你好,欢迎来到试验技术专业知识服务系统

LGR水同位素分析仪(δ2H, δ17O, δ18O)

仪器编号
912-0032
照片
类型名称
同位素质谱仪(Isotope ratio mass spectrometer )
仪器参数
  • 产地类别
    进口仪器
    • 生产厂家
    LGR
    仪器介绍
            水同位素分析仪(IWA-45EP)是LGR水同位素测量设备的集大成者,是目前世界上唯一一款可同时测量所有主要水分子同位素(H2O, H2HO, H217O, H218O)的分析仪。对于液态水样品,IWA-45EP可以最快的速度同步测量δ2H, δ17O和δ18O,默认程序(每样品6次重复)可以达到110个未知样品/天;对于水汽同位素测量,IWA-45EP可以最快2Hz的采集频率同时测量δ2H, δ17O, δ18O以及H2O摩尔分数,最高测量水汽浓度可以达到60000 ppm以上。用户仅需通过一个简单的命令就可以实现液态水和气态水两种测量模式的切换。“EP型”分析仪结合了专利的内部控温技术,为客户提供超稳定的测量,确保仪器漂移最小化,并提供无与伦比精密度和最高的准确度。
    同所有的LGR分析仪一样,IWA-45EP实时提供高分辨率激光吸收光谱,使用户能够全面掌握和诊断仪器的性能表现;采用了内置计算机(Linux OS将病毒风险降到最低)以提供数据的连续存储和测量等功能;具有远程控制功能,用户可以通过网络在任意地点对分析仪进行操作,也可以通过远程登录实时共享数据,并进行仪器诊断。
    IWA-45EP包含了先进的数据后处理软件,自动执行液态水测量的分析程序,替代了之前由研究者在数据采集之后需要由人工进行的大量工作;能自动执行数据分析与校准功能,图形化显示测量结果,诊断仪器运行状态。后处理软件还包含了LGR专利的光谱污染诊断技术(SCI),能通过详细的分析高分辨率吸收光谱,检查、量化并修正水样中有机污染物的干扰。
     
    特点:
    1. 世界上第一台能同时测量δ2H、δ17O和δ18O的设备
    2. 兼具液态水和气态水同位素连续测量功能
    3. 液态水测量继承了LWIA-30d的优点,更高的实际测量精度
    4. 理想的野外水汽同位素测量设备,集高精度、宽量程、快速响应、低能耗、高稳定性于一身
    5. 秒级快速切换液态水 / 气态水两种测量状态
    6. 专利的光谱污染诊断技术(SCI),提供整个生态环境精确的同位素测量
     
    性能指标:
    重复性/精度--液态水高速度模式(1σ,110未知样品/天):
    保证精度:δ2H<0.5‰,δ17O<0.1‰,δ18O<0.1‰
    典型精度:δ2H<0.3‰,δ17O<0.08‰,δ18O<0.08‰
    重复性/精度--液态水高精度模式(1σ,30未知样品/天):
    保证精度:δ2H<0.2‰,δ17O<0.03‰,δ18O<0.03‰
    典型精度:δ2H<0.15‰,δ17O<0.025‰,δ18O<0.025‰
    重复性/精度--气态水模式(1σ,10s/100s):
    δ2H:0.5‰ / 0.2‰
    δ18O:0.15‰ / 0.05‰
    δ18O:0.15‰ / 0.05‰
     [H2O]:0.2% / 0.07%
    测量速度:
    液态水:800注入/天(130个样品,其中110个未知样品)
    气态水:最高可达2Hz(响应时间<6秒时需外置泵)
    水汽同位素测量范围:
    3000~60000 ppm(非冷凝)
    水汽同位素可选量程:
    0~70000 ppm
    水汽同位素最大漂移(15分钟平均,标准温度压力,24小时)
    δ2H:0.5‰
    δ17O:0.2‰(IWA-45EP
    δ18O:0.2‰
    H2O:0.1%
    液态水进样量:
    <1μL/针,可调
    液态水样品盐度:
    <4%
    环境条件:
    样品温度:5~50 ℃(液态水);-20~50 ℃(气态水)
    操作温度:0~45 ℃
    环境湿度:0~100% RH,无冷凝
    温度控制精度:
    0.003 ℃
    压力控制精度:
    0.001 torr;
    输出:
    数字(RS 232)、以太网、USB
    电力需求
    115/230 VAC,50/60 Hz,180 W(包含所有组件)
    尺寸与重量
    27.9 cm(H)x 96.5 cm(W)x 55.9 cm(D),50 kg
     
    订货信息:
    型号Model):
    912-0032
    可选附件:
    1. 908-0008-9001:自动进样系统,包括控制软件
    2. 908-0004-9002/3:水汽同位素标气发生器
    3. 908-0003-9001或MIU-377-16:16道多路器
    4. 908-0003-9002或MIU-374-8:8道多路器
    5. 908-0008-9520:野外多路水样连续监测配件包,包括进样盘、进样T型接口、4通道蠕动泵等
    6. 904-0002:数据采集软件(包含USB/RS 232线缆),可记录并同步多台LGR分析仪或者其他设备(如GPS、风速计等)输出的数据
    7. 耗材:空气过滤器、1.2µl注射器、隔膜(50/包)、2 ml样品杯(100/包)、样品杯帽(100/包)、10µm过滤器、干空气罐、8目干燥剂、标样(5种)和0.45μm过滤器
     
