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Subang Jaya, Malaysia
11-50 Employees
1989
We are proud to promote FAVORIT® glassware to all our valuable customers as our vital role and concern is to ensure all scientific analysts and researchers in achieving the highest possible accuracy and precision in all analytical results. The years of experience gained in scientific glass manufacturing technology has propelled PLT to venture into developing and manufacturing of high precision volumetric glassware in 1993 bearing the name FAVORIT® which now personified scientific glassware in the Malaysian market. Both the standard interchangeable and the volumetric glassware we manufacture, and in combination with Duran, PLT can supply the complete spectrum of scientific glassware. In 2003 we further expanded our manufacturing capacity in order to meet ever increasing demands for scientific glassware, which is in tandem with the expansion of research and development encouraged by the Malaysian government. PLT Scientific Sdn Bhd is a leading supplier of science laboratory glassware in Malaysia offering products ranging from state-of-the-art analytical lab instruments to basic laboratory glassware. We distribute accredited products from world-renowned lab equipment manufacturers. Spiked productivity and soaring laughter levels – On 17th Nov 20223, our office just survived the ultimate Durian Buffet experience!
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Reaction Vessels, Spherical
... Reaction Vessels, Spherical - PLT Scientific Sdn ...
Warsaw, Poland
51-100 Employees
1997
Od lat motto igus® to "plastics for longer life®". Ten przegląd aplikacji pokazuje szerokie spektrum zastosowań bezobsługowych systemów prowadnic liniowych z oferty produktów drylin®. Testowane tysiące razy, sprawdzone miliony razy - to właśnie jest iglidur®.
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drylin® pokrętło, stal nierdzewna
... Lubrication-free lead screw and linear technology in filling systems for reaction vessels ...
Zofingen, Switzerland
1-10 Employees
Die Stärken der Schmizo AG liegen in einem überdurchschnittlichen Qualitätsstandard und im direkten kompetenten Kontakt zu unseren Kunden in der Forschung, der Pharmazeutik und verschiedensten weiteren Bereichen der Industrie. Das Kernprodukt der Schmizo AG ist der Laborreaktor. Wir sind auf Sonderanfertigungen für Labor- und industrielle Anwendungen spezialisiert und können sowohl nach Zeichnung oder Skizze, als auch nach Beschreibung arbeiten. Als Spezialist für Glasapparatebau fertigt die Schmizo AG seit über 70 Jahren hochwertige Glasgeräte für anspruchsvolle Anwendungen. Die Produktpalette reicht von Schliffbauteilen wie Hähnen über Laborgefässe und Planschliffdeckel bis hin zu Reaktoren und Reaktorensystemen. Unser Angebotsspektrum rund um den Glasapparatebau reicht aber noch viel weiter. Dazu bieten wir Ihnen diverses Zubehör wie Rührer, Rührmotoren, Rührverschlüsse, pH- und Temperatursonden sowie Montagesysteme für die Tisch-, Boden- und Wandmontage. Wir haben verschiedene Beschichtungen im Angebot, die den Stoss- und Kratzschutz im Laboralltag verbessern und bei Glasbruch das Splittern und Auslaufen verhindern.
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Reaction Vessel with Bottom Outlet
... Reaction vessel flat flange SCHMIZO with a groove, round bottom, bottom outlet with discharge valve type SCHMIZO, serial ...
Aberdeen City, United Kingdom
1-10 Employees
Listed on this site are a range of products AM Glassware have designed & manufacture for customers world-wide. OVER 40 YEARS OF DESIGNING AND MANUFACTURING SCIENTIFIC & LABORATORY GLASSWARE. Situated in Aberdeen Scotland AM Glassware have been designing & manufacturing scientific & laboratory glassware for many years. With over 40 years of experience in scientific glassblowing we have built scientific glassware for every project imaginable and in recent years we have developed our unique range of Karl Fischer titration glassware for use with many leading Coulometric Karl Fischer Titrators. If the answer is yes then our range of Karl Fischer electrodes & products will be of great interest to you! With Over 20 years of experience in the design and manufacture of products we have a unique range of KF Electrode, Titration Vessels & KF Accessories which can replace or work alongside existing Karl Fischer Titrator & Moisture Analyser manufacturer’s products. Visit our Petroleum Testing Products section for further information.
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REACTION VESSELS
... Reaction vessels for laboratory applications and are designed manufactured in accordance to your requirements with our without thermostatic ...
Germany
1-10 Employees
PeptaNova is responsible for all costs of shipment and import from Japan. With the special support of Peptide Institute, PeptaNova established a well sorted stock of biologically active peptides, enzyme – substrates, enzyme – inhibitors and peptide antisera, located in the heart of Europe. With the special support of Peptide Institute, PeptaNova established a well sorted stock of biologically active peptides, enzyme-substrates, enzyme-inhibitors and peptide antisera and antibodies , located in the heart of Europe. All other peptides will be provided exclusively for our customers from Japan under very favorable conditions.
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Socket for Reaction Vessel 205
... Socket for Reaction Vessel 205 › ...
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Reaction Vessels, Cylindrical
... Reaction Vessels, ...
Cambridge, United Kingdom
Activotec is proud to offer high purity amino acids derivatives, resins and reagents to its clients! Activotec has a tradition of excellence in quality custom peptide synthesis for the biomedical research community, biotechnology and pharmaceutical companies and have consistently met the highest peptide standards of quality, service and technical expertise. Activotec offers the custom synthesis of stapled peptides, send us your enquiry for a quotation. Activotec has an increasing network of distributors worldwide, and all European countries are very well served directly from our UK headquarters. Activotec provides comprehensive service contracts and support for all its equipment including maintenance and repair, application support and customer training. Innovative peptide and organic synthesizers, high quality synthesis chemicals and a full custom peptide synthesis service. As a peptide manufacturer, we also have the capability to perform a wide variety of synthetic peptide chemistries. To deliver top quality solutions, we utilize a wide range of chemistries including solid and solution phase methodology, along with tactical protecting strategies such as Fmoc, t-Boc and Cbz.
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10mL Reaction vessel
... 10mL Reaction vessel - ...
East Cambridgeshire, United Kingdom
11-50 Employees
2003
Asynt was formed in July 2003 with the aim to develop, supply and support new, sustainable and novel products central to the laboratory. Asynt has a network of highly respected global distribution partners so, whilst you are of course welcome to shop directly with Asynt wherever you are in the world, you may prefer to speak to your local Asynt partner. At Asynt we are committed to investing in new technologies that respond to the real demands of industry and academia. Asynt continues to invest in the highest quality manufacturing in Britain, and expanding our local and national workforce reporting to our headquarters in Cambridgeshire, UK. Asynt’s Managing Director, Martyn Fordham, spent almost twenty years dealing with the requirements of research chemists (at the outset just custom glassblowing) before forming Asynt. Asynt is a global provider of world-leading technologies and services for scientific research. Since inception in 2003, Asynt has developed numerous tools to enhance sustainability in the laboratory. Asynt continues to invest in the highest quality manufacturing in Britain, and expanding our local and national workforce reporting to our headquarters in Cambridgeshire, UK.
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Jacketed Reaction Vessels
... With over 30 years of scientific glass blowing experience, we can offer replacement ReactoMate CLR jacketed reaction vessels to update your system with ease. From 50 mL to 50,000 mL +. ...
Porto, Portugal
11-50 Employees
2000
Os motion plastics da igus inspiram mais de 188 mil clientes em todo o mundo. Os nossos produtos são utilizados em mais de 50 indústrias e oferecem simultaneamente melhorias técnicas e redução de custos. Basta fotografar a aplicação e o igusGO mostra-lhe quais os produtos da igus que pode utilizar para tornar a sua aplicação perfeita. A sustentabilidade é um tópico importante na igus. Fique sempre a par das novidades dos motion plastics da igus.
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Manípulo drylin®, aço inox
... Lubrication-free lead screw and linear technology in filling systems for reaction vessels ...
Gebze, Turkey
1001-5000 Employees
1964
Dijital hizmetlerimizle size uygun igus® ürününü kolayca bulup hesaplayabilir ve tasarımınıza entegre edebilirsiniz. Tasarımdan bitmiş ürüne kadar teknolojiyi geliştirmek artık daha kolay. Uygun yağlama gerektirmeyen motion plastics® ürünlerini bulmak, bunları gereksinimlerinize göre özelleştirmek ve hizmet ömrünü hesaplamak için yapılandırıcılarımızı kullanın. Alternatif olarak, Click2CAD araç kutumuzu kullanarak CAD verilerini doğrudan CAD sisteminize aktarabilirsiniz. Ülkenizi seçtiğinizde size yerel teklifler ve bilgiler gösterilecektir.
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Featured
drylin® JGRM heavy-duty lead screw nut, right-hand thread
... Lubrication-free lead screw and linear technology in filling systems for reaction vessels ...
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Some interesting numbers and facts about the results you have just received for Reaction Vessel
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 60 |
| Amount of suitable service providers | 32 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1964 |
| Youngest suiting company | 2017 |
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A reaction vessel is a specialized container designed to conduct chemical reactions under controlled conditions. These vessels are fundamental components in the fields of chemistry and chemical engineering, serving as the sites where raw materials undergo transformation into desired products through chemical reactions. Reaction vessels can vary significantly in design, ranging from simple glass containers used in laboratory settings to large, sophisticated steel or alloy reactors equipped with systems for temperature and pressure control in industrial applications. The choice of material for a reaction vessel is critical and is determined by factors such as the nature of the chemical reaction, the temperature and pressure conditions required, and the reactants' and products' chemical compatibility with the vessel material. The role of a reaction vessel extends beyond merely containing the reactants; it is integral to the efficiency and safety of the chemical process. By enabling precise control over reaction conditions, such as temperature, pressure, and mixing, reaction vessels contribute to optimizing reaction rates and yields, minimizing by-products and energy consumption. Moreover, their design considerations also encompass safety features to handle exothermic reactions or highly reactive substances, thereby mitigating risks associated with chemical manufacturing. Consequently, the development and engineering of reaction vessels have a significant impact on advancing chemical synthesis, material science, and the production of pharmaceuticals, making them pivotal in research and industrial operations alike.
1. Enhanced Durability
Reaction vessels are typically manufactured from high-quality materials such as stainless steel or glass-lined steel, providing exceptional resistance to corrosion and chemical reactions. This durability ensures a longer lifespan compared to other reaction containers made from less resilient materials, significantly reducing the need for frequent replacements and maintenance.
2. Improved Safety
The design of reaction vessels often includes features such as pressure resistance and controlled temperature settings, which minimize the risk of accidents in the laboratory or industrial settings. By offering better control over the reaction environment, these vessels provide a safer workspace, especially when handling volatile or hazardous chemicals.
3. Increased Efficiency
Many reaction vessels come equipped with integrated mixing systems, allowing for more uniform heat distribution and reaction rates. This leads to more consistent and efficient chemical reactions, ensuring higher yield and quality of the final product. The ability to precisely control reaction conditions also reduces the likelihood of unwanted by-products, further enhancing the efficiency of the process.
4. Versatility
Reaction vessels are designed to accommodate a wide range of chemical reactions, temperatures, and pressures. This versatility makes them suitable for a variety of applications across different industries, including pharmaceuticals, petrochemicals, and food processing. The adaptability of reaction vessels to specific processes allows for more streamlined and cost-effective operations.
While evaluating the different suppliers make sure to check the following criteria:
1. Material Quality
Ensure the reaction vessel is made from materials that are compatible with the chemicals and processes used in your operations. High-grade stainless steel and glass-lined vessels are common for their durability and resistance to corrosion.
2. Pressure and Temperature Ratings
Check that the vessel can withstand the maximum pressure and temperature requirements of your processes. This is crucial for maintaining safety and operational integrity.
3. Volume Capacity
Determine the volume capacity needed for your processes and ensure the supplier offers vessels that match your requirements. Consider both current and future needs.
4. Agitator Compatibility
If your process requires mixing, ensure the vessel is compatible with agitators and can support efficient mixing without compromising the integrity of the vessel.
5. Certifications and Standards
Verify that the vessels meet industry standards and certifications relevant to your sector, such as ASME or ISO, to ensure quality and compliance.
6. Customization Options
Some processes may require customized features. Check if the supplier can accommodate custom modifications like additional nozzles, jackets for temperature control, or specific linings for chemical resistance.
7. After-Sales Support
Evaluate the supplier’s after-sales support, including warranty, maintenance services, and availability of replacement parts. Good after-sales support can significantly reduce operational downtimes.
Reaction vessels are pivotal in the pharmaceutical industry, where they're used for the synthesis of drugs and active pharmaceutical ingredients (APIs). These vessels provide a controlled environment for chemical reactions, ensuring purity and efficacy of the compounds produced. They allow for precise temperature and pressure adjustments, critical for maintaining the integrity of sensitive reactions. In the chemical manufacturing sector, reaction vessels facilitate the production of a wide range of chemicals, including polymers, petrochemicals, and agrochemicals. Their robust design allows for the handling of corrosive substances and high-pressure conditions, making them essential for scaling production processes from laboratory to industrial scale. The food and beverage industry also benefits from the use of reaction vessels, particularly in the creation of flavors, food additives, and preservatives. These vessels offer a sterile environment crucial for complying with safety and quality standards. The ability to control reaction conditions helps in achieving consistent taste and texture in food products. Lastly, in the renewable energy sector, reaction vessels are used in the production of biofuels. They facilitate the biochemical reactions necessary for converting biomass into fuel, playing a key role in the development of sustainable energy solutions. Their adaptability to various reaction conditions makes them invaluable for research and development efforts aimed at improving biofuel efficiency and reducing production costs.
Reaction vessels, pivotal in the field of chemical engineering and pharmaceutical manufacturing, have attained a high Technology Readiness Level (TRL), generally considered to be at TRL 9. This classification signifies that reaction vessels are not only well-developed but also have been fully integrated and proven through successful mission operations. The progression to this advanced TRL is underpinned by significant technical advancements and extensive validation processes. Innovations in materials science have led to the development of reaction vessels capable of withstanding extreme temperatures and corrosive chemicals, thereby expanding their applicability across various industrial sectors. Moreover, the integration of sophisticated monitoring and control technologies has enhanced the efficiency, safety, and scalability of chemical reactions within these vessels. Such technical improvements facilitate precise control over reaction conditions, leading to higher yields and product purity. The widespread adoption and proven performance of reaction vessels in industrial applications further corroborates their status at TRL 9, reflecting a maturity level where the technology is considered reliable and effective for its intended purpose.
In the Short-Term, reaction vessels are poised to see significant enhancements in material technology, with the integration of smart materials capable of dynamically responding to chemical compositions and temperature variations. These advancements will improve safety and efficiency, allowing for more precise control over chemical reactions. The use of IoT devices for real-time monitoring and adjustments is also expected to become commonplace, further streamlining the research and industrial applications of reaction vessels. Looking into the Mid-Term, the focus shifts towards sustainability and energy efficiency. Innovations in reaction vessel design will minimize energy consumption and reduce waste, leveraging green chemistry principles. Additionally, the development of modular reaction vessels that can be easily customized for different processes will enhance versatility and reduce the time and cost associated with chemical production. These vessels will also incorporate advanced sensors and machine learning algorithms to predict and optimize reaction outcomes, minimizing the need for human intervention. In the Long-Term, the advent of fully autonomous reaction vessels is anticipated. These will be capable of conducting complex multistep syntheses with minimal human input, driven by artificial intelligence that can design and execute experimental protocols. The integration of quantum computing will further revolutionize this field, enabling the simulation of chemical reactions at an unprecedented scale and speed, thus vastly expanding the potential for discovery in chemistry and materials science.
Some interesting questions that has been asked about the results you have just received for Reaction Vessel
What are related technologies to Reaction Vessel?
Based on our calculations related technologies to Reaction Vessel are Heat Exchangers, Hydraulic & Pneumatic Systems, Industrial Reactors, Industrial Packaging, Industrial Filters
Which industries are mostly working on Reaction Vessel?
The most represented industries which are working in Reaction Vessel are Manufacturing, Biotechnology, Commerce and Shopping, Consumer Goods, Science and Engineering
How does ensun find these Reaction Vessel Manufacturers?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
