bioconversion

简明释义

英[ˌbaɪəʊkənˈvɜːʃn]美[ˌbaɪoʊkənˈvɜːrʒn]

n. 生物转化；生物能转换

英英释义

单词用法

同义词

反义词

例句

1.Hydrolysis is an important step for bioconversion of woody biomass to ethanol. Hydrolysis technology includes dilute acid hydrolysis, concentrated acid hydrolysis and enzymatic hydrolysis.

水解是利用木质生物资源以生物转化法制取乙醇的重要步骤，水解技术主要包括稀酸水解、浓酸水解和酶水解。

2.Quantitative conversion of indene to (1S, 2R) indene oxide and (1S, 2R)-indanpiol by combination of haloperoxidase bioconversion and chemical steps.

通过卤过氧化物酶生物转化与化学步骤结合将茚定量转化为（1S，2R）-茚氧化物和（1S，2R）-二氢茚二醇的方法。

3.The new therapy included inhibition of apoptosis, carrier therapy, convection transport, different biotin bioconversion etc.

新疗法有抑制细胞凋亡、载体疗法、对流转运、异生物素生物转化等。

4.The reaction conditions of bioconversion for manufacturing fructose 1, 6 diphosphate (FDP) have been studied by using free yeast cells.

研究了利用游离酵母细胞转化葡萄糖为果糖1,6 -二磷酸(FDP)的反应条件。

5.It is very important to optimize the fermentation technology of Actinobacillus succinogenes for the industrial bioconversion of succinic acid from crop straw.

该文对产丁二酸放线杆菌的发酵工艺优化，为工业规模的农作物秸秆生物转化制备丁二酸提供重要指导。

6.Official Name: Bioconversion of Carbon Dioxide to Biofuels by Facultatively Autotrophic Hydrogen bacteria.

项目名称：利用兼性自养氢细菌将二氧化碳转化为生物燃料。

7.Hydrolysis is an important step for bioconversion of woody biomass to ethanol. Hydrolysis technology includes dilute acid hydrolysis, concentrated acid hydrolysis and enzymatic hydrolysis.

水解是利用木质生物资源以生物转化法制取乙醇的重要步骤，水解技术主要包括稀酸水解、浓酸水解和酶水解。

8.The influences of the supercritical CO2 on the growth characteristics of yeast were investigated so as to utilize the supercritical CO2 as the medium of bioconversion.

为将超临界CO2作为生物转化的介质，考察了其对微生物生长特性的影响。

9.The bioconversion of lignocellulosic materials for organic acid had great meaning to both economic and social benefit, owning to its renewable character, abundance and low price.

木质纤维素是世界上储量最丰富、最廉价的可再生生物质资源，利用木质纤维素发酵生产有机酸具有重大的经济效益及社会效益。

10.The industrial strain BIB0830 of Streptomyces thermotolerans can produce acetyl-isovaleryl tylosin by bioconversion using tylosin as a processor.

BIB0830是一株可将泰乐菌素转化为乙酰异戊酰泰乐菌素的耐热链霉菌工业菌株。

11.The bioconversion of food waste into biogas is an effective way to reduce landfill usage.

将食品废物进行生物转化生成沼气是减少填埋场使用的有效方法。

12.Using microorganisms for bioconversion can enhance the efficiency of waste management systems.

利用微生物进行生物转化可以提高废物管理系统的效率。

13.Researchers are exploring bioconversion methods to produce renewable energy from agricultural residues.

研究人员正在探索利用生物转化方法从农业废弃物中生产可再生能源。

14.The process of bioconversion transforms organic waste into valuable biofuels.

这个生物转化过程将有机废物转化为有价值的生物燃料。

15.The bioconversion of lignocellulosic biomass can lead to sustainable energy solutions.

木质纤维素生物质的生物转化可以带来可持续的能源解决方案。

作文

Bioconversion is a fascinating process that involves the transformation of organic materials into usable forms of energy or products through biological means. This process is significant in various fields, including waste management, renewable energy production, and biotechnology. By utilizing microorganisms or enzymes, bioconversion can effectively convert biomass, which includes plant and animal materials, into valuable resources like biofuels, bioplastics, and even pharmaceuticals.One of the most prominent examples of bioconversion (生物转化) is the production of bioethanol from corn or sugarcane. In this process, yeast is used to ferment sugars present in these plants, resulting in the production of ethanol, which can be used as a renewable fuel. This method not only provides an alternative to fossil fuels but also helps reduce greenhouse gas emissions, making it a more sustainable option for energy production.Another area where bioconversion (生物转化) plays a crucial role is in the treatment of organic waste. Through the process of anaerobic digestion, microorganisms break down organic matter in the absence of oxygen, producing biogas—a mixture of methane and carbon dioxide. This biogas can be harnessed for electricity generation or heating, while the leftover digestate can be used as a nutrient-rich fertilizer. This closed-loop system not only minimizes waste but also promotes the recycling of nutrients back into the soil.Moreover, bioconversion (生物转化) has significant implications in the field of biotechnology. For instance, researchers are exploring ways to engineer specific strains of bacteria that can efficiently convert agricultural residues or food waste into valuable chemicals. This could lead to the development of sustainable production methods for various industrial applications, reducing our reliance on non-renewable resources.The benefits of bioconversion (生物转化) extend beyond environmental sustainability; they also encompass economic advantages. By converting waste into energy or products, we can create new business opportunities and jobs in the green economy. As society increasingly prioritizes sustainability, the demand for technologies that facilitate bioconversion (生物转化) is likely to grow, paving the way for innovation and investment in this area.However, there are challenges associated with bioconversion (生物转化) that must be addressed to maximize its potential. For example, the efficiency of microbial processes can be influenced by various factors, including temperature, pH, and substrate availability. Researchers are continuously working to optimize these conditions to enhance the yield and rate of conversion.In conclusion, bioconversion (生物转化) is a vital process that holds great promise for addressing some of the world's most pressing environmental issues. By harnessing the power of biology, we can transform waste into valuable resources, contribute to energy sustainability, and promote economic growth. As we move towards a more sustainable future, understanding and advancing bioconversion (生物转化) will be essential in creating a circular economy where resources are utilized efficiently and responsibly.