期刊文献+
共找到12篇文章
< 1 >
每页显示 20 50 100
Encapsulated peracetic acid as a valid broad‑spectrum antimicrobial alternative,leading to beneficial microbiota compositional changes and enhanced performance in broiler chickens
1
作者 Salvatore Galgano Leah Conway +2 位作者 Nikki Dalby Adrian Fellows Jos G.MHoudijk 《Journal of Animal Science and Biotechnology》 SCIE CAS CSCD 2023年第5期2128-2142,共15页
Background Antimicrobial alternatives are urgently needed,including for poultry production systems.In this study,we tested the potential broad-range antimicrobial alternative peracetic acid,delivered in feed via the h... Background Antimicrobial alternatives are urgently needed,including for poultry production systems.In this study,we tested the potential broad-range antimicrobial alternative peracetic acid,delivered in feed via the hydrolysis of encapsulated precursors through a 28-day study using 375 Ross 308 broiler chickens.We tested two peracetic acid concentrations,30 and 80 mg/kg on birds housed on re-used litter,and we evaluated the impact of both levels on gut microbial communities,bacterial concentration,antimicrobial resistance genes relative abundance and growth performance when compared to control birds housed on either clean or re-used litter.Results Body weight gain and feed conversion ratio improved in peracetic acid fed birds.At d 28,birds given 30 mg/kg of peracetic acid had a decreased Firmicutes and an increased Proteobacteria abundance in the jejunum,accompanied by an increase in Bacillus,Flavonifractor and Rombustia in the caeca,and a decreased abundance of tetracycline resistance genes.Chicken given 80 mg/kg of peracetic acid had greater caecal abundance of macrolides lincosamides and streptogramins resistance genes.Growth performance on clean litter was reduced compared to reused litter,which concurred with increased caecal abundance of Blautia,decreased caecal abundance of Escherichia/Shigella,Anaerostipes and Jeotgalicoccus,and greater gene abundance of vancomycin,tetracycline,and macrolides resistance genes.Conclusions Peracetic acid could be used as a safe broad-spectrum antimicrobial alternative in broilers.Encapsulated precursors were able to reduce the bacterial concentration in the jejunum whilst promoting the proliferation of probiotic genera in the caeca,especially at the low peracetic acid concentrations tested,and improve growth performance.Moreover,our findings offer further insights on potential benefits of rearing birds on re-used litter,suggesting that the latter could be associated with better performance and reduced antimicrobial resistance risk compared to clean litter rearing. 展开更多
关键词 Antimicrobial alternative Antimicrobial resistance Broiler chicken MICROBIOTA peracetic acid Performance 16S rRNA gene
下载PDF
Effects of Peracetic Acid(PAA) Combined with Calcium Treatments on Storage Quality of Loquat Fruit 被引量:4
2
作者 宋虎卫 郑永华 +2 位作者 袁卫明 张瑞越 杨立明 《Agricultural Science & Technology》 CAS 2013年第10期1476-1481,共6页
[Objective] The paper was to evaluate effects of peracetic acid (PAA) combined with calcium treatments on storage quality of Ioquat fruits, so as to pro- vide practical techniques to solve the problems of postharves... [Objective] The paper was to evaluate effects of peracetic acid (PAA) combined with calcium treatments on storage quality of Ioquat fruits, so as to pro- vide practical techniques to solve the problems of postharvest rot and quality deteri- oration for Ioquat fruits. [Method] With Ioquat fruits of Qingzhong variety as materi- als, 0.2%, 0.4% and 0.8% PAA combined with 0.8% CaCI2 was used to soak Ioquat fruits for 4 min, 0.8% CaCl2 and water treatments were set as two controls; the fruits were dried and packaged by 0.02 mm PE bags, then stored under non-chilling low temperature of (7±1) ℃. The indicators related to storage quality of Ioquat fruits were randomly tested once every 3 d, and their variation situations were analyzed. [Result] Compared with two control treatments and 0.2% PAA, 0.8% PAA combined with calcium treatments, the treatment of 0.4% PAA combined with 0.8% CaCl2 could significantly inhibit rot index, weight loss rate, firmness and cell membrane permeability of Ioquat fruits during storage period, which could also effectively delay the reduction of titratable acid, vitamin C, soluble solid content and juice yield, and maintain respiration intensity of fruits at a low level; the appearance and flavor qual- ity of fruits were good after stored for 25 d. [Conclusion] 0.4% PAA combined with 0.8% CaCl2 treatment is an efficient, safe and economical practice technology in an- ti-corrosion and quality preservation for postharvest Ioquat fruits . 展开更多
