催化式红外发射器创制及农产品红外加工技术合作研究
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1.Lactobacillus rhamnosus from human breast milk shows therapeutic function against foodborne infection by multi-drug resistant Escherichia coli in mice
- 关键词:
- Lactic acid;Probiotics;Bacilli;Mammals;Drug interactions;Anti-inflammatory effects;Foodborne infections;Gut microbiota;Human breast milks;Increased safety;Lactic acid bacteria;Lactobacillus rhamnosus;Therapeutic functions
- Li, Na;Pang, Bing;Liu, Guanwen;Zhao, Xixi;Xu, Xiaoguang;Jiang, Chunmei;Yang, Baowei;Liu, Yanlin;Shi, Junling
- 2020年
- 会议
The emergence of multi-drug resistant (MDR) pathogens greatly challenges the development of new drugs. Probiotics with the ability to inhibit MDR pathogens offer advantages over chemical antibiotics and drugs due to increased safety and fewer side effects. This study reports that Lactobacillus rhamnosus SHA113 (isolated from breast milk) significantly inhibited MDR Escherichia coli both in vitro and in vivo. MDR E. coli caused more severe inflammatory effects. TNF-α and IL-6 levels increased, while the IL-10 content decreased in serum. MDR E. coli caused disturbance in the gut microbial balance, increased the total coliform, decreased lactic acid bacteria in feces, decreased Firmicutes, and increased both Bacteroidetes and Proteobacteria. At the end of the curing treatment, ampicillin (AMP) treatment significantly reduced lactic acid bacteria compared to total coliform in feces and exacerbated the increase of Proteobacteria caused by MDR E. coli. L. rhamnosus SHA113 treatment resulted in a more significant and faster decrease of total coliform in feces and a significant decrease of Proteobacteria in the gut microbiota. The increase of total coliform in feces (caused by MDR E. coli infection) was positively correlated with IL-6 and TNF-α and negatively correlated with IL-10 in serum. However, the increase of lactic acid bacteria in feces (caused by L. rhamnosus SHA113 treatment) was negatively correlated with serum TNF-α, indicating that SHA113 exerted anti-inflammatory effects. These results suggest that L. rhamnosus SHA113 has great potential for inhibiting infections by MDR E. coli and for regulating the gut flora balance. © The Royal Society of Chemistry 2020.
...2.Hydrogen and ethylene production through water-splitting and ethane dehydrogenation using BaFeZr-0.1O-3-0.9-δ mixed-conductors
- 关键词:
- Barium compounds;Ethane;Hydrogen production;Zirconium compounds;Iron compounds;Membranes;Dehydrogenation;Chemical conversion process;Ethane cracking;Ethane dehydrogenation;Ethylene production;Ion transport membranes;Mixed conductors;Oxidative dehydrogenations;Water splitting
- Dimitrakopoulos, G.;Schucker, R.C.;Derrickson, K.;Johnson, J.R.;Kopeć, K.K.;Shao, L.;Alahmadi, F.;Ghoniem, A.F.
- 《Symposium on Ionic and Mixed Conducting Ceramics 11, IMCC 2017 - 232nd ECS Meeting》
- 2017年
- October 1, 2017 - October 5, 2017
- National Harbor, MD, United states
- 会议
In this work, we investigated the application of ion transport membranes (ITM) in the co-production of hydrogen (H2) and ethylene (C2H4) through water (H2O) splitting and ethane (C2H6) oxidative dehydrogenation, respectively, using BaFe0.9Zr0.1O3-δ (BFZ) mixed ionic-electronic conducting (MIEC) materials. Experimental measurements showed that a 1.1mm thick BFZ membrane exhibited an oxygen flux (J02) of ≈ 2.0 μmole/cm2/sec when operating at T=900°C with inlet steam mole fraction at the feed side equal to XH2O = 50% and inlet ethane mole fraction at the fuel side equal to XC2H6 = 10%. Under the same conditions, ethane conversion and selectivity to ethylene were 95% and 83%, respectively. Lowering the temperature to T=850°C decreased JO2 to = 1.0 μmole/cm2/sec and conversion of ethane to 79%, but the selectivity to ethylene increased to 93%. The proposed technology shows significant performance advantages compared to traditional ethane cracking and hence is a promising method for chemical conversion processes. © The Electrochemical Society.
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