- 比利時StuvEX防爆與防火設備
- 美國RCS腐蝕產品監測設備
- 盧森堡ROTAREX羅達萊克斯滅火系...
- 意大利GM SISTEMI火花探測及...
- 西班牙ADIX安迪克斯抑制爆炸系統
- 備盈倍BS&B防爆**系統
- 賀爾碧格Newson Gale防爆靜...
- 賀爾碧格hoerbiger防爆**系...
- 意大利Aircom愛科粉塵防爆設備
- 法國Stif斯緹福粉塵防爆設備
- 西班牙Adix安迪克斯隔爆閥抑制系統...
- 瑞士Rico瑞科爆炸隔離閥
- 意大利Control logic康洛...
- 意大利Control logic康洛...
- 意大利科恩除塵和防爆產品
- 美國Argus火花和金屬探測以及回收...
- 美國Edwards愛德華消防報警系統
- 美國Kidde凱德廚房滅火和空氣采樣...
- 美國Marioff HI-FOG高壓...
- 挪威納斯克激光氣體分析儀
- 德國Rembe認必泄壓爆破片及隔離塵...
- 英國Amal阻火器
- 英國Marvac呼吸閥和緊急泄放閥以...
- 英國Marston防爆板和爆破片
- 美國ZOOK防爆板
- 瑞士Rico-Ventex隔爆閥
- 德國GreCon格雷康火花探測器以及...
- 德國Eltex埃爾特克斯防爆靜電接地...
- 美國迪康氣體檢測設備
- 美國PAC實驗室和在線分析儀器
- 奧德姆/安姆特儀器產品
- 美盛環境監測行業成套系統工程
- 美盛流體污染控制,過濾,分離凈化產品
- 美國Norman不銹鋼高壓過濾器
- 美國施羅德過濾器以及過濾系統
- 韓國杜科給水設備以及泵系統
- 美國Cameron卡麥龍過程控制和閥...
- 美國BARTON測量儀器儀表
- 美國NUFLO儀表產品
- 美國clif mock采樣設備和系統
- Caldon超聲波技術產品
- 美國Cameron/Barton卡麥...
- 美國Pentail濱特爾油液凈化設備...
- 韓國雷尊泰克REZONTECH火焰探...
- 韓國CSA Bestouch火焰探測...
- 科馬特泰克色譜技術產品
- 英國愛丁堡Edinburgh ins...
- 歐美Cerex/AquaRead等進...
- 歐文凱利自控閥設備
- 德爾格Draeger**檢測設備
- 美國Det-tronics火焰探測器...
- 泵閥控制
- 美國Honeywell生命**產品
- 密析爾濕度和露點儀表
- 美國TIF公司鹵素檢漏儀
- 美國Teledyne Analyti...
- 美國泰科SCOTT健康和**
- 日本日置HIOKI電測產品
- 英國梅克羅尼(MICRONICS)超...
- 美國AII氧分析儀
產品詳情
簡單介紹:
LGA-4000 In-Situ Gas Analysis System過程激光氣體分析系統
利用可調諧二極管激光吸收光譜技術(TDLAS)。
詳情介紹:
LGA-4000 In-Situ Gas Analysis System過程激光氣體分析系統
利用可調諧二極管激光吸收光譜技術(TDLAS)。
LGA - 4000是采用由激光發射器,接收器和電子接口,以及可選的中央處理單元。發射器和接收器是直接安裝在對面一工藝管道/管道另一工作。發射器發射一個橫跨到接收單位管徑選定波長的激光束。
由此產生的電子信號,然后傳送到電子接口或中央處理單元。
TDLAS優勢和好處。
提供即時響應過程的變化。
消除了樣品處理的成本和維護問題。
可應用于氧氣,一氧化碳,二氧化碳,甲烷,氨,氯化氫,并H2Ov分析。從背景.
消除交叉干擾氣體和粉塵,極大地提高測量精度~
TDLAS工作原理:。.
