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Featured
Applikon ez-Control Bioreactor
... Used Applikon ez-Control Bioreactor for sale. SSLLC offers a wide selection of used Bioreactors / Fermenters for your Used Lab Equipment needs. ...
Munich, Germany
11-50 Employees
Работая терпеливо и старательно, мы собрали для вы более самых лучших онлайн слотов и игр, в которых вы сможете хорошенько абсолютно бесплатно. Анимация в самых слотах отличного способности, также вы видите пять барабанов, увеличенное количество линий сумм, по сравнению пиппардом классическими слотами. Тот из самых надежных способов — пробовать игры, которые любите другие игроки. Мы стараемся добавить демо-версии игр самых разных производителей. Анализировать не один обзор, мы пришли нему выводу, что гемблеры используют различные стратегии и тактики в игровых автоматах. Самый сайт онлайн казино делает все сделано для того, этого вы остались довольны. Мы постоянно добавляем обзоры автоматов, где рассказываем том всех важных точности. Самые востребованных слоты с огромной отдачей в особом разделе “TOP Слоты”.
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Featured
Mini Bioreactors
... Interested in our Mini Bioreactors? ...
Mississauga, Canada
1-10 Employees
2018
The Membio single-use 0.2-10 L benchtop bioreactor system leverages a proprietary design that ensures a consistent environment for cells at every scale.
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Featured
Rotating Bioreactor Stand
... Curious to learn more about how Membio's 0.2-10 L bioreactor system can bring greater efficiency to your process? Want to test the system for yourself? ...
Hirschau, Germany
11-50 Employees
1991
Bahnen und Hersteller, die bereits auf den Vorsprung des Protec Bioreaktor Systems setzen.
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Featured
Solutions - Protec BioReactor
... the (bio)logical solution to conventional toilet systems. Sanitary waste water gets purified while the train is in motion. Whereas a conventional collection tank needs to be emptied every one to three days, an on-board Protec Bioreactor toilet will work non-stop for … Solutions Read More » ...
Vale of White Horse, United Kingdom
1-10 Employees
2022
We offer advanced customisation, integration, technical support and maintenance services for bioreactors, metabolite analysers and upstream PAT equipment used in biotech manufacturing. We offer a bespoke technical integration service to network, monitor and deliver advanced control and data processing of upstream instrumentation.The aim is to deliver a truly 21st century level of connectivity and data management from your current non-networked instrumentation, taking your lab to the next level of smart integration. We offer support and technical maintenance services for Bioreactor and metabolite analyser.Specialising in Applikon bioreactors and Roche Metabolite analyser/cell counters. We offer a fully GMP compliant service that is supported with traceable calibrated specialist tools and manufacture training certificates.
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Featured
Bioreactors | Advanced Biosystems
... Integration and technical support for bioreactors, metabolite analysers and upstream PAT equipment. www.advancedbiosystems.co. ...
Aachen, Germany
1-10 Employees
BioThrust CEO Patrick gets the Audience Award at the REACH Science to startup-up convention in Münster. BioThrust receives funding by deep tech investor Freigeist. Through a unique and patented membrane architecture, we provide bubble-free gas exchange for the process. In addition, CO2 pH control is the fastest in its class and no antifoam is needed anymore! Proven at:— Cell-free protein synthesis— Cell-cultivation — Biosurfactant synthesis — Whole cell production (Salmonella).
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Featured
BioThrust - We thrust your process
... We are BioThrust, a tech company offering two breakthrough product lines that take bioreactor aeration to the next level. ...
Woburn, United States
101-250 Employees
2011
You have no items in your shopping cart. Rooted in the heart of the ever-changing, high- energy life science entrepreneurial Boston scene, Boston Laboratory Equipment is focused on supplying clients in the life science industry and academic institutions with high quality laboratory equipment on demand.
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Featured
ReadyToProcess Wave 25 Bioreactor
... ReadyToProcess Wave 25 Bioreactor Parameter ReadyToProcess WAVE 25 Rocker Dimensions 404 × 205 × 560 mm (W × H × D) Application Variety of cell culture applications involving mammalian, insect, and plant cells: • Batch culture • Fed-batch culture • Perfusion culture • Cultivation of ...
Surrey, Canada
51-100 Employees
We are headquartered in Langley, British Columbia, Canada, with a satellite office in Calgary, Alberta and a network of remote operators and experts across North America. We are certified to provide professional engineering services across several jurisdictions and our production facility holds several certifications. AWC designs and manufactures water and wastewater treatment systems for a variety of municipal and industrial applications. We have over 40 years of history and we have designed, manufactured and delivered over 500 water and wastewater treatment plants across North America and internationally. Water & wastewater treatment experts in North America. From custom-designed treatment systems to integrated ancillary equipment, we have the expertise to provide turnkey solutions for your municipal or industrial application. At AWC, our purpose is to improve, deliver and protect the infrastructure fundamental to improving quality of life. This purpose guides us in our mission to deliver innovative, sustainable water and wastewater treatment solutions to preserve water, energy and the environment.
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Featured
Membrane Bioreactor (MBR) – AWC Water
... MEMBRANE BIOREACTOR WATER TREATMENT ...
Boston, United States
51-100 Employees
2008
Our products range from lab to pilot and manufacturing scales, delivering exceptional quality, speed, and reliability. At GPC Bio, our mission is to revolutionize the bioprocessing industry. Our vision is to become the global leader in bioprocessing solutions,. That’s because our products are built with the highest care and quality materials to meet the latest industry standards. Welcome to GPC Bio, where we specialize in designing, manufacturing, and supporting advanced bioreactors and fermenters for small-to-medium-sized biotech companies. Created in 2008 in France, we specialize in Bioreactors, Fermentors, and Processing Equipment dedicated to the Bio-Pharma Industry. GPC Bio offers a comprehensive range of cutting-edge bioreactors and fermenters, backed by our proprietary CBio2 software, expert local support in the USA, and personalized customer care. Local Support & Rapid Response : With local support in the USA, we provide fast reactivity for services, training, maintenance, and technical issues.
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Featured
Bioreactors
... Discover GPC Bio's state-of-the-art Bioreactors & Fermenters for Lab, Pilot, and manufacturing scale for Biotech companies. Experience unmatched quality, scientific support, speed, and customization for any fermentation or cell culture project. ...
Metamorfosi, Greece
11-50 Employees
1985
Ενημερωθείτε για τα νέα προϊόντα και τις τελευταίες εξελίξεις.
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Featured
Pilot Bioreactor Techfors
... There are practically no limits on flexibility with regard to design and operation, since each pilot bioreactor model is built individually according to ...
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Some interesting numbers and facts about the results you have just received for Bioreactor
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 307 |
| Amount of suitable service providers | 215 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1985 |
| Youngest suiting company | 2022 |
A bioreactor is a meticulously designed apparatus or system that provides a controlled environment for the biological conversion of raw materials into specific products by microorganisms, cells, or biochemicals. This device is fundamental in various fields, notably in biotechnology, pharmaceuticals, and environmental engineering, due to its critical role in facilitating the precise control of environmental conditions such as temperature, pH, oxygen levels, and nutrient supply. These conditions are essential for optimizing the growth and productivity of biological systems, thereby enabling the efficient production of antibiotics, vaccines, and other biologically active compounds. Furthermore, bioreactors are instrumental in the advancement of tissue engineering, where they are used to cultivate tissues and organs for medical research and transplantation. The impact of bioreactors extends to environmental sustainability efforts as well; they are pivotal in the treatment of wastewater and the production of biofuels, contributing to the reduction of pollution and the development of renewable energy sources. The versatility and efficiency of bioreactors in supporting and enhancing biological processes underscore their significance in pushing the boundaries of research and application in science and technology, making them a cornerstone in the pursuit of innovative solutions to some of today's most pressing challenges.
1. Enhanced Control Over Environmental Conditions
Bioreactors offer unparalleled precision in controlling the internal environment, including temperature, pH, and oxygen levels. This precision ensures optimal conditions for microbial, animal, or plant cell cultures, leading to higher yields and product quality compared to traditional fermentation methods.
2. Scalability
One of the significant advantages of bioreactors is their scalability. They can be effectively scaled up from laboratory to industrial scale without losing efficiency or control. This flexibility allows for the cost-effective production of bioproducts, making bioreactors a preferred choice for biotechnological applications.
3. Reduced Risk of Contamination
Bioreactors are designed with strict aseptic conditions in mind. The closed system of a bioreactor minimizes the risk of contamination, which is crucial for the production of pharmaceuticals, vaccines, and other sensitive biological products. This feature significantly enhances product safety and quality.
4. Eco-Friendly
Bioreactors play a vital role in producing biofuels and biodegradable materials, contributing to environmental sustainability. By facilitating the efficient conversion of waste materials into valuable products, bioreactors help in reducing the environmental footprint of manufacturing processes.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology Compatibility
Ensure the bioreactor technology is compatible with your specific cell culture or microbial fermentation needs. This includes checking for suitable control systems for temperature, pH, and dissolved oxygen.