    产地:
    美国Los Gatos Research公司
     
    应用文献:
    "Identification and correction of spectral contamination in 2H/1H and 18O/16O measured in leaf, stem, and soil water"
    Natalie M. Schultz, Timothy J. Griffis, Xuhui Lee and John M. Baker
    Rapid Communications in Mass Spectrometry, volume 2011, 25, 3360–3368
    "Hydrological Tracer Studies at a DOE IFRC Site in Rifle, Colorado"
    Gupta, M.; Williams, K. H.; Berman, E. S.; Conrad, M. E.
    American Geophysical Union, Fall Meeting 2010, abstract #H23E-1269
    "Advances in High-Frequency Liquid Water Isotope Analyzer for Hydrological Measurements in the Field"
    Owano, T. G.; Berman, E. S.; Leen, J.; Baer, D. S.
    American Geophysical Union, Fall Meeting 2010, abstract #H51B-0886
    "High-Frequency Field Deployable Isotope Analyzer for Hydrological Applications"
    Elena Berman, Manish Gupta, Chris Gabriell, Tina Garland, Jeff McDonnell
    European Geophysical Union, 2010, May 3 - 7, 2010
    "Discrepencies between Isotope Ratio Infrared Spectroscopy and Isotope Ratio Mass Spectronmetry for the Stable Isotope Analysis of Plant and Soil Waters"
    Adam G. West, Gregory R. Goldsmith, Paul D. Brooks, Todd E. Dawson
    Rapid Communications in Mass Spectrometry, 24(14: 1948-1954
    "High-frequency field-deployable isotope analyzer for hydrological applications "
    Manish Gupta, Oregon State University
    The Consortium of Universities for the Advancement of Hydrologic Science, Incorporated (CUAHSI) , Cyberseminars, March 12, 2010
    "High-Frequency Field Deployable Isotope Analyzer for Hydrological Applications"
    Manish Gupta, Elena Berman, Chris Gabrielli, Tina Garland, J. McDonnell
    Water Resources Research, Water Resour. Res., 45, W10201, doi:10.1029/2009WR008265
    "Installing, Running, and Maintaining the Liquid-Water Stable Isotope Analyzer"
    P.K.Aggarwal, T.Kurttas, B.Newmann, A.Tanweer
    IAEA, Water Resources Program
    "Laser Spectroscopic Analysis of Liquid Water Samples for Stable Hydrogen and Oxygen Isotopes"
    International Atomic Energy Commission
    IAEA, Training Course Series 35
    "High-Precision Laser Spectroscopy D/H and 18O/16O Measurements of Microliter Natural Water Samples"
    G. Lis, L. I. Wassenaar, and M. J. Hendry
    Anal. Chem., Vol, 80 (1), 287-293, 2008
    "High Resolution Pore Water δ2H and δ18O Measurements by H2O(liquid)-H2O(vapor) Equilibration"
    L.I. Wassenaar, M.J . Hendry, V.L. Chostner, and G.P. Lis
    Environmental Science and Technology, 2008, 42 (24), pp 9262–9267
    "Can hydrogen isotopic ratios in plant lipids provide a quantitative proxy for aridity?"
    Feakins S., Sessions A.
    Pacific Climate Workshop
    2007 May 13-16; Asilomar State Conference Grounds, Pacific Grove, CA
    "Can lipid D/H ratios be a quantitative proxy for aridity?"
    Feakins S., Sessions A.
    ACS Summer Meeting, 2007 August 19-23, Boston MA
    "Memory effects in compound-specific D/H analysis by GC-P-IRMS"
    Wang, Y.; Sessions, A. L.
    AGU Fall Meeting, 2007 December 10-14, Abstract B13A-0889
    "Properties of air mass mixing and humidity in the subtropics from measurements of the D/H isotope ratio of water vapor at the Mauna Loa Observatory"
    David Noone, Joseph Galewsky, Zachary D. Sharp, John Worden, John Barnes, Doug Baer, Adriana Bailey, Derek P. Brown, Lance Christensen, Eric Crosson, Feng Dong, John V. Hurley, Leah R. Johnson, Mel Strong, Darin Toohey, Aaron Van Pelt
    JOURNAL OF GEOPHYSICAL RESEARCH, Vol. 116, D22113, doi:10.1029/2011JD015773, 2011
    "Investigating high-frequency variations in stable isotope composition of atmospheric water vapour"
    F. Aemisegger, H. Sodemann, S. Pfahl, P. Graf, P. Sturm, H. Wernli
    EGU - Geophysical Research Abstracts, poster EGU2011-7686-1
    "Autonomous Instrumentation For Fast, Continuous and Accurate Isotopic Measurements of Water Vapor (δ18O, δ2H, H2O) in the Field"
    Liem, J. S.; Dong, F.; Owano, T. G.; Baer, D. S.
    American Geophysical Union, Fall Meeting 2010, abstract #A51E-0186
    "Partitioning evapotranspiration across gradients of woody plant cover: Assessment of a stable isotope technique"
    Lixin Wang, Kelly K. Caylor, Juan Camilo Villegas, Greg A. Barron?Gafford, David D. Breshears, and Travis E. Huxman
    Geophysical Research Letters, Vol. 37, L09401, doi:10.1029/2010GL043228, 2010
    "Development and Deployment of a Water Isotope Analyzer for Accurate, Continuous and High-Frequency Measurements of δ18O and δ2H in Liquid Water and Water Vapor"
    Feng Dong and Doug Baer
    European Geophysical Union, May 3 - 7, 2010
    "Continuous measurements of water vapor isotopic compositions using an integrated cavity output spectrometer: calibrations and application"
    L. Wang, K. Caylor, and D. Dragoni
    Geophysical Research Abstracts, Vol. 11, EGU2009-3310-1, 2009
     

    相似仪器