氣體分子在吸收特定波長的電磁波譜的能量。這些波長比吸收線不同,但基本上沒有吸收。
通過發送包含通過一個樣氣的興趣化合物的混合物的光束,光束和調整的波長對目標氣體的吸收線之一,然后測量的那束的吸收,我們可以監測濃度對在光束的路徑長度利**體。
激光器的快速調諧能力,用于快速和反復掃描跨選定氣體吸收線的波長。對于氧氣,吸收線為760納米。
在掃描過程中激光功率的發射是通過樣品氣體通過的部分是衡量一個探測器。當波長調諧到被關閉的吸收線,發射功率比上線時較高。
通過測量離線的相對振幅進行網上傳輸,采用LGA - 4000能夠提供一個準確的利益和高度敏感的氣體分析。
應用領域:。.
鋼鐵工業(高爐,焦爐,轉爐煤氣等).
石化(FCC催化劑再生,SRU的尾氣處理裝置等)**% %**電廠(煤及重燃油鍋爐,袋式,省煤器等).
廢棄物的能源(合成氣)生產。垃圾焚燒。
水泥和玻璃工業;氨/尿素裝置。
相關應用公告。
- 應用在鋼鐵行業的LGA-3500/LGA-4000。
- 應用在石化行業LGA-3500/LGA-4000。
- 應用采用LGA - 4000 - 氨滑監測。
水分版本。
- 微量氯堿,甲苯二異氰酸酯(TDI)的,以及聚氨酯工業濕度分析。
- 電子微量二氯乙烷(EDC)的,四氯化碳水分分析,小型斷路器在PVC和MDI行業。
Model LGA-4000 In-Situ Gas Analysis System
Using Tunable Diode Laser Absorption Spectroscopy (TDLAS)
The LGA-4000 is comprised of a laser transmitter, receiver with electronic interface, and optional central processing unit. The transmitter and receiver are installed directly opposite one another on the process pipe / duct work. The transmitter launches a laser beam with a selected wavelength across the diameter of the pipe to the receiver unit.
The resulting electrical signal is then sent to the electronic interface or central processing unit.
TDLAS Advantages & Benefits
TDLAS Theory of Operation:
Gas molecules absorb energy at specific wavelengths in the electromagnetic spectrum. At wavelengths slightly different than these absorption lines, there is essentially no absorption.
By transmitting a beam of light through a sample gas mixture containing the compound of interest, and tuning the beam's wavelength to one of the target gas's absorption lines and then measuring the absorption of that beam, we can monitor the concentration of the gas of interest over the beam's path length.
The laser's fast tuning capability is used to quickly and repeatedly scan the wavelength across the selected gas absorption line. For O2, the absorption line is 760 nanometers.
During the scanning process the portion of emitted laser power that is passed through the sample gas is measured by a photodetector. When the wavelength is tuned to be off of the absorption line, the transmitted power is higher than when it is on the line.
By measuring the relative amplitudes of the off-line to on-line transmission, the LGA-4000 is able to provide an accurate and highly sensitive analysis of the gas of interest.
Application Areas:
Relevant Application Bulletins
- Applying the LGA-3500/LGA-4000 in the Steel industry
- Applying the LGA-3500/LGA-4000 in the Petrochemical industry
- Applying the LGA-4000 - Ammonia Slip Monitoring
Moisture version
- Trace moisture analysis in chlorine alkali, toluene diisocyanate (TDI), and polyurethane industries
- Trace moisture analysis in electron dichloride (EDC), carbon tetrachloride, and MCB in PVC and MDI industries
利用可調諧二極管激光吸收光譜技術(TDLAS)。
LGA - 4000是采用由激光發射器,接收器和電子接口,以及可選的中央處理單元。發射器和接收器是直接安裝在對面一工藝管道/管道另一工作。發射器發射一個橫跨到接收單位管徑選定波長的激光束。
由此產生的電子信號,然后傳送到電子接口或中央處理單元。
TDLAS優勢和好處。
提供即時響應過程的變化。
消除了樣品處理的成本和維護問題。
可應用于氧氣,一氧化碳,二氧化碳,甲烷,氨,氯化氫,并H2Ov分析。從背景.
消除交叉干擾氣體和粉塵,極大地提高測量精度~
TDLAS工作原理:。.
