#Vacuum Impregnation Plants
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harshdakadam · 12 days ago
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Advanced Vacuum Pressure Impregnation Plants for Reliable Insulation
At Conserve Your Oil, we are dedicated to providing world-class solutions in the field of electrical insulation and varnishing. Our Vacuum Pressure Impregnation Plants are designed to deliver superior performance, ensuring the highest level of quality for a variety of industrial applications. As a leading manufacturer, supplier, and exporter, we cater to clients across India and beyond, offering customized systems tailored to meet specific needs.
What is a Vacuum Pressure Impregnation Plant?
The Vacuum Pressure Impregnation (VPI) Plant is a state-of-the-art system used to enhance the insulation properties of electrical components such as transformers, motors, and coils. This process involves:
Vacuum Stage: Removing air and moisture from the component to prepare it for impregnation.
Pressure Stage: Forcing insulating varnish or resin into the component to ensure thorough coverage and maximum durability.
Trusted Manufacturer, Supplier, and Exporter
Conserve Your Oil is renowned as a reliable provider of Vacuum Pressure Impregnation Plants:
Manufacturers in Pune and India: Our advanced plants are designed and developed in-house, ensuring the highest quality.
Suppliers Across India: Serving a wide network of industries with prompt delivery and unparalleled service.
Exporters to Global Markets: Recognized for our expertise and commitment to international standards, we export our systems worldwide.
Features of Our VPI Plants
Efficiency: Optimized for consistent and energy-efficient performance.
Customizable Solutions: Designed to meet specific production requirements.
Advanced Automation: Streamlined processes for higher precision and reduced operational costs.
Robust Construction: Built to withstand demanding industrial conditions.
Applications of Vacuum Pressure Impregnation Plants
Our plants are widely used in industries such as:
Power Transformers: Ensuring superior insulation and operational reliability.
Electrical Motors: Enhancing durability and performance for industrial motors.
Coils and Stators: Providing thorough impregnation for long-lasting insulation.
Related Solutions
In addition to VPI Plants, we offer a range of complementary systems, including:
Batch Type Trickle Impregnating Machines
Index Type Trickle Impregnating Machines
Varnishing Machines
These solutions are designed to integrate seamlessly into your production line, maximizing efficiency and output quality.
Why Choose Conserve Your Oil?
Industry Expertise: Years of experience as a trusted manufacturer of Vacuum Impregnation Plants in Pune and India.
Global Recognition: Known as a leading exporter of Vacuum Pressure Impregnation Plants in Pune and worldwide.
Comprehensive Support: From design to installation and maintenance, we offer end-to-end services.
Commitment to Quality: Ensuring superior performance and long-term reliability with every system.
Driving Excellence in Industrial Impregnation
At Conserve Your Oil, we strive to set new standards in the industry with our innovative solutions. As a trusted supplier and exporter of Vacuum Pressure Impregnation Plants, we are committed to delivering systems that enhance your production capabilities while ensuring top-notch quality.
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sameeksha-4717 · 28 days ago
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digitalkaustubh20 · 4 months ago
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Vacuum Pressure Impregnation Plant Manufacturer in Maharashtra | AR Engineering
Are you seeking a reliable solution to enhance the durability and performance of your electrical components? Vacuum Pressure Impregnation (VPI) might be just what you need. This advanced method significantly improves insulation properties by effectively penetrating even the smallest voids within your equipment.
At our vacuum pressure impregnation plant, we offer state-of-the-art technology to ensure the highest quality results. Here's why you should consider VPI for your next project:
Enhanced Insulation: VPI thoroughly impregnates winding and components, ensuring no air pockets or voids are left, which can compromise insulation.
Extended Equipment Life: With better insulation, your equipment is protected from moisture, chemicals, and other environmental factors that can lead to deterioration.
Improved Mechanical Strength: The impregnation process strengthens your components, allowing them to withstand high voltages and mechanical stress with ease.
Energy Efficiency: Well-impregnated components often exhibit reduced losses, which can contribute to lower energy consumption and cost savings.
If you want your electrical components to be more durable, efficient, and resilient, our vacuum pressure impregnation plant offers the solution. Let us help you extend the life and performance of your equipment with cutting-edge VPI technology.
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keroneeng · 1 year ago
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Impregnation Plants
Kerone Impregnation Plants are commercial systems for enhancing the characteristics of porous materials like wood by impregnating them with a liquid or chemical. The impregnating agent, which might be a preservative, adhesive, dye, resin, or other sorts of chemicals, penetrates and saturates the material during the impregnating process.
