高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2015年
2期
351-357
,共7页
杨佳%李明%朱思远%骆健美%周明华%王敏
楊佳%李明%硃思遠%駱健美%週明華%王敏
양가%리명%주사원%락건미%주명화%왕민
微生物燃料电池%Tolumonas osonensis%电化学活性%产电条件优化%细胞通透化
微生物燃料電池%Tolumonas osonensis%電化學活性%產電條件優化%細胞通透化
미생물연료전지%Tolumonas osonensis%전화학활성%산전조건우화%세포통투화
microbial fuel cells%Tolumonas osonensis%electrochemical activity%operating conditions%optimization%cell permeabilization
以课题组前期筛选得到的菌株Tolumonas osonensis P2-A-1为对象,通过菌体初始浓度、底物种类和浓度、阳极液pH、外电阻等参数的优化以及细胞的通透化处理,提高其在微生物燃料电池中的产电性能。结果表明,菌株T. osonensis P2-A-1接种到TSB液体培养基中,22℃有氧条件下静置培养48 h (OD 600=2.714),离心收集的菌体经1 mmol?L?1 EDTA处理20 min后,接种到阳极液Ⅱ(PBBM液体培养基中加入终浓度为2.000 g?L?1的乙酸钠(作为底物)和终浓度为5.000 g?L?1的柠檬酸铁,pH 7.2),制备得到细胞浓度为3.394 g?L?1的接种液,注入MFCs反应器,外接1000Ω电阻,于室温下运行14 d,功率密度达到509 mW?m?2,比优化前提高了162.4%。这是首次对T. osonensisa种内微生物产电性能及其在微生物燃料电池中应用的报道。其成果对于丰富产电微生物的多样性,挖掘更多具有高电化学活性的微生物纯种、提高其产电性能具有重要的指导意义。
以課題組前期篩選得到的菌株Tolumonas osonensis P2-A-1為對象,通過菌體初始濃度、底物種類和濃度、暘極液pH、外電阻等參數的優化以及細胞的通透化處理,提高其在微生物燃料電池中的產電性能。結果錶明,菌株T. osonensis P2-A-1接種到TSB液體培養基中,22℃有氧條件下靜置培養48 h (OD 600=2.714),離心收集的菌體經1 mmol?L?1 EDTA處理20 min後,接種到暘極液Ⅱ(PBBM液體培養基中加入終濃度為2.000 g?L?1的乙痠鈉(作為底物)和終濃度為5.000 g?L?1的檸檬痠鐵,pH 7.2),製備得到細胞濃度為3.394 g?L?1的接種液,註入MFCs反應器,外接1000Ω電阻,于室溫下運行14 d,功率密度達到509 mW?m?2,比優化前提高瞭162.4%。這是首次對T. osonensisa種內微生物產電性能及其在微生物燃料電池中應用的報道。其成果對于豐富產電微生物的多樣性,挖掘更多具有高電化學活性的微生物純種、提高其產電性能具有重要的指導意義。
이과제조전기사선득도적균주Tolumonas osonensis P2-A-1위대상,통과균체초시농도、저물충류화농도、양겁액pH、외전조등삼수적우화이급세포적통투화처리,제고기재미생물연료전지중적산전성능。결과표명,균주T. osonensis P2-A-1접충도TSB액체배양기중,22℃유양조건하정치배양48 h (OD 600=2.714),리심수집적균체경1 mmol?L?1 EDTA처리20 min후,접충도양겁액Ⅱ(PBBM액체배양기중가입종농도위2.000 g?L?1적을산납(작위저물)화종농도위5.000 g?L?1적저몽산철,pH 7.2),제비득도세포농도위3.394 g?L?1적접충액,주입MFCs반응기,외접1000Ω전조,우실온하운행14 d,공솔밀도체도509 mW?m?2,비우화전제고료162.4%。저시수차대T. osonensisa충내미생물산전성능급기재미생물연료전지중응용적보도。기성과대우봉부산전미생물적다양성,알굴경다구유고전화학활성적미생물순충、제고기산전성능구유중요적지도의의。
Power generation performance of Tolumonas osonensis P2-A-1 in MFCs was improved by optimizing initial cell concentration in inoculation medium, substrate type and concentration, anolyte pH, external resistance, and chemical solvent permeabilization. The optimized experimental condition is inoculation in TSB liquid medium and statically incubated at 22℃ under aerobic conditions. OD600 of the culture was 2.714 after 48 h of incubation and cells were harvested by centrifugation and treated by 1 mmol?L?1 EDTA for 20 min. The cells were added into anolyteⅡ (PBBM liquid medium containing 2.000 g?L?1 sodium acetate as the substrate and 5.000 g?L?1 ferric citrate, pH 7.2) to prepare inoculation media with dry cell concentration of 3.394 g?L?1. After 14 d at room temperature, the power density of MFCs connecting to the external resistance 1000Ω reaches to 509 mW?m?2 , which is increased by 162.4% compared with the original. It is the first time thatT. osonensis is applied in MFCs and shows electrochemical activity.