关键词 Loquat (Eriobotrya japonica) peracetic acid (PAA) Calcium treatment Storage quality
下载PDF
Peracetic Acid Synthesis by Acetaldehyde Liquid Phase Oxidation in Trickle Bed Reactor 被引量:2
3
作者 张腾云 罗京莉 +1 位作者 K.Chuang 钟理 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2007年第3期320-325,共6页
In this paper,shorter residence time(a few minutes)with high yield in the trickle bed process for per- acetic acid synthesis by acetaldehyde liquid phase oxidation can be realized on the selected packing material SA... In this paper,shorter residence time(a few minutes)with high yield in the trickle bed process for per- acetic acid synthesis by acetaldehyde liquid phase oxidation can be realized on the selected packing material SA-5118.For acetaldehyde in acetone with ferric ion as catalyst,the optimized process conditions were presented. The main factors influencing the yield,selectivity and conversion are residence time,temperature and acetaldehyde concentration,respectively.The temperature range checked is from 30 to 65℃.High yield of 81.53%with high se- lectivity of 91.84%can be obtained at higher temperature of 55℃when the residence time is 5.5min and the acet- aldehyde concentration is 9.85%(by mass).And there is a critical acetaldehyde concentration point(Cccp)between 18%and 19.5%(by mass).At temperature less than 55℃,the highest yield to peracetic acid at each temperature level increases with temperature when the acetaldehyde concentration is below Cccp and decreases with temperature when the acetaldehyde concentration is above Cccp. 展开更多
关键词 peracetic acid liquid phase oxidation ACETALDEHYDE trickle bed
下载PDF
Boron promoted Fe^(3+)/peracetic acid process for sulfamethazine degradation:Efficiency,role of boron,and identification of the reactive species 被引量:1
4
作者 Yanhong Zhang Guangbing Liu +7 位作者 Yuzhu Xue Lichun Fu Yawei Qian Minhui Hou Xiang Li Chen Ling Ying Zhang Yuwei Pan 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2024年第1期72-85,共14页
In this work,boron(B)was used to promote Fe^(3+)/peracetic acid(Fe^(3+)/PAA)for the degradation of sulfamethazine(SMT).An SMT degradation efficiency of 9.1%was observed in the Fe^(3+)/PAA system over 60 min,which was ... In this work,boron(B)was used to promote Fe^(3+)/peracetic acid(Fe^(3+)/PAA)for the degradation of sulfamethazine(SMT).An SMT degradation efficiency of 9.1%was observed in the Fe^(3+)/PAA system over 60 min,which was significantly increased to 99.3%in the B/Fe^(3+)/PAA system over 10 min.The B/Fe^(3+)/PAA process also exhibited superior resistance to natural substances,excellent adaptability to different harmful substances,and good removal of antibiotics in natural fresh water samples.The mechanism of action of boron for Fe^(3+)reduction was determined using scanning electron microscopy(SEM),X-ray photoelectron spectroscopy(XPS),Fourier transform infrared(FT-IR)spectroscopy,density functional theory(DFT)calculations,and electrochemical tests.The dominant role of^(·)OH was confirmed using quenching experiments,electron spin resonance(EPR)spectroscopy,and quantitative tests.Organic radicals(R-O^(·))and Fe(IV)also significantly contribute to the removal of SMT.DFT calculations on the reaction between Fe^(2+)and the PAA were conducted to further determine the contribution from ^(·)OH,R-O^(·),and Fe(IV)from the perspective of thermodynamics and the reaction pathways.Different boron dosages,Fe^(3+)dosages,and initial pH values were also investigated in the B/Fe^(3+)/PAA system to study their effect of SMT removal and the production of the reactive species.Fe(IV)production determined the k_(R-O·+Fe(IV))value suggesting that Fe(IV)may play a more important role than R-O^(·).A comparison of the results with other processes has also proved that the procedure described in this study(B/Fe^(3+)/PAA)is an effective method for the degradation of antibiotics. 展开更多
关键词 BORON peracetic acid SULFAMETHAZINE DFT Reactive species
原文传递
Peracetic acid(PAA)-based pretreatment effectively improves medium-chain fatty acids(MCFAs)production from sewage sludge 被引量:1
5
作者 Yufen Wang Haixiao Guo +5 位作者 Xuecheng Li Xueming Chen Lai Peng Tingting Zhu Peizhe Sun Yiwen Liu 《Environmental Science and Ecotechnology》 SCIE 2024年第4期154-166,共13页
Peracetic acid(PAA),known for its environmentally friendly properties as a oxidant and bactericide,is gaining prominence in decontamination and disinfection applications.The primary product of PAA oxidation is acetate... Peracetic acid(PAA),known for its environmentally friendly properties as a oxidant and bactericide,is gaining prominence in decontamination and disinfection applications.The primary product of PAA oxidation is acetate that can serve as an electron acceptor(EA)for the biosynthesis of medium-chain fatty acids(MCFAs)via chain elongation(CE)reactions.Hence,PAA-based pretreatment is supposed to be beneficial for MCFAs production from anaerobic sludge fermentation,as it could enhance organic matter availability,suppress competing microorganisms and furnish EA by providing acetate.However,such a hypothesis has rarely been proved.Here we reveal that PAA-based pretreatment leads to significant exfoliation of extracellular polymeric substances(EPS)from sludge flocs and disruption of proteinic secondary structures,through inducing highly active free radicals and singlet oxygen.The production of MCFAs increases substantially to 11,265.6 mg COD L^(-1),while the undesired byproducts,specifically long-chain alcohols(LCAs),decrease to 723.5 mg COD L^(-1).Microbial activity tests further demonstrate that PAA pretreatment stimulates the CE process,attributed to the up-regulation of functional genes involved in fatty acid biosynthesis pathway.These comprehensive findings provide insights into the effectiveness and mechanisms behind enhanced MCFAs production through PAA-based technology,advancing our understanding of sustainable resource recovery from sewage sludge. 展开更多
关键词 Sewage sludge Medium-chain fatty acids(MCFAs) Extracellular polymeric substances(EPS) peracetic acid(PAA) Metabolic activity
原文传递
Kinetic study and DFT calculation on the tetracycline abatement by peracetic acid
6
作者 Dan-Ying Xing Xiao-Dan Zhao +1 位作者 Chuan-Shu He Bo Lai 《Chinese Chemical Letters》 SCIE CAS CSCD 2024年第9期346-350,共5页
Water contamination by tetracycline(TC)has emerged as an environmental concern owing to its widespread use and antibiotic resistance.Application of peracetic acid(PAA)in the water and wastewater treatment has recently... Water contamination by tetracycline(TC)has emerged as an environmental concern owing to its widespread use and antibiotic resistance.Application of peracetic acid(PAA)in the water and wastewater treatment has recently been proposed and demonstrated to be effective for TC abatement,yet the underlying reaction kinetics between the PAA and TC are not yet clear.To explore the reaction kinetics,the effect of solution pH on TC abatement by PAA is studied and the species-specific rate constants are calculated.The ability to donate and accept electrons for different species of TC and PAA is evaluated via density functional theory(DFT)calculations.The pH-dependent apparent second-order rate constants of TC abatement by PAA exhibits the parabolic shape with the maximum at p H 8.5(9.75 L mol^(-1)s^(-1)).This phenomenon is closely related to the speciation of TC and PAA,in which the reaction between PAAH and TTC^(2-)possesses the highest species-specific rate constants according to the kinetic simulation.Further DFT calculations suggest that the HOMO of TTCH^(+),TTC,TTC^(-),TTC^(2-)and the LUMO of PAAH and PAA-are–6.40,–6.26,–5.10,–4.94 e V and–0.24,0.60 e V,respectively.According to the DFT calculations,deprotonation of TC and PAA leads to an increase of the HOMO value of TC and the LUMO value of PAA.Furthermore,the HOMOTC–LUMOPAAvalues is in good agreement with the trend of species-specific rate constants,which can be used to evaluate the reactivity between PAA and TC with different species.This study provides the kinetic data and theoretical basis for the reaction of PAA and TC,which is critical for the application of PAA in the treatment of water and wastewater. 展开更多
关键词 peracetic acid TETRACYCLINE KINETICS Rate constants DFT calculation
原文传递
Peracetic acid catalytic activation using Co_(3)O_(4) nanocluster decorated graphitic carbon nitride for cefapirin degradation in water
7
作者 YIN ShiMei GAO YiXuan +4 位作者 CHEN Long LI Fan LIU XiaoNa QI Fei LIU Wen 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2024年第10期3103-3115,共13页
This study innovated cobalt-based catalytic nanocomposites(CCNs)for the heterogeneous activation of peracetic acid(PAA),a green and efficient advanced oxidation process for removing antibiotics from water.Commercial C... This study innovated cobalt-based catalytic nanocomposites(CCNs)for the heterogeneous activation of peracetic acid(PAA),a green and efficient advanced oxidation process for removing antibiotics from water.Commercial Co_(3)O_(4) catalysts exhibit limited activity due to stable electronic structures.To overcome this,CCNs were synthesized using a one-step condensation method,incorporating a size control strategy that anchors Co_(3)O_(4) nanoclusters within 4‒5 nm onto six-fold cavity of g-C3N4,simultaneously modifying the coordination environment of Co.This alteration significantly enhances the adsorption energy of PAA and catalytic activity compared to commercial Co_(3)O_(4).The improved performance of CCN2,in particular,is attributed to a shift in the cobalt d band center towards the Fermi level,facilitating electron delocalization and transfer,enhancing Co‒O bonding,and accelerating PAA decomposition.CCN2’s superior activity,with a cefapirin(CFP)degradation kinetic rate constant(k1=0.760 min^(−1))~11 times that of PAA direct oxidation(k1=0.070 min^(−1))and~5 times that of commercial Co_(3)O_(4)/PAA system(k1=0.164 min^(−1)),is due to its ability to generate dominant reactive species for antibiotic degradation,including alkoxy radicals(CH3C(=O)OO•),high valence metal(Co^(Ⅳ)(=O)^(2+)),and singlet oxygen(^(1)O_(2)),with the latter two being crucial for the degradation process.The degradation of CFP involved three mechanisms,including direct oxidation by PAA,decarboxylation,and open-ring reactions at nitrogen sites.This research provides insights into developing high-activity catalysts for efficient PAA activation and antibiotic removal,leveraging the strategy of shifting the transition metal d band center. 展开更多
关键词 peracetic acid Co_(3)O_(4)nanocluster high valence metal singlet oxygen cefapirin
原文传递
In-situ construction of Co(OH)_(2) nanoparticles decorated biochar for highly efficient degradation of tetracycline hydrochloride via peracetic acid activation 被引量:1
8
作者 Fengbin Sun Xudong Yang +5 位作者 Feng Shao Fan Li Zhicheng Pan Lin Qiao Ziniu Xiao Wen Liu 《Chinese Chemical Letters》 SCIE CAS CSCD 2023年第9期264-269,共6页
Peracetic acid(CH_(3)C(O)OOH,PAA)-based heterogeneous advanced oxidation process(AOP)has attacked intensive interests due to production of various reactive species.Herein,Co(OH)_(2)nanoparticles decorated biochar(Co(O... Peracetic acid(CH_(3)C(O)OOH,PAA)-based heterogeneous advanced oxidation process(AOP)has attacked intensive interests due to production of various reactive species.Herein,Co(OH)_(2)nanoparticles decorated biochar(Co(OH)_(2)/BC)was fabricated by a simple and controllable method,which was used to degrade tetracycline hydrochloride(TTCH)in water through PAA activation.The results indicated that 100%TTCH(C_(0)=10μmol/L)degradation efficiency was realized within 7 min at pH 7,with a high kinetic rate constant(k_(1))of 0.64 min^(-1)by the optimized Co(OH)_(2)/BC.Material characterizations suggested that Co(OH)_(2)nanoparticle was successfully decorated on biochar,leading to more active sites and electronic structure alteration of biochar,thus greatly promoting the catalytic cleavage of PAA for radicals production.Then,the reactive oxygen species(ROS)quenching experiments and electron paramagnetic resonance(EPR)analysis demonstrated the key species were alkoxyl radicals(R–O^(·),mainly CH_(3)CO_(2)^(·)and CH_(3)CO_(3)^(·)),HO^(·)and^(1)O_(2)in this system.Besides,density functional theory(DFT)calculation on Fukui index further revealed that the vulnerable sites of TTCH and three possible degradation pathways were proposed.This study can provide a new strategy for synthesis functional materials in PAA activation AOPs for removal of antibiotics in water. 展开更多
关键词 BIOCHAR peracetic acid(PAA) Tetracycline hydrochloride INTERMEDIATES DFT calculation
原文传递
Activation of peracetic acid by metal-organic frameworks(ZIF-67)for efficient degradation of sulfachloropyridazine 被引量:4
9
作者 Jun Duan Long Chen +3 位作者 Haodong Ji Peishen Li Fan Li Wen Liu 《Chinese Chemical Letters》 SCIE CAS CSCD 2022年第6期3172-3176,共5页
Peracetic acid(PAA)-based system is becoming an emerging advanced oxidation process(AOP)for effective removal of organic contaminants from water.Various approaches have been tested to activate PAA,while no previous re... Peracetic acid(PAA)-based system is becoming an emerging advanced oxidation process(AOP)for effective removal of organic contaminants from water.Various approaches have been tested to activate PAA,while no previous researches reported the application of metal-organic frameworks(MOFs)materials for PAA activation.In this study,zeolitic imidazole framework(ZIF)-67,a representative MOFs,was facile synthesized via direct-mixing method at room temperature,and tested for PAA activation and sulfachloropyridazine(SCP)degradation.The as-synthesized ZIF-67 exhibited excellent performance for PAA activation and SCP degradation with 100%of SCP degraded within 3 min,owing to the specific MOFs structure and abundant Co^(2+) sites.The pseudo-first-order kinetic model was applied to fit the kinetic data,with rate constant k_(1) of ZIF-67 activated PAA system 34.2 and 156.5 times higher than those of conventional Co_(3)O_(4)activated PAA and direct oxidation by PAA.Radical quenching experiments and electron paramagnetic resonance(EPR)analysis indicated that CH_(3)C(O)OO^(·)played a major role in this PAA activation system.Then,the Fukui index based on density functional theory(DFT)calculation was used to predict the possible reaction sites of SCP for electrophilic attack by CH_(3)C(O)OO^(·).In addition,the degradation pathway of SCP was proposed based on Fukui index values and intermediates detection,which mainly included the S-N bond cleavage and SO_(2)extrusion and followed by further oxidation,dechlorination,and hydroxylation.Therefore,ZIF-67 activated PAA is a novel strategy and holds strong potential for the removal of emerging organic contaminants(EOCs)from water. 展开更多
关键词 peracetic acid activation Metal-organic frameworks Zeolitic imidazole framework(ZIF)-67 Emerging organic contaminants Acetylperoxy radical DFT calculation
原文传递
Factors affecting production of nonaqueous peracetic acid in tubular packed reactors
10
作者 Tengyun ZHANG Li ZHONG +1 位作者 Karl T.CHUANG Hongbo FAN 《Frontiers of Chemical Science and Engineering》 SCIE EI CSCD 2008年第2期196-203,共8页
The synthesis of nonaqueous peracetic acid inacetone by acetaldehyde oxidation was carried out in atubular packed reactor. The influencing factors of thereacting system including packing material, oxygen carrier,and r... The synthesis of nonaqueous peracetic acid inacetone by acetaldehyde oxidation was carried out in atubular packed reactor. The influencing factors of thereacting system including packing material, oxygen carrier,and reactor configuration were investigated. Theresults show that porous materials are inappropriate forperacetic acid synthesis and only non porous materialwith appropriate surface area can provide good peraceticacid selectivity and yield. Among the six kinds of packingmaterial investigated, SA-5118 is the best one. As oxidizinggas, pure oxygen is superior to air. The optimumlength-to-inner diameter ratio of the reactor is about 40.Under the proper reaction conditions, the highest peraceticacid yield of 84.15% and the highest selectivity of93.34% can be achieved which indicates that the novelreacting system is effective and economical for nonaqueousperacetic acid production. 展开更多
关键词 back mixing tubular packed reactor peracetic acid ACETALDEHYDE
原文传递
Role of Disinfection in Food Industry
11
作者 G Sansebastiano R Zoni +1 位作者 R Zanelli L Bigliardi 《食品科学》 EI CAS CSCD 北大核心 2006年第11期159-163,共5页
At present microbiological risk are still the most frequent in the food industry and the disinfection is one of the procedures that can be carried out in the general prevention of foodborne infectious diseases. In the... At present microbiological risk are still the most frequent in the food industry and the disinfection is one of the procedures that can be carried out in the general prevention of foodborne infectious diseases. In the industrial process of food transformation the cleaning and disinfection procedures of surfaces and machinery have to be considered an integrate system with food production,a technological aspect that surely affects the finished product quality and safety. First of all to carry out properly these operations it is necessary that the factory and the equipment have been designed and constructed with high standard of hygiene to reduce the risk of contamination and to facilitate the sanitation. The procedures involve several stages which generally include pre-washing with water,cleaning,real disinfection,and a final rinsing with water. In order to assure a right disinfections of surfaces areas and of processing equipment the choice of disinfectant takes on particular importance. Some of the most widely used disinfectants include the hypochlorous acid,the chlorine dioxide and the peroxides like peracetic acid; the latter is widely used in soft drink and mineral water industries. The efficiency of these chemical agents depends on various factors as pH,temperature and the presence of organic substances with which the disinfectants can react to give by-products which can reduce the activity and can present toxicity. The use of hypochlorite may led to the formation of carcinogenic substance such as trialomethanes (THM) while the use of chlorine dioxide may lead to the formation of chlorites and chlorates. The peracetic acid is a good alternative compounds and it doesn’t lead to the formation of carcinogenic by-products. In our researches we evaluated the effectiveness of peracetic acid to inactivate some resistant micro-organism like hepatitis A virus; our results show that in practical application in CIP (cleaning in place) it’s necessary to use concentration of 600~1300mg/L of peracetic acid for 15~ 30min of contact time for an inactivation >99.99%. 展开更多
关键词 food industry DISINFECTION peracetic acid HAV
下载PDF
Sterilization and disinfection methods for decellularized matrix materials:Review,consideration and proposal 被引量:4
12
作者 Meihan Tao Tianrang Ao +8 位作者 Xiaoyan Mao Xinzhu Yan Rabia Javed Weijian Hou Yang Wang Cong Sun Shuang Lin Tianhao Yu Qiang Ao 《Bioactive Materials》 SCIE 2021年第9期2927-2945,共19页
Sterilization is the process of killing all microorganisms,while disinfection is the process of killing or removing all kinds of pathogenic microorganisms except bacterial spores.Biomaterials involved in cell experime... Sterilization is the process of killing all microorganisms,while disinfection is the process of killing or removing all kinds of pathogenic microorganisms except bacterial spores.Biomaterials involved in cell experiments,animal experiments,and clinical applications need to be in the aseptic state,but their physical and chemical properties as well as biological activities can be affected by sterilization or disinfection.Decellularized matrix(dECM)is the low immunogenicity material obtained by removing cells from tissues,which retains many inherent components in tissues such as proteins and proteoglycans.But there are few studies concerning the effects of sterilization or disinfection on dECM,and the systematic introduction of sterilization or disinfection for dECM is even less.Therefore,this review systematically introduces and analyzes the mechanism,advantages,disadvantages,and applications of various sterilization and disinfection methods,discusses the factors influencing the selection of sterilization and disinfection methods,summarizes the sterilization and disinfection methods for various common dECM,and finally proposes a graphical route for selecting an appropriate sterilization or disinfection method for dECM and a technical route for validating the selected method,so as to provide the reference and basis for choosing more appropriate sterilization or disinfection methods of various dECM. 展开更多
关键词 Decellularized matrix STERILIZATION DISINFECTION Irradiation Ethylene oxide Supercritical carbon dioxide peracetic acid Hydrogen peroxide ALCOHOL Antibiotic
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部