Action Preparations, Drug Carriers, Polymers

Published

1990

43. Synthesis of potential antiprogestogens.

Author

Ranade VV and Counsell RE

Subjects

Animals, Binding, Competitive drug effects, Chemical Phenomena, Chemistry, Female, In Vitro Techniques, Progestins physiology, Rabbits, Receptors, Cell Surface drug effects, Structure-Activity Relationship, Progestins antagonists & inhibitors

Abstract

Acylated derivatives of 17 alpha-hydroxyprogesterone were prepared in order to test the hypothesis that dialkylamino alkyl moieties have the effect of transforming progestogens into antiprogestogens. This approach has been successful with certain estrogens. Compounds with other functional groups were synthesized to determine whether these might exert binding influence outside the area occupied by progesterone itself. The compounds were tested for competitive affinity against tritiated progesterone and receptor from rabbit uterus cytosol. The low affinity of all derivatives makes it unlikely that they would be active as antiprogestational agents.

Published

1976

44. Drug delivery systems--2. Site-specific drug delivery utilizing monoclonal antibodies.

Author

Ranade VV

Subjects

Animals, Drug Carriers, Humans, Antibodies, Monoclonal administration & dosage, Pharmaceutical Preparations administration & dosage

Abstract

Monoclonal antibodies (MAbs) are purified antibodies produced by a single clone of cells. They are engineered to recognize and bind to a single specific antigen. Accordingly, when administered, MAbs home in on a particular circulating protein or on cells that bear the correct antigenic signature on their surfaces. It is the specificity of MAbs that has made them valuable tools for health professions. Following the discovery of Kohler and Milstein regarding the method of somatic cell hybridization, a number of investigators have successfully adopted this technique to obtain T-lymphocyte hybrid cell lines by fusion of activated T (thymus derived) lymphocytes with a T lymphoma cell line leading to an immortalization of a specific differentiated function. The hybrids thus obtained were subsequently shown to produce homogeneous effector molecules with a wide variety of immune functions such as enhancement or suppression of antibody responses, generation of helper T cells, suppressor T cells and cytotoxic T cells. Study of these regulatory molecules has been further shown to provide a greater insight into the genetic, biochemical and molecular mechanisms responsible for cellular development, and the interaction and triggering of various cell types. The successful application of hybridoma technology has now resulted into several advances in the understanding the mechanism and treatment of diseases, especially cancer and development of vaccines, promotion of organ transplantation and therapy against parasites as well. Since monoclonal antibodies could be made in unlimited supply, they have been used in genetic studies such as mRNA and gene isolation, chromosomal isolation of specific genes, immunoglobulin structure, detection of new or rare immunoglobulin gene products, structural studies of enzymes and other proteins and structural and population studies of protein polymorphisms. In some instances, the monoclonal antibodies have been found to replace conventional antisera for studies of chromosome structure and function, gene mapping, embryogenesis, characterization and biosynthesis of developmental and differentiation antigens. These antigens are those that are specific for various cell types and tissues, species specific antigen, antigens involved in chemotaxis, immunogenetics and clinical genetics including genetically inherited disorders, chromosome aberrations and transplantation antigens. Besides these monoclonal antibodies, their complexes have recently been investigated as exquisitely sensitive probes to be guided to target cells or organs. They have been used to deliver cytotoxic drugs to malignant cells or enzymes to specific cell types.(ABSTRACT TRUNCATED AT 400 WORDS)

Published

1989

45. Radioiodinated bretylium analogs for myocardial scanning.

Author

Counsell RE, Yu T, Ranade VV, Buswink AA, Carr EA Jr, and Carroll M

Subjects

Adrenal Glands metabolism, Animals, Brain metabolism, Dogs, Intestinal Mucosa metabolism, Isotope Labeling, Kidney metabolism, Liver metabolism, Lung metabolism, Male, Muscles metabolism, Myocardium metabolism, Pancreas metabolism, Rats, Spleen metabolism, Thyroid Gland metabolism, Bretylium Compounds blood, Bretylium Compounds chemical synthesis, Bretylium Compounds metabolism, Bretylium Compounds urine, Iodine Radioisotopes, Myocardial Infarction diagnosis, Radionuclide Imaging