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castresindry · 2 years ago
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Require the Best Three Phase Auto Transformers – Buy from Us!
Three Phase Auto Transformers are special types of transformers used to transfer electrical power from one three-phase source to another three-phase source. They are typically used to match the voltage of one source to the voltage of the other source. 
It is the Electrical Transformer that manufactures top-class Three Phase Auto Transformers for the betterment of various industries, institutes, enterprises, and public interests. 
Why Choose Our Three Phase Auto Transformers?
Three Phase Auto Transformers are a great choice for applications. In short, the following points will explain why should a customer prefer the products from the Three Phase Auto Transformers: 
Cost-effective and efficient
Reliable power source 
Possess a wide variety of applications, including industrial, commercial, and residential settings. 
Reducing the space of the installation
Cheaper to install 
Choose OurBest Dry Type Transformers
At Electrical-Transformer, a client will get these types of Dry Type Transformers at the beneficial pricing: 
Open Wound Transformers.
These types of transformers require pre-heat. Once heated, dipping is possible at an elevated temperature within the varnish. The curing of varnish is possible with the baking of these coils. That’s why these transformers have a common method, i.e., the dip-and-bake method.
Vacuum Pressure Impregnated (VPI) Transformers.
It carries the specialty of function with high-temperature insulation. These transformers are coming with high-temperature materials with a layer of polyester sealants. These types of sealants are friendly with moisture and higher temperature. 
Vacuum Pressure Encapsulated (VPE) Transformers.
These types of transformers are much identical to the manufacturing designs of VPI. We have followed the best ideas to construct these types of transformers without any consequences. Each VPE transformer comes under the resin coating and goes through deep processes, and resin coating. 
Cast Coil Resin Transformers.
The use of conductor coils and solidly cast is the characteristic of the resin transformers. These products are useful in mining industries, cranes, ships, and nuclear plants.
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raychemrpgblogs · 2 years ago
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Experience The World Of Transformers At Raychem RPG
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In its quest to brighten and transform the face of Indian subcontinent is the burgeoning Transformer SBU of Raychem RPG. This strategic business unit has earned an unmatched reputation for its product quality and service. Transformer SBU has two state-of-the-art manufacturing plants at Chakan, near Pune in Maharashtra and Nalagarh near Chandigarh in Himachal Pradesh.
Transformer Sbu Has Grown From Strength To Strength With
A. Proven expertise in DESIGN and customized solutions  B. Strong Vendor base with strong supply chain management system  C. Effective ERP network D. Accredited with ISO: 9001 – 2008, ISO: 14001 – 2004 and OHSAS: 18001-2007 certification
Transformer Sbu Has Three Product Segments 1. Transformers Industrial & Distribution
A. Cast Resin Transformers(CRT) upto 10MVA 33kV Class B. Vacuum Pressure Impregnated (VPI)Transformers upto 5MVA 11kV Class C. Oil Filled Transformers upto 25MVA 132kV Class with special applications D. Deltaformer – Energy Efficient Distribution Transformers
2. Flat and Triangular insulated Busbars used in switchgears and transformers 3. Epoxy Cast Current and Potential Transformers upto 33kV
Read more at https://www.raychemrpg.com/blog/products/experience-the-world-of-transformers-at-raychem-rpg
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sa179tubes · 2 years ago
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Graphite block heat exchanger
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Graphite block heat exchangers are suitable for the heating, cooling, evaporation, condensation, and absorption of highly corrosive liquid chemicals. It is one of the most versatile types of impervious graphite heat exchangers. The process and service channels are formed by drilling rows of holes horizontally and vertically through graphite blocks. Heat is transferred by conduction through the impervious graphite left between the rows of holes that separate the media. Graphite block heat exchangers consist of a stack of blocks enclosed in a steel shell.
Why Use Graphite in Heat Exchangers?
