biomedical reactor

简明释义

生物医学用反应堆

英英释义

例句

1.Using a biomedical reactor, scientists can produce living tissues for transplantation.

科学家们可以利用生物医学反应器生产用于移植的活组织。

2.The research team developed a new type of biomedical reactor to enhance drug production.

研究团队开发了一种新型的生物医学反应器以增强药物生产。

3.The design of the biomedical reactor allows for real-time monitoring of cell growth.

该生物医学反应器的设计允许实时监测细胞生长。

4.The biomedical reactor can simulate human physiological conditions for better research outcomes.

该生物医学反应器可以模拟人体生理条件，以获得更好的研究结果。

5.In the lab, we tested the efficiency of the biomedical reactor for tissue engineering applications.

在实验室，我们测试了生物医学反应器在组织工程应用中的效率。

作文

The field of biotechnology has made significant strides in recent years, leading to innovations that have transformed healthcare and pharmaceuticals. One of the most intriguing developments in this area is the concept of a biomedical reactor, which plays a crucial role in the production of biological products. A biomedical reactor is essentially a controlled environment where biological reactions can occur, often involving cells or enzymes. These reactors are designed to optimize conditions for growth and production, making them invaluable in the development of vaccines, antibiotics, and other therapeutic agents.In a typical biomedical reactor, various parameters such as temperature, pH, and nutrient supply are meticulously controlled to ensure that the biological processes take place efficiently. For instance, when producing insulin, genetically modified bacteria are cultivated in a biomedical reactor. The reactor provides the necessary environment for these bacteria to multiply and produce insulin, which can then be harvested and purified for medical use.One of the key advantages of using a biomedical reactor is the ability to scale up production. In the laboratory, researchers can test small batches of biological reactions, but once they find a successful formula, they can transfer this process to a larger reactor. This scalability is essential for meeting the demands of public health, especially during pandemics or when new treatments need to be developed rapidly.Moreover, biomedical reactors can be designed to be more environmentally friendly than traditional manufacturing processes. By utilizing renewable resources and minimizing waste, these reactors contribute to sustainable practices in biotechnology. This is particularly important as the world faces challenges related to climate change and the need for greener solutions in all industries.The versatility of biomedical reactors extends beyond just pharmaceuticals. They can also be used in the production of biofuels and bioplastics, showcasing their potential to revolutionize multiple sectors. Researchers are continually exploring new designs and technologies to enhance the efficiency and effectiveness of these reactors, which could lead to even greater advancements in biotechnology.However, the operation of a biomedical reactor requires a deep understanding of both biology and engineering. Professionals in this field must be well-versed in microbiology, biochemistry, and process engineering to ensure that these reactors function optimally. This interdisciplinary approach is vital for the continued success and innovation within the realm of biotechnology.In conclusion, the biomedical reactor stands as a testament to the incredible advancements in biotechnology. Its ability to facilitate complex biological processes in a controlled environment makes it indispensable in the production of life-saving drugs and therapies. As research continues and technology evolves, we can expect to see even more exciting developments in the use of biomedical reactors that will further enhance our capabilities in addressing global health challenges and fostering sustainable practices in various industries.

生物技术领域近年来取得了重大进展，带来了改变医疗和制药行业的创新。其中一个最引人注目的发展是生物医学反应器的概念，它在生物产品的生产中发挥着至关重要的作用。生物医学反应器本质上是一个控制环境，在这里可以发生生物反应，通常涉及细胞或酶。这些反应器旨在优化生长和生产条件，使其在疫苗、抗生素和其他治疗剂的开发中不可或缺。在典型的生物医学反应器中，各种参数如温度、pH值和营养供应都经过精心控制，以确保生物过程高效进行。例如，在生产胰岛素时，基因改造的细菌在生物医学反应器中培养。反应器提供了这些细菌繁殖和生产胰岛素所需的环境，随后可以收获和提纯用于医疗用途。使用生物医学反应器的一个主要优势是能够扩大生产规模。在实验室中，研究人员可以测试小批量的生物反应，但一旦找到成功的配方，他们可以将这一过程转移到更大的反应器中。这种可扩展性对于满足公共卫生需求至关重要，特别是在疫情期间或需要快速开发新治疗方法时。此外，生物医学反应器的设计可以比传统制造过程更环保。通过利用可再生资源和最小化废物，这些反应器有助于生物技术中的可持续实践。这在全球面临气候变化和各行业需要更绿色解决方案的挑战时尤为重要。生物医学反应器的多功能性不仅限于制药。它们还可以用于生物燃料和生物塑料的生产，展示了其在多个领域革命性潜力。研究人员不断探索新的设计和技术，以提高这些反应器的效率和有效性，这可能导致生物技术领域的更大进步。然而，操作生物医学反应器需要对生物学和工程学有深刻的理解。该领域的专业人员必须精通微生物学、生物化学和过程工程，以确保这些反应器的最佳运行。这种跨学科的方法对生物技术领域的持续成功和创新至关重要。总之，生物医学反应器是生物技术令人难以置信的进步的证明。它能够在受控环境中促进复杂的生物过程，使其在生命拯救药物和治疗的生产中不可或缺。随着研究的继续和技术的发展，我们可以期待看到更多关于生物医学反应器的令人兴奋的发展，这将进一步增强我们应对全球健康挑战和促进各行业可持续实践的能力。