氣體分子在吸收特定波長的電磁波譜的能量。這些波長比吸收線不同,但基本上沒有吸收。
通過發送包含通過一個樣氣的興趣化合物的混合物的光束,光束和調整的波長對目標氣體的吸收線之一,然后測量的那束的吸收,我們可以監測濃度對在光束的路徑長度利**體。
激光器的快速調諧能力,用于快速和反復掃描跨選定氣體吸收線的波長。對于氧氣,吸收線為760納米。
在掃描過程中激光功率的發射是通過樣品氣體通過的部分是衡量一個探測器。當波長調諧到被關閉的吸收線,發射功率比上線時較高。
通過測量離線的相對振幅進行網上傳輸,采用LGA - 4000能夠提供一個準確的利益和高度敏感的氣體分析。
應用領域:。.
鋼鐵工業(高爐,焦爐,轉爐煤氣等).
石化(FCC催化劑再生,SRU的尾氣處理裝置等)**% %**電廠(煤及重燃油鍋爐,袋式,省煤器等).
廢棄物的能源(合成氣)生產。垃圾焚燒。
水泥和玻璃工業;氨/尿素裝置。
相關應用公告。
- 應用在鋼鐵行業的LGA-3500/LGA-4000。
- 應用在石化行業LGA-3500/LGA-4000。
- 應用采用LGA - 4000 - 氨滑監測。
水分版本。
- 微量氯堿,甲苯二異氰酸酯(TDI)的,以及聚氨酯工業濕度分析。
- 電子微量二氯乙烷(EDC)的,四氯化碳水分分析,小型斷路器在PVC和MDI行業。
| Industrial Products |
|
|
|
Using Tunable Diode Laser Absorption Spectroscopy (TDLAS)
The LGA-4000 is comprised of a laser transmitter, receiver with electronic interface, and optional central processing unit. The transmitter and receiver are installed directly opposite one another on the process pipe / duct work. The transmitter launches a laser beam with a selected wavelength across the diameter of the pipe to the receiver unit.
The resulting electrical signal is then sent to the electronic interface or central processing unit.
TDLAS Advantages & Benefits
- Provides immediate response to process changes
- Eliminates sample handling cost and maintenance issues
- Can be applied for O2, CO, CO2, CH4, NH3, HCL, and H2Ov Analysis
- Eliminates cross interferences from background gases and dust, significantly improving measurement accuracy
TDLAS Theory of Operation:
Gas molecules absorb energy at specific wavelengths in the electromagnetic spectrum. At wavelengths slightly different than these absorption lines, there is essentially no absorption.
By transmitting a beam of light through a sample gas mixture containing the compound of interest, and tuning the beam's wavelength to one of the target gas's absorption lines and then measuring the absorption of that beam, we can monitor the concentration of the gas of interest over the beam's path length.
The laser's fast tuning capability is used to quickly and repeatedly scan the wavelength across the selected gas absorption line. For O2, the absorption line is 760 nanometers.
During the scanning process the portion of emitted laser power that is passed through the sample gas is measured by a photodetector. When the wavelength is tuned to be off of the absorption line, the transmitted power is higher than when it is on the line.
By measuring the relative amplitudes of the off-line to on-line transmission, the LGA-4000 is able to provide an accurate and highly sensitive analysis of the gas of interest.
Application Areas:
- Steel Industry (Blast Furnace, Coke Ovens, Converter Coal Gas, etc)
- Petrochemical (FCC Catalyst Regeneration, SRU Tail Gas Treating Unit, etc)
- Power Plants (Coal & Heavy-Oil Fired Boilers, Baghouse, Economizer, etc)
- Waste-to-Energy (Syngas) Production; Waste Incineration
- Cement & Glass Industries; Ammonia / Urea Plants
Relevant Application Bulletins
- Applying the LGA-3500/LGA-4000 in the Steel industry
- Applying the LGA-3500/LGA-4000 in the Petrochemical industry
- Applying the LGA-4000 - Ammonia Slip Monitoring
Moisture version
- Trace moisture analysis in chlorine alkali, toluene diisocyanate (TDI), and polyurethane industries
- Trace moisture analysis in electron dichloride (EDC), carbon tetrachloride, and MCB in PVC and MDI industries