Due to its thermal and physical properties, graphite is an excellent heat transfer medium. These are some of its advantages:
Exceptional thermal conductivity
Easily machined
Capable of withstanding system stresses
Superior corrosion resistance
Low coefficient of thermal expansion (CTE)
High operational safety
Long service life
Benefits Of Graphite Block Heat Exchanger
High corrosion resistance of Graphilor® 3
Compactness
Robustness
Modular design
Easy maintenance
Long lifetime
Service and maintenance in the US with two strategically located facilities
Manufacturing plant in the US
Materials
Impervious graphite: GAB GPX1, GPX1T or GPX2
Shell, Pressure plates and flanges: carbon steel or stainless steel
Tie rods, nuts, bolts, washers, springs: stainless steel
PTFE gaskets between the blocks
Design
Totally modular design: number of blocks, size of blocks and number of passes can be adjusted
Different drilling diameters on process and service sides
Maximum block diameter: 900 mm
Graphite nozzles on product side
Thermal expansion compensation ensured by tie rods and helical springs
Key Features
Design pressure: -1 barg (full vacuum) to +10 barg (145 psig)
Design temperature: -60 to +200°C (-76 to 392°F)
Heat transfer area: up to 163 m2 (1755 ft2)
Design:  according to European PED, ASME code, Chinese Pressure Vessel code and other national pressure vessel codes on request
Key Benefits
Outstanding corrosion resistance on one side or on both sides
Good heat transfer performance thanks to adjustable cross sections on both sides
Large transfer areas and comparatively low pressure drop on the product side
Easy disassembly and ability to mechanically clean each block
Impregnation before machining ensures resin free surfaces
Single or double-row drillings on product side
High operational safety
Sturdy and modular design
Short lead time
Long lifetime
Optional features
Removable headers for easy mechanical cleaning
Rubber lined, glass lined or PTFE lined shell for corrosive fluids on shell side
Protection against abrasion
Sight glass
Main applications
Cooling, condensation, heating, evaporation and absorption of ultra-corrosive chemicals
Heat transfer between two ultra-corrosive chemicals
Best suited for single purpose units
Types of Graphite Heat Exchangers for Corrosive Environments
Graphite heat exchangers are available in many designs and configurations to suit different heat transfer processes. These include:
Shell and Tube Graphite Heat Exchangers
Imperative shell and tube heat exchangers are engineered for superior reliability and longevity. When compared to other graphite heat exchangers, they offer exceptional performance and a low initial cost, resulting in an excellent lifetime return on investment. The large cross-sectional area makes them ideal for low pressure and fouling applications.
Multi-Blox Graphite Heat Exchangers
Our Multi-BloxTM heat exchanger features some of the longest graphite composite blocks in the industry. The design reduces the need for gaskets, eliminates leak paths, and minimises point loading. With a maximum operating pressure of 150 PSIG, they are designed for non-stop service.
Cubic Block Graphite Heat Exchangers
The most efficient cubic block heat exchangers on the market with the highest heat transfer capabilities in the smallest area are available from us. They are easy to clean and maintain, and they are exceptionally durable. They are therefore ideal for interchange service and high-fouling applications.
To find out more about this article, please click here : https://sa179tubes.com/graphite-block-heat-exchanger/ 
#sa179 #satubes #steelpipe #steeltubes #SA179Tubes #SA179TUBES
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360smesolution · 3 years ago
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Vacuum Pressure Impregnation Plant In India - AR ENGINEERING
http://hydraulicoilfiltrationmachine.com/vacuum-pressure-impregnation-plant.html
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kunalshekhar89 · 5 years ago
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harshdakadam · 12 days ago
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Revolutionizing Electrical Insulation with Trickle Impregnation Technique
At Conserve Your Oil, we specialize in providing innovative solutions for electrical insulation and varnishing processes. Our Trickle Impregnation Technique is a highly efficient and effective method designed to meet the demands of modern manufacturing. Widely adopted across industries, this technique ensures optimal insulation and enhanced durability for electrical components.
What is Trickle Impregnation Technique?
The Trickle Impregnation Technique is an advanced process used for the insulation of electrical components like coils and stators. This method involves the precise application of varnish under controlled conditions, ensuring uniform coverage and penetration. It significantly improves the insulation quality, resulting in enhanced electrical performance and longevity.
Comprehensive Trickle Impregnation Solutions
We offer a diverse range of solutions, catering to industries across India, including Pune and Satara:
Batch Type Trickle Impregnating Machines: Designed for high-precision applications, ideal for small to medium production volumes.
Index Type Trickle Impregnating Machines: Perfect for continuous production lines, ensuring efficiency and consistency.
Vacuum/Pressure Impregnation Plants: These systems combine vacuum and pressure techniques to achieve superior impregnation, meeting the highest industrial standards.
Expertise Across India
As a leading Manufacturer, Supplier, and Exporter of Trickle Impregnation Techniques in India, we are committed to delivering high-quality equipment tailored to our clients' needs. With a strong presence in Pune, Maharashtra, and Satara, we serve industries nationwide with:
Customized Solutions: Designed to suit various applications and production requirements.
