生物法煙氣脫硫技術未來研究方向

Future research directions of biological flue gas desulfurization technology

　　發展微生物煙氣脫硫技術很具有潛力, 但也存在一些問題需要解決, 應側重以下幾方面的研究工作：

The development of microbial flue gas desulfurization technology has great potential, but there are also some problems that need to be solved, and research work should focus on the following aspects:

　　基礎理論研究。氧化無機硫的菌種以專性、兼性自養菌為主, 而專性自養菌往往生長較慢, 在煙氣脫硫技術中, 生物量的供應將影響整個系統的處理效率。因此, 在今后的研究中, 篩選生長速度快、脫硫性能優良的菌種是必須進行的基礎研究。對已有的菌種, 應將研究重點放在微生物最佳培養方案優化和對微生物菌種的改良上, 改進微生物的遺傳性狀, 提高菌種的脫硫效率。同時, 進一步探索煙氣脫硫機理, 從而提出更合理的脫硫新方法, 以指導和完善脫硫技術, 加快工業化進程。

Basic theoretical research. The bacterial species that oxidize inorganic sulfur are mainly specialized and facultative autotrophic bacteria, and specialized autotrophic bacteria often grow slowly. In flue gas desulfurization technology, the supply of biomass will affect the treatment efficiency of the entire system. Therefore, in future research, screening strains with fast growth rate and excellent desulfurization performance is a necessary basic research. For existing bacterial strains, research should focus on optimizing the optimal microbial culture plan and improving microbial strains, improving their genetic traits, and enhancing their desulfurization efficiency. At the same time, further explore the mechanism of flue gas desulfurization, and propose more reasonable new desulfurization methods to guide and improve desulfurization technology, and accelerate the industrialization process.

　　選擇合適的生物反應器。生物反應器涉及氣、液、固三相傳質及生化降解過程, 影響因素多而復雜, 有關的理論研究及實際應用還不夠深入, 需要進一步探討和研究。

Choose a suitable bioreactor. Bioreactors involve three-phase mass transfer and biochemical degradation processes of gas, liquid, and solid, with multiple and complex influencing factors. Theoretical research and practical applications are not yet in-depth enough, and further exploration and research are needed.

　　合理解決煙氣溫度較高和生物法脫硫常溫操作二者之間的矛盾。燃煤鍋爐煙氣經除塵器后溫度一般較高,而脫硫細菌多在常溫下生長, 因此, 一方面應開發回收利用進入生物反應器前煙氣余熱的技術; 另一方面, 應用分子生物學技術, 培育更適于煙氣脫硫的耐高溫的脫硫菌。

Reasonably resolve the contradiction between high flue gas temperature and normal temperature operation of biological desulfurization. The temperature of coal-fired boiler flue gas after passing through the dust collector is generally high, and desulfurization bacteria mostly grow at room temperature. Therefore, on the one hand, technology should be developed to recover and utilize the waste heat of flue gas before entering the bioreactor; On the other hand, molecular biology techniques should be applied to cultivate high-temperature resistant desulfurization bacteria that are more suitable for flue gas desulfurization.

　　高效功能菌的選育。隨著生物技術的高速發展, 利用現代基因工程技術對某些脫硫菌進行改性, 強化其轉化作用, 以獲得生長繁殖速度快、活性高、適應溫度和氫離子濃度指數范圍寬的多質粒高效菌, 篩選和培育出適應性和穩定性更高的脫硫菌, 通過縮短煙氣脫硫菌的馴化、培育和掛膜時間延長脫硫菌的使用壽命。

Breeding of efficient functional bacteria. With the rapid development of biotechnology, modern genetic engineering technology is used to modify certain desulfurization bacteria and enhance their transformation, in order to obtain multi plasmid efficient bacteria with fast growth and reproduction speed, high activity, wide adaptability to temperature and hydrogen ion concentration index range, screen and cultivate desulfurization bacteria with higher adaptability and stability, and extend the service life of desulfurization bacteria by shortening the domestication, cultivation, and membrane hanging time of flue gas desulfurization bacteria.

　　隨著生物技術的不斷發展, 微生物煙氣脫硫技術必將取得更大進展。

With the continuous development of biotechnology, microbial flue gas desulfurization technology is bound to make greater progress.

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