【摘 要】
:
Biochar(BC)has been extensively studied as adsorbent for the treatment of water pollution.Despite the distinct advantages,the high calcination temperature and low adsorption capacity of pristine BC limit its practical applications.Most of the former studi
【机 构】
:
College of Chemistry and Environmental Engineering,Shenzhen University,Shenzhen 518060,China;State K
论文部分内容阅读
Biochar(BC)has been extensively studied as adsorbent for the treatment of water pollution.Despite the distinct advantages,the high calcination temperature and low adsorption capacity of pristine BC limit its practical applications.Most of the former studies focused on the structure and/or surface modification to improve the adsorption capacity of BC.However,the harsh experiment conditions involved in the biochar modification limited the application in industrial level.Herein,we introduced mechanical treatment into BC preparation to reduce the calcination temperature and improve the adsorption capacity simultaneously.The results indicated that the calcination temperature was reduced and the adsorption capacity of the treated BC was improved after mechanochemical treatment.Characterization of the samples disclosed that BCs were graphitized with the particle size reduced to nanoscale after treatment.Adsorption tests indicated that the mechanochemically treated BCs showed much better removal performance of organic contaminants than that of pristine BCs.For instance,among four pristine BCs(BC600,BC700,BC800,and BC900),only BC900 has strong adsorption capacity for MB,while BC600 has low adsorption capacity(1.2 mg/g).By comparison,the adsorption capacity of MB increased greatly to 173.96 mg/g by BC600-500/1(treated at 500 r/min for 1 hour).To optimize the mechanochemical treatment,the effects of rotation speed and agitation duration were also investigated.
其他文献
岁月悠悠,驻足回首.1998年,我国多个流域发生了历史罕见的大洪水,在全力夺取抗洪斗争胜利的同时,人们开始从社会、经济、环境、安全等更为广阔的视野探讨防洪抗旱减灾问题.21世纪初,我国的防汛抗旱任务越来越艰巨、防汛抗旱形势越来越严峻,对专业研究机构支撑的需求比以往任何时期都更加迫切.2002年,水利部防洪抗旱减灾工程技术研究中心(以下简称减灾中心)承载着世纪之交的减灾思考和期盼应运而生.20年来,减灾中心始终担负防洪抗旱减灾科技创新排头兵和决策智囊团的光荣使命,与我国的防洪抗旱减灾事业风雨同行,为行业科技
白沙溪发源于浙江遂昌、武义交界的狮子岩,流入金华境内后,汇集银坑溪、半溪等几十条大小支流,汇入婺江,全长65公里.三十六堰,从最上游的沙畈堰到白沙溪注入婺江交汇口附近的中济堰,横跨45公里,水位落差168米,是以引水灌溉为主,兼具防洪、蓄水、水力加工等功能的堰坝群.
In this study,microbial fuel cells(MFCs)were explored to promote the nitrogen removal performance of combined anaerobic ammonium oxidation(anammox)and Fe-C micro-electrolysis(CAE)systems.The average total nitrogen(TN)removal efficiency of the modified MFC
Microbial geotechnology or biogeotechnology is a new branch of geotechnical engineering.It involves the use of microbiology for traditional geotechnical applications.Many new innovative soil improvement methods have been developed in recent years based on
Here we present a graphene photodetector of which the graphene and structural system infrared absorptions are enhanced by interface phonon polariton(IPhP)coupling.IPhPs are supported at the SiC/AlN interface of device structure and used to excite interban
E-peroxone(EP)was one of the most attractive AOPs for removing refractory organic compounds from water,but the high energy consumption for in situ generating H2O2 and its low reaction efficiency for activating O3 under acidic conditions made the obstacles
On June 24,2021,a 40-year-old reinforced concrete flat plate structure building in Miami suffered a sudden partial collapse.This study analyzed the overall performance and key components of the collapsed building based on the building design codes(ACI-318
Bioinspired and biomimetic membranes that contain biological transport channels or attain their structural designs from biological systems have been through a remarkable development over the last two decades.They take advantage of the exceptional transpor
Measurement and predicted variations of ammonia oxidation rate(AOR)are critical for the optimization of biological nitrogen removal,however,it is difficult to predict accurate AOR based on current models.In this study,a modified model was developed to pre
It has been over ten months since the beginning of the 2019 coronavirus disease(COVID-2019),and its impact on solid waste management,especially medical waste,is becoming clearer.This study systematically reviews the potential influences of the COVID-19 pa