Processus de jaugeage de soufre XRT/XRA
Mesure totale de soufre (0.02% à 6% S)
NEX XT
Le NEXT XT de Rigaku est le processus de jauge de la nouvelle génération pour les mesure de soufre total de haut niveau (0.02% à 6% S) de pétrole brut, de mazout d’huile combustible et d’autre hydrocarbure visqueux, y compris les résidus.
Jauge de soufre en ligne
Cette jauge de processus Transmission/Absorption a rayon X (XRT /XRA) polyvalente, compacte et robuste est spécifiquement optimisée pour les besoins totaux d'analyse de soufre des raffineries, des pipelines, des opérations de mélange, les terminaux de soute et autres installations de stockage. Les applications pour le NEXT XT comprennent le mélange combustible de soute pour répondre à la convention MARPOL Annexe VI des restrictions de soufre, de détection d'interface de différents combustibles de qualité livrés par l'intermédiaire des pipelines, de mélange des matières premières des raffineries et de surveillance, et la surveillance de la qualité du brut à la collecte à distance et des installations de stockage.
Méthode de transmission / absorption (XRT / XRA) a rayon X
Le jaugeage de transmission (XRT) a longtemps été une technique reconnue pour la mesure de la teneur en soufre total (S) dans les flux de traitement des hydrocarbures lourds. Qu'il soit utilisé pour la commutation de pipeline, le mélange de pétrole brut ou pour doser ou mélanger combustibles de soute et marin, le Rigaku NEX XT analyseur de processus XRT est bien adapté aux environnements a processus rigoureux, avec des pressions allant jusqu'à 1480 psig et une température allant jusqu'à 200 ° C. La mesure par transmission de rayons X consiste à mesurer l'atténuation d'un faisceau monochromatique de rayons X à une énergie spécifique (21 keV) qui est spécifique au soufre (S). Dans la pratique, un courant de procédé passe à travers une cuve à circulation ou le soufre (S), dans la matrice d'hydrocarbure, absorbe les rayons X transmis entre une source de rayons X et un détecteur. L’intensité des rayons X enregistré est inversement proportionnelle à la concentration de soufre, donc les plus hauts niveaux de soufre transmettre le moins de rayons X
NEX XT specifications
Sulfur Analysis Range
Process Conditions
Ambient Conditions
Communications
Required Inputs
Optional Inputs
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Process Connection
Area Classifications
Air Supply
Power Requirements
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NEX XT applications
Pipelines, Upgrading Facilities and Refineries
This versