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>植物乙烯氣體監(jiān)測系統(tǒng)--ETD

植物乙烯氣體監(jiān)測系統(tǒng)--ETD

直接聯(lián)系

上海澤泉科技股份有限公司

荷蘭

產(chǎn)品規(guī)格型號
參考報價:

面議

關(guān)注度:

926

產(chǎn)品介紹

全球檢測限和靈敏度**的植物乙烯測量系統(tǒng)

*適合超高靈敏度測量,特別是連續(xù)監(jiān)測

主要功能

該系統(tǒng)主要用于植物研究的乙烯監(jiān)測,如生長發(fā)育、基因表達(dá)、植物病原體的相互作用、與其他植物激素的相互作用、蔬果收貨后儲存、抗逆性研究(干旱、高溫、重金屬)等。其中檢測儀ETD-300結(jié)合激光技術(shù)與聲學(xué)照相技術(shù),實(shí)時快速測量乙烯(C2H4)氣體**濃度;閥門控制箱VC-6完全自動化和電腦控制,接一個即可以使單個氣體檢測儀實(shí)現(xiàn)6個樣品的同時測量,單個乙烯檢測儀可以接一個或多個閥門控制箱;烴分解器CAT-1則利用鉑金顆粒催化烴氧化分解為水蒸氣和CO2,為系統(tǒng)提供無烴干擾的樣品空氣。

應(yīng)用領(lǐng)域
用于環(huán)境、醫(yī)學(xué)、農(nóng)業(yè)、工業(yè)、生態(tài)、生物等監(jiān)測領(lǐng)域。特別適合植物生理、發(fā)育研究的超靈敏乙烯測量。

產(chǎn)品特點(diǎn)
實(shí)時測量,連續(xù)無間斷監(jiān)測
測量范圍:0-5ppmv,檢出限:0.3ppbv
靈敏、快速、穩(wěn)定性好,無干擾
操作簡便,結(jié)實(shí)耐用,所需維護(hù)少
友好的用戶操作軟件界面
系統(tǒng)組成
乙烯氣體檢測儀ETD-300
閥門控制箱VC-6
烴分解器CAT-1
注:系統(tǒng)中3個儀器都可以單獨(dú)使用。
主要技術(shù)參數(shù)
參數(shù)
乙烯氣體檢測儀ETD-300
閥門控制箱VC-6
烴分解器CAT-1
測量范圍
0-5 ppmv
/
/
檢出限
0.3 ppbv
/
/
噪音(2σ)
0.3 ppbv
/
/
精度
<1% 0.3 ppbv
0.2% FS
/
穩(wěn)定性
<1%超過24小時
/
/
零點(diǎn)漂移
+/-1 ppbv
/
/
測量時間
5 s
/
/
響應(yīng)時間
30 s (當(dāng)流量為1 l/h)
300 ms
/
流量
0.25-5 l/h
0.25-5 l/h
0-30 l/h
校準(zhǔn)
使用標(biāo)準(zhǔn)混合氣,每年一次
/
/
通道數(shù)量
/
6(可增加至12, 18)
/
測定模式
/
連續(xù)流動測定,積累后測定
/
氣體供應(yīng)壓力
/
0.5-4 Bar
/
過壓閥
5 Bar時打開
/
濾膜類型
/
粒徑>7µm
/
**稀釋濃度
/
/
100 ppm
輸出濃度
/
/
< 100 pptv
壓力
/
/
0-6 atm
活性催化劑
/
/
Pt/SiO2
催化溫度
/
/
150 – 250
預(yù)熱時間
30 min
/
< 10 min
尺寸
50x50x14cm (48.3cm 3U機(jī)架)
40x50x10cm (48.3cm 2U機(jī)架)
40x25x20cm (48.3cm 3U半機(jī)架)
工作溫度/濕度
10-28 /0-95 % RH
5-40/0-95 % RH
5-40 /0-95 %RH
電源要求
90-264 VAC, 47-63 Hz
90-264 VAC, 47-63 Hz
90-264 VAC, 47-63 Hz
功耗
<150 W
<60 W
85 W
進(jìn)氣接口
1/8'' Swagelok
用于接外徑1/8''的管
1/8'' Swagelok
數(shù)據(jù)輸出
USB RS232,CSV格式
USBCSV格式
/
顯示
藍(lán)色背光LCD
LED指示燈
/
部分利用ETD發(fā)表的文獻(xiàn)
1. Cristescu S.M., Persijn S.T., te Lintel Hekkert S., Harren F.J.M. Laser-based systems for trace gasdetection in life sciences, (2008), Appl. Phys. B 92, 343-349
2. de Gouw J.A., Hekkert S. T. L., Mellqvist J., Warneke C., Atlas E.L., Fehsenfeld F.C., Fried A., Frost G.J., Harren F.J.M., Holloway J.S., Lefer B., Lueb R., Meagher J.F., Parrish D.D., Patel M., Pope L., Richter D., Rivera C., Ryerson T.B., Samuelsson J., Walega J., Washenfelder R.A., Weibring P., Zhu X., Airborne Measurements of Ethene from Industrial Sources Using Laser Photo-Acoustic Spectroscopy, (2009), Environ. Sci. Technol. 43, 2437–2442
3. McDonnell L., Plett J.M., Andersson-Gunneras S., Kozela J.D., Dominique V.D. S., Bernard R.G., Björn S., Sharon R., Ethylene levels are regulated by a plant encoded 1-aminocyclopropane-1-carboxylic acid deaminase, (2009), Physilogia Plantarum 136, 94-109
4. Clarke S.M., Cristescu S.M., Miersch O., Harren F.J. M., Wasternack C., Mur L.A. J., Jasmonates act with salicylic acid to confer basal thermotolerance in Arabidopsis thaliana, (2009), New Phytologist 182:175-187
5. Hermans C., Vuylsteke M., Cristescu S.M., InzéD., Verbruggen N., Systems analysis of the responses to long term magnesium, deficiency and restoration in Arabidopsis thaliana highlights a possible role of the circadian clock in the plant adaptation, (2010), New Phytologist 187: 132-144
6. Cristescu S.M., de Martinis D., te Lintel Hekkert S., Parker D.H., Harren F.J.M., Ethylene production by Botrytis cinerea in vitro and in tomato fruit , (2002), Applied and Environmental Microbiology 68, 5342-5350
7. Cristescu S.M., Woltering E.J., Harren F.J.M., Real time monitoring of ethylene during fungal-plant interaction by laser-based photoacoustic spectroscopy in “Food Mycology, A Multifaceted Approach to Fungiand Food”, (2006), J. Dijksterhuis and R.A. Samson, Eds., Traylor and Francis New York, USA 25-47
8. Staal M., Stal L.J., te Lintel-Hekkert S., Harren F.J.M., Light action spectra of N2 fixation by heterocystous cyanobacteria from the Baltic Se, (2003), Journal of Phycology 39, 668-677
9. Severin, J Stal L., Light dependency of nitrogen fixation in a coastal cyanobacterial mat, (2008), The ISME Journal 2, 1077–1088; doi:10.1038/ismej.2008.63
10. Photoacoustic trace gas detection of ethene released by UV-induced lipid peroxidation in humans, S. Cristescu, R. Berkelmans, S. te Lintel Hekkert, B. Timmerman, D. Parker, F. Harren, Proceedings SPIE Vol. 4162 (Bellingham, USA, 2000) 101-107
11. Moeskops B.W.M., Steeghs M.M.L., van Swam K., Cristescu S.M., Scheepers P.T.J., Harren F.J.M., “Realtime trace gas sensing of ethylene, propanal and acetaldehyde from human skin in vivo”. (2006), Physiological Measurement 27, 1187-1196
12. Roeder S., Dreschler K., Wirtz M., Cristescu S.M., Harren F.J.M., Hell R., Piechulla B.. SAM levels, gene expression of SAM synthetase, methionine synthase and ACC oxidase, and ethylene emission from N. suaveolens flowers. (2009), Molecular Biology 70, 535-546
13. Salman A., Filgueiras H., Cristescu S., Lopez-Lauri F., Harren F., Sallanon H., Inhibition of wound-induced ethylene does not prevent red discoloration in fresh-cut endive (Cichorium intybus L.). (2009), Eur. Food Res. Technol. 228, 651-657
14. Mur L. A.J., Lloyd A.J., Cristesc S.M.u, Harren F.J.M., Hal M.l., Smith A., Biphasic ethylene production during the hypersensitive response in Arabidopsis: A window into defence priming mechanisms? (2009), Plant Signalling & Behaviour 4 (7), 610 – 613
15. Yordanova Z.P., Iakimova E.T., Cristescu S.M., Harren F.J. M., Kapchina-Toteva V.M., Woltering E.J., Involvement of ethylene and nitric oxide in cell death in mastoparan-treated unicellular alga Chlamydomonas reinhardtii. (2010), Cell Biology International 34, 301-308
16. Benlloch-González M., Romera J., Cristescu S., Harren F., María Fournier J., Benlloch M., K+ starvation inhibits water-stress-induced stomatal closure via ethylene synthesis in sunflower plants, (2010), Journal of Experimental Botany 61, 1139 – 1145
17. Yordanova Z.P., Kapchina – Toteva V.M., Woltering E.J., Cristescu S.M., Harren F.J.M., Iakimova E.T., Mastoparan- induced cell death signaling in Chlamydomonas Reinhardtii. (2009), Biotechnology & Biotechnological equipment-special issue, Vol.23: 730-734
18. Hélène Lequeux, Christian Hermans, Stanley Lutts, Nathalie Verbruggen, Response to copper excess in Arabidopsis thaliana: Impact on the root system architecture, hormone distribution, lignin accumulation and mineral profile, (2010), Plant Physiology and Biochemistry 48, 673-682
19. Lloyd A.J., William Allwood J., Winder C., Dunn W.B., Heald J., Cristescu S.M., Harren F.J. M., Goo-dacre R., Smith A.R., Mur L.A. J., Metabolomic approaches indicate that cell wall modifications play a major role in ethylene-mediated resistance against Botrytis cinerea, (2011),Plant Journal 67(5), 852-868.
20. Moniuszko G., Laska-Oberndorff A., Cristescu S.M., Harren F.J.M., Sirko A., Ethylene emitted by nylon membrane filters questions their usefulness to transfer plant seedlings between media, (2011), BioTechniques 51:doi 10.2144/000113762
21. Gallego-Bartolomé J., Arana M.V., Vandenbussche F., Žádníková P., Minguet E.G., Guardiola V., Van Der Straeten D., Benkova E., AlabadíD., Blázquez M. A., Hierarchy of hormone action controlling apical hook development in Arabidopsis, (2011), The Plant Journal 67, 622–634
22. Liesbeth D.G., Laury C., Jasper D., Jan D., Ivo R., Wim H. V., Thomas M., Gerrit T. S. B., Andy L. P., Nicholas P. H., Peter H., Dominique V.D.S., Blackwell Publishing Ltd Reduced gibberellin response affects ethylene biosynthesis and responsiveness in the Arabidopsis gai eto2-1 double mutant, (2008), New Phytologist 177, 128–141
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