Published

1974

46. Drug delivery systems. 1. site-specific drug delivery using liposomes as carriers.

Author

Ranade VV

Subjects

Animals, Humans, Drug Carriers, Liposomes

Abstract

Drug delivery systems, offering controlled delivery of biologically active agents, are rapidly gaining importance in pharmaceutical research and development. To achieve controlled drug delivery, i.e., the administration of drugs so that optimal amount reaches the target site to cure or control the disease state, increasingly sophisticated systems containing different carriers have been developed. Macromolecules represent one of the carriers involved, and they have taken on a significantly prominent role in various modes of administration of therapeutic agents. Among macromolecules, for example, synthetic copolymers, polysaccharides, liposomes, polyanions and antibodies, as drug carriers, liposomes have proved most effective for diseases affecting the reticuloendothelial system and blood cells in particular. Liposomes, which are vesicles consisting of one or more concentrically ordered assemblies of phospholipids bilayers, range in size from a nanometer to several micrometers. Phospholipids such as egg phosphatidylcholine, phosphatidylserine, synthetic dipalmitoyl-DL-alpha-phosphatidylcholine or phosphatidylinositol, have been used in conjunction with cholesterol and positively or negatively charged amphiphiles such as stearylamine or phosphatidic acid. Alteration of surface charge has been shown to enhance drug incorporation and also influence drug release. Because of the multifold characteristics as drug carriers, liposomes have been investigated extensively as carriers of anticancer agents for the past several years. Liposomal entrapments include a variety of pharmacologically active compounds such as antimalarial, antiviral, anti-inflammatory and anti-fungal agents as well as antibiotics, prostaglandins, steroids and bronchodilators to name a few. The liposomal entrapment has been shown to have considerable effect on the pharmacokinetics and tissue distribution of administered drugs. Despite the potential value of liposomes as unique carriers, the major obstacles are the first order targeting of a systemically given liposomes, physical stability and manufacture of the liposomal products and these problems still remain to be overcome. Drug delivery systems evolving in the 1980s have become increasingly dependent on fundamental cell-biology and receptor-mediated endocytotic mechanisms. Drug delivery systems during the 1990s may take advantage of the specificity of receptor-mediated uptake mechanisms as well as polymer chemistry and cell-biology in order to introduce more precise and efficient target-specific delivery systems that are based especially on the liposome technology.

Published

1989

47. Potential organ or tumor imaging agents XV: radioiodinated phenytoin derivatives.

Author

Counsell RE, Ranade VV, Kline W, Hong BH, and Buswink AA

Subjects

Animals, Female, Hydantoins chemical synthesis, Phenytoin metabolism, Rats, Time Factors, Phenytoin analogs & derivatives

Abstract

Three radioiodinated phenytoin analogs were synthesized, and tissue distribution studies were conducted in rats. Except for a greater retention of radioactivity following administration of the radioiodinated derivatives, the tissue distribution patterns were qualitatively similar to those found for 14C phenytoin. In nearly all cases, the adrenals, heart, kidneys, and liver displayed the greatest capacity to retain radioactivity. The high uptake of radioactivity observed for the thyroid was attributed to in vivo metabolic deiodination of the radioiodinated derivatives.

Published

1976

48. Potential organ- or tumor-imaging agents XIX: radioiodinated antiarrhythmic drugs as potential myocardial imaging agents.

Author

Korn N, Gibson JK, Kniffen FJ, Lucchesi BR, Ranade VV, Mimnaugh M, Yu T, and Counsell RE

Subjects

Adrenergic beta-Antagonists, Animals, Chemical Phenomena, Chemistry, Dogs, In Vitro Techniques, Male, Rabbits, Radionuclide Imaging, Rats, Tissue Distribution, Anti-Arrhythmia Agents, Heart diagnostic imaging, Iodine Radioisotopes

Abstract

Iodinated and radioiodinated analogs of propranolol and N,N-dimethylpropranolol were synthesized wherein an iodophenyl moiety replaced the naphthalene ring of the parent drug. These new compounds were evaluated not only for their beta-adrenergic blocking and antiarrhythmic activities but also for their ability to accumulate selectively in myocardial tissue. Like propranol, the iodinated analogs displayed comparable beta-blocking and antiarrhythmic activity, and the order of potency was ortho- > meta- > para-iodophenyl. Quaternization of propranolol and the iodinated analogs eliminated the beta-adrenergic blocking activity but retained the antiarrhythmic property of the secondary amine precursors. Among the quaternary salts, the antiarrhythmic potency was meta- > ortho- > para-iodophenyl. Tissue distribution of the radioiodinated derivatives revealed that only the quaternary derivatives were selectively accumulated in myocardial tissue. These results demonstrate that an iodophenyl ring can substitute for th naphthalene ring in propranolol and its quaternary salt without significant alteration of pharmacological properties. The radioiodinated quaternary derivatives may be useful pharmacological tools in experiments aimed at relating antiarrhythmic activity to myocardial uptake.

Published

1980

49. Tumor localizing agents. V. Radioiodinated pregnanes.

Author

Counsell RE, Hong BH, Willette RE, and Ranade VV

Subjects

Adrenal Gland Neoplasms diagnosis, Animals, Chromatography, Thin Layer, Dogs, Radionuclide Imaging, Rats, Thyroid Neoplasms diagnosis, Iodine Radioisotopes, Neoplasms diagnosis, Pregnanes chemical synthesis

Published

1968

50. Tumor localizing agents VI. Radioiodinated analogs of dichlorodiphenyldichloroethane (DDD).

Author

Counsell RE, Ranade VV, Pocha P, Willette RE, and DiGuilio W

Subjects

Acetophenones, Adipose Tissue metabolism, Adrenal Glands metabolism, Animals, Chlorine, Hydrocarbons, Halogenated blood, Hydrocarbons, Halogenated metabolism, Iodine Isotopes, Kidney metabolism, Male, Muscles metabolism, Rats, Adrenal Gland Neoplasms diagnosis, Dichlorodiphenyldichloroethane, Hydrocarbons, Halogenated chemical synthesis, Neoplasms diagnosis, Radionuclide Imaging

Published

1968