Model and methods for determining mixed liquor suspended solids of aerobic granular sludge reactors [0.03%]
好氧颗粒污泥反应器混合液悬浮固体的计算模型与方法
D Hernández-Rodríguez,M Lucero-Chávez,D D Rojas Rendon et al.
D Hernández-Rodríguez et al.
Representative sampling and pipetting of aerobic granular sludge (AGS) is challenging, leading to large inaccuracies when measuring the mixed liquor suspended solids (MLSS) by current methods. This study aimed to develop alternative methods...
Enhancing electron transfer efficiency in microbial electrochemical systems for bioelectricity and chemical production [0.03%]
增强微生物电化学系统中的电子传递效率以促进生物电力和化学物质的生产
Guangjie Liang,Cong Gao,Jing Wu et al.
Guangjie Liang et al.
Microbial electrochemical systems have emerged as promising platforms for chemical production and bioelectricity generation by utilizing cost-effective substrates. However, their performance is limited by the efficiency of both intracellula...
Identification of nitrogen-fixing bacteria on green tide - Causing species and evaluation of their nitrogen-fixing capacity [0.03%]
绿潮引发物种固氮细菌的鉴定及固氮能力评价
Tingting Wu,Fangling Bi,Hongtao Liu et al.
Tingting Wu et al.
Different algae host distinct phycosphere microenvironments, where mutualistic relationships between algae and symbiotic and epiphytic bacteria are common. Ulva prolifera (U. prolifera) harbors a diverse microbial community that plays a cru...
Enzyme cascades for high-yield conversion of d-xylose into d-ribose by overcoming equilibrium constraints and enhancing selectivity [0.03%]
克服平衡限制和提高选择性以高产率将D-木糖转化为D-核糖的酶级联反应
Ja Hyun Lee,Doyeon Kim,Yoonjoo Kim et al.
Ja Hyun Lee et al.
d-Ribose is essential for critical cellular functions and the synthesis of antiviral nucleosides. However, traditional chemical synthesis and fermentation methods of d-ribose production suffer from low yields and inefficient resource utiliz...
Corrigendum to "Reshaping UDP-binding pocket of bacterial sucrose synthase to improve" [Bioresour. Technol. 427 (2025) 132396] [0.03%]
《纠正“重塑细菌蔗糖合成酶的UDP结合口袋以提高……”[生物资源技术。427 (2025) 132396]》中的错误
Jishan Li,Muyang Li,Chenyu Yong et al.
Jishan Li et al.
Published Erratum
Bioresource technology. 2025 Mar 26:428:132437. DOI:10.1016/j.biortech.2025.132437 2025
Promoting lignocellulosic biorefinery by machine learning: progress, perspectives and challenges [0.03%]
机器学习促进木质纤维素生物精炼:进展、展望与挑战
Xiao-Yan Huang,Xue Zhang,Lei Xing et al.
Xiao-Yan Huang et al.
The lignocellulosic biorefinery involves pretreatment, enzymatic hydrolysis, mixed sugar fermentation, and optional anaerobic digestion. This pipeline could be effectively implemented through machine learning (ML)-guided process optimizatio...
Marine steel protection based on biomineralization for sustainable development of coastal cities [0.03%]
基于生物矿化的海洋钢结构防腐技术对沿海城市可持续发展的影响
Hengxing Wang,Xiaohao Sun,Yong Wang et al.
Hengxing Wang et al.
Corrosion research, spanning over 150 years, remains critically important, particularly for addressing marine microbially induced corrosion on steel, which causes significant economic losses and safety risks. This study proposes a biominera...
Performance evaluation of biomass chemical looping gasification in a fluidized bed reactor using industrial waste as oxygen carrier [0.03%]
使用工业废料作为氧载体的流化床反应器中生物质化学循环气化的性能评估
Avishek Goel,Fabiola Panitz,Elyas M Moghaddam et al.
Avishek Goel et al.
The study investigates biomass chemical looping gasification (BCLG) using nickel smelter slag as an oxygen carrier (OC). Key operating parameters, including reactor temperatures (800-900 °C), OC-to-biomass ratio (OCBR, 4:1-15:1), and steam...
Enrichment of nitrogen-fixing hydrogen-oxidizing bacteria community for efficient microbial protein production in airlift reactor [0.03%]
气升式反应器中高效微生物蛋白质生产的固氮嗜氢菌群的富集
Yu-Xiao Zhang,Jia-Yao Gao,Meng-Meng Wang et al.
Yu-Xiao Zhang et al.
Autotrophic nitrogen-fixing hydrogen-oxidizing bacteria (NF-HOB) have the capability to directly utilize carbon dioxide and dinitrogen for the sustainable production of microbial protein (MP), offering a promising alternative for food and f...
Employing Chlorella pyrenoidosa in eco-friendly acetylsalicylic acid degradation: Insights from physiology and transcriptomics [0.03%]
利用绿藻衣藻进行环保的水杨酸甲酯降解:来自生理学和转录组学的启示
Jingjing Shangguan,Na Yang,Litao Zhang et al.
Jingjing Shangguan et al.
Emerging contaminants, often present at low concentrations, are of increasing concern due to their persistence and potential hazards. Chlorella pyrenoidosa has shown significant potential for removing these emerging contaminants from aquati...