Cutting-Edge Technology: Incorporating the latest advancements for superior performance.
Global Reach: Supplying and exporting products across international markets.
Applications of Trickle Impregnation Technique
Our Varnishing Machines and impregnation systems are widely used in industries such as:
Automotive: For motor stators and rotor coil insulation.
Electrical: Ensuring durability and enhanced performance of transformers and alternators.
Industrial Machinery: Providing long-lasting insulation for various electromechanical components.
Why Choose Conserve Your Oil?
Unmatched Expertise: Years of experience in the development of impregnation solutions.
Tailored Solutions: Flexible systems designed to meet unique production requirements.
Nationwide Presence: Serving customers in Pune, Satara, and across India.
Global Recognition: Renowned as a trusted exporter of Trickle Impregnation Techniques.
Driving Innovation in Electrical Insulation
Our Trickle Impregnation Technique in Pune and across India is setting new benchmarks in quality and efficiency. With a focus on innovation and customer satisfaction, we aim to revolutionize the electrical manufacturing industry with advanced impregnation solutions.
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sameeksha-4717 · 1 month ago
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souzvacuum · 4 years ago
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2BW Vacuum pump station
The equipment is widely used in the vacuum station of chemical industry and pharmaceutical industry, the canning system of light industry, the negative pressure forming of rubber and plastic engineering parts of automobile industry, the impregnation vacuum source of flame retardant conveyor belt used in coal mine, the vacuum water diversion in water plant, etc.
The main features
1. The device can be equipped with two or more liquid ring vacuum pumps, two or more liquid ring pumps can work alternately through automatic control.
2. Since the first start of the device, the whole operation process can realize automatic control.During its working process, the vacuum degree in the vacuum system is always fluctuating up and down within its allowable range, and the fluctuation range can be adjusted according to the requirements of the user.
3. The device can automatically close the vacuum system when power failure occurs.Using this equipment can make your vacuum system more advanced, safe and energy saving.
Main technical indicators
Limit Vacuum: 33hPa (-98kPa)
Flow: 0.45 ~ 10m³/min
Shaft power: 1.1 ~ 22KW
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en-la-casademiamor · 5 years ago
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The glorious yellow moon
There was a glorious yellow moon last night and I impregnated it with all the seductive fiats women like me plant inside themselves, when youth has paled under cold hands.
A dream for me, is no longer a dream, but a fading shadow dancing in a broken temple.
There was a glorious yellow moon last night and inside the knobs and gnarl of trees, I placed the darkest, smallest pieces of myself. Secret years hidden like scrolls, meant for the long dead to one day read.
There was a glorious yellow moon last night and I rubbed my hands together, but they would not warm while I hunted in graves  for who I used to be.
Last night was like the spark of an echo and I recalled the ritual of a huntress who sadly searched for a residual sentiment  inside a celestial vacuum.
A dying thought to be imbibed for sobriety under a frigid November sky; under the glare of a glorious yellow moon.
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uchihajason69 · 2 years ago
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ALL ABOUT VPI TRANSFORMERS
VPI transformers are vacuum pressure impregnated with a high temperature polyester stain which has phenomenal intensity safe and surface wettability capacity. It is not difficult to introduce and keep up with, lessens cost of cabling, and has ability to help over-burden of current. Quite possibly of the best vacuum pressure impregnated transformers in Hyderabad.
Rising interest for energy circulation all around the globe has extended as of late because of advancement of different businesses in creating economies. Substance, drug, steel, treatment facilities, mining, hostage power projects, hydropower undertakings, and wind-factory cultivates all require a particular voltage result to work gainfully and securely. The tension vpi transformers in hyderabad is a proper fit to accomplish security and voltage requests of these enterprises.
Contingent upon the country's asset base, hierarchical and mechanical skill, strategy system, accessibility of funding for cost varieties, and compromises, the World Bank Gathering will empower and back all wellsprings of environmentally friendly power. These drivers are supposed to support the market income development. Be that as it may, mechanical  progressions  has expanded the expense of transformers. Moreover, the VPI transformer neglects to perform over 2000 KVA which restricts its utilization.
vpi transformer suppliers in Hyderabad market income development is fuelled by the worldwide extension of energy appropriation organizations and quick industrialization in monetarily agricultural countries.
Expansion in the overall populace has expanded utilization of electric energy supply which might be a central point expected to drive income development of the VPI market. Likewise, state run administrations of different nations are intending to grow their power age plants, which will prompt popularity of transformers for energy dispersion. Moreover, mechanical headways, for example, nook mounted High Voltage (HV) and Low Voltage (LV) link boxes, 40% expansion in constrained air cooling, and others are the central point anticipated to drive interest for vacuum pressure impregnated transformers. Moreover, there are new open doors for central members in the VPI transformer market to foster 3D center VPI transformers for electric vehicles, which are the eventual fate of auto industry.
KEY Advantages FOR Partners:-
This report gives a quantitative investigation of the market portions, latest things, assessments, and elements of the vacuum pressure impregnated (VPI) transformer market examination from 2021 to 2030 to distinguish the predominant vacuum pressure impregnated (VPI) transformer market open doors.
The statistical surveying is presented alongside data connected with key drivers, restrictions, and open doors.
Watchman's five powers investigation features the intensity of purchasers and providers to empower partners create gain situated business choices and fortify their provider purchaser organization.
Inside and out examination of the vacuum pressure impregnated (VPI) transformer market division helps to decide the overall market open doors.
Significant nations in every locale are planned by their income commitment to the worldwide market.
Market player situating works with benchmarking and gives an unmistakable comprehension of the current place of the market players.
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Copper Nanoparticles and Antioxidant Stress: Problem Makers or Solvers?_ Crimson Publishers
Copper Nanoparticles and Antioxidant Stress: Problem Makers or Solvers? by  Michael AB Naafs in Food Science JOurnal
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 Abstract
In this mini-review various aspects of copper nanoparticles are considered with a special emphasis on antioxidant stress. Copper nanoparticles may become a problem maker for the environment but seems a problem solver in wound dressings and potentially in diabetes and cancer. Longterm toxicity of copper nanoparticles is not known. An international registry agency should control the use of copper nanoparticles, especially in food nanotechnology.
 Introduction
The increased use of metal nanoparticles in the food chain is an increasing concern. Nanoparticles (NPs) are used in various areas, including medicine, electronics, cosmetics, oil lubricants and also in the food chain. The extensive use of these NPs allows them to be released into the environment either during production use or disposal. Phytotoxicity of copper NPs has already been reported [1]. Copper NPs are believed to cause oxidative stress by increasing the activity of oxidative stress enzymes as catalase, superoxide dismutase and glutathion-S-transferase [1,2]. Copper NPs cause in this way a dose dependent toxicity via inducing reactive oxygen species (ROS) and nitrous oxide (NO) [3]. Toxicity of copper NPs has been studied mainly in animals and is manifested as hepatoand renal toxicity, splenic toxicity, neurotoxicity ,gene toxicity and carcinogenicity at LD 50 values of nano- copper (23.5nm) of 413mg/kg/body/weight [4]. Copper (Cu) is a redox active metal and an essential nutrient in all species. Deficits and excessive amounts can result in human disease and oxidative stress plays a major role in both circumstances. Copper deficiency can contribute to the development and progression of cardiovascular disease and diabetes [5]. Copper NPs showed antidiabetic and antioxidant properties [6]. In addition, copper NPs are used as antibacterial and antifungal agents [7]. So, are copper NPs problem makers or problem solvers? In this mini-review the various aspects of copper NPs will be discussed.
Synthesis
Copper NPs are very attractive due to their high thermal conductivity and relatively low costs compared to e.g. gold and silver nanoparticles. They can be synthesized by physical, chemical and green techniques. Vacuum vapor deposition, pulsed laser ablation, pulsed wire discharge and mechanical wiring are physical techniques Chemical reduction ,microemulsion techniques, sonochemical reduction, electrochemical, microwave assisted and hydrothermal are chemical approaches for the synthesis of copper nanoparticles [4,5,8]. Green synthesis of copper NPs is using different plants, bacteria and fungi [9,10].
Characteristics
The properties of copper NPs depend largely on size, structure, shape ,surface properties, particle aggregation, agglomeration and optical characteristics. Their catalytic activity increases with the decrease in size of copper NPs [11].
Catalytic activity
Catalysts are substances that promote and accelerate chemical reactions without being consumed. Catalysis based on copper NPs may benefit for example the synthesis of methanol or the production of hydrogen on an industrial scale [11-13].
Antibacterial/Antifungal action
It has been known for a long time that copper and copper alloys have antimicrobial properties [14]. Copper has two key properties that are exploited in consumer products and medical devices. Copper has potent biocidal properties and is criticacriptl for most tissues including the skin. In the skin, copper is involved in the synthesis and stabilization of extracellular matrix skin proteins and angiogenesis [14]. It is therefore not surprising these properties are leveraged of copper-oxide NPs impregnated wound dressings [14-17].
Copper has antimicrobial activities against Gram-positive and Gram-negative bacteria, including methicillin-resistant Staphylococcus aureus (MRSA), Clostridium difficile, vancomycin- resistant enterococci (VRE) and ESBL-producing species as well as adenoviruses, Influenza A and fungi [14,18].
Cytotoxicity
Elevated copper levels result in the loss of membrane integrity, which causes essential nutrients, including potassium and glutamate to leak from cells and cause apoptosis [14]. Shafagh et al. [19] studied cytotoxicity and apoptosis of copper oxide NPs on a chronic myeloid leukemia (CML) K562 cell line. CuO NPs showed selectivity towards the K562 cell line and are potentially a good anti-cancer drug since it does not kill healthy cells. Apoptosis is mediated through reactive oxygen species (ROS) production in cancer cells, starting with P53 up-regulation [19]. Copper NPs also induced apoptosis in a human skin melanoma cell line [20]. Similar findings have been reported in a glial cancer cell line by Kukia et al. [21].
Antioxidant activity
Copper oxide (CuO) NPs have higher toxic effects than Cu NPs due to its oxidative property. CuO NPs stimulate photosynthesis at low concentrations (< 0.25mg/L) but suppression of photosynthesis was observed at 1mg/L concentration. CuO NPs have been shown to enhance the production of reactive oxygen species (ROS). At low copper concentrations these ROS’ are protective in plants, but at high Cu concentrations they may be cytotoxic and lead to apoptosis, as mentioned before [4,22]. In addition, phytohormones were also observed to be altered as a response to CuO NPs [23]. Most studies of the antioxidant effects of Cu NPs have been done in animals [4]. The effect of antioxidant stress on cytochrome P450 and liver disease has been studied in rats and in cancer cell lines [24,25]. In humans, curcumin Cu NPs have been studied mostly for their potential anti-cancer activity [26,27]. Although curcumin has been strongly advocated as a natural antioxidant in vitro, in vivo and clinical studies are not able to provide evidence for a significant role in the prevention of cancer. Even with modern curcumin nanoformulations poor curcumin bioavailability could not be overcome [28].
Metabolic disease
Nanotechnology has been used in diagnosing and monitoring of diabetes by sensor technology [29,30]. Ghosh et al. [6] suggested an antidiabetic effect of copper NPs by inhibiting the enzyme alpha-glucosidase. Javed et al. [31] believe that copper NPs can have hypoglycemic properties. Recently, it has been reported that patients with metabolic syndrome need more vitamin C to break the cycle of antioxidant depletion [32]. It is very well possible that the antidiabetic effects of copper NPs are achieved by restoring vitamin C mediated antioxidant depletion in the metabolic syndrome. Therefore, it is interesting to know that CU NPs can be prepared with ascorbic acid (vitamin C) by an aquous solution reduction method [33]. It has also been known that vitamin C depletion lowers the uptake of copper [34].
 Conclusion
It is obvious that the widespread use of copper NPs in all kind of sectors can lead to large environmental problems. The use of these NPs has not been regulated and toxicity is not known for the long term. Accumulation in the environment has clear toxic effects on plants when these NPs are used in pesticides and fertilizers. Detection of Cu NPs in the environment is extremely difficult [35] and therefore copper NPs could be problem makers in the long term. Long-term toxicity in humans is not known and an international registry agency covering the use of NPs and Cu NPs should be instituted therefore, especially for food nanotechnology [28]. On the other hand, the use of Cu NPs in wound dressing and diabetes sensor technology ,as well as their antimicrobial spectrum are of proven benefit [14-18,30]. So, they are problem solvers, too. The anti-cancer activity still has a potential future in nanomedicine and has been explored not enough, yet. So, there has to be done still much more research in the ecological effects of NPs, in nanomedicine and especially in food nanotechnology..
For more Open access journals in Crimson publishers please click on the link https://crimsonpublishers.com/
For more articles in Nutrition Journal please click on the link https://crimsonpublishers.com/ntnf/
For more about Crimson Publishers please click on the link: https://publons.com/publisher/6342/crimson-publishers
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360smesolution · 3 years ago
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