2. Scalability
Consider the ease of scaling up processes, from research-scale volumes to pilot and full production scales, without compromising the quality or characteristics of the final product.
3. Material Quality
The construction materials of the bioreactor should be durable, resistant to corrosion, and compliant with industry standards to ensure longevity and safety in operations.
4. System Flexibility
Look for systems that offer flexibility in operation, including interchangeable parts or modularity, to accommodate different types of reactions and processes.
5. After-Sales Support
Evaluate the extent of after-sales support, including warranty, technical support, and availability of spare parts. Reliable support is crucial for addressing any operational issues promptly.
6. Regulatory Compliance
Confirm that the bioreactor and its components are compliant with the relevant regulatory standards for your industry, ensuring that your processes meet all legal and quality requirements.
Bioreactors play a pivotal role in the pharmaceutical industry, primarily for the cultivation of microorganisms or cells used in the production of antibiotics, vaccines, and other biologics. These specialized containers provide an optimal environment for cell growth and are crucial in ensuring the quality and efficacy of pharmaceutical products. Their controlled settings allow for precise manipulation of conditions such as temperature, pH, and oxygen levels, which are essential for the successful cultivation of sensitive biological entities. In the biotechnology sector, bioreactors facilitate the production of enzymes and biofuels, highlighting their versatility and importance. By harnessing the power of genetically modified organisms, companies can produce bio-products in a more sustainable and cost-effective manner. Bioreactors enable the mass cultivation of these organisms under specific conditions that maximize yield and productivity, thereby supporting the green chemistry movement and contributing to a more sustainable future. The food and beverage industry also benefits from the use of bioreactors, especially in the fermentation process. This application is crucial for the production of beer, wine, yogurt, and cheese, where the controlled fermentation environment in bioreactors enhances flavor, texture, and nutritional value. By optimizing fermentation conditions, producers can achieve consistent product quality, ensuring consumer satisfaction and compliance with health standards. Environmental management represents another significant application of bioreactors. They are instrumental in bioremediation processes, where microorganisms degrade or detoxify pollutants from contaminated sites, including soil and water. This eco-friendly approach to pollution control underscores the potential of bioreactors to contribute to environmental sustainability efforts, showcasing their wide-ranging utility across industries.
Bioreactors, essential tools in biotechnology for cultivating organisms under controlled conditions, have achieved a high Technology Readiness Level (TRL), typically ranging between 7 to 9. This advanced TRL reflects the extensive validation and application of bioreactors in real-world environments, particularly in the pharmaceutical, agricultural, and environmental sectors. The progression to such high TRLs has been underpinned by significant technical advancements, including the development of sophisticated control systems for parameters like temperature, pH, and oxygen levels, which are critical for optimizing growth conditions and product yields. Additionally, innovations in bioreactor design, such as the advent of disposable bioreactors, have enhanced operational flexibility and reduced contamination risks, further solidifying their readiness for industrial and commercial applications. The integration of advanced sensors and data analytics has also played a crucial role, enabling real-time monitoring and adjustments that ensure process consistency and product quality. These technical achievements underscore the maturity and reliability of bioreactor technologies, facilitating their widespread adoption across various industries where precise biological production processes are essential.
In the Short-Term, advancements in bioreactor technology are expected to focus on enhancing efficiency and scalability. Innovations such as improved sensor technology will allow for more precise monitoring and control of bioprocesses, leading to higher yields and product quality. Additionally, the development of modular bioreactors will facilitate scalability and flexibility, enabling quicker adaptation to different production volumes and simplifying the transition from research to commercial scale. The Mid-Term phase is likely to witness significant strides in automation and artificial intelligence (AI) integration. These technologies will streamline the biomanufacturing process, reducing human error and operational costs. AI algorithms will predict optimal growth conditions and process parameters, further improving efficiency and productivity. The emergence of novel bioreactor materials and designs will also enhance biocompatibility and reduce contamination risks, elevating the overall safety and reliability of bioprocessing. In the Long-Term, the focus will shift towards sustainability and the development of closed-loop bioreactor systems. These systems will aim to minimize waste and energy consumption, contributing to more environmentally friendly biomanufacturing practices. Breakthroughs in synthetic biology and tissue engineering may lead to the creation of bioreactors capable of producing complex tissues and organoids, opening new avenues in regenerative medicine and drug testing. This era will mark a significant leap towards fully autonomous and sustainable bioproduction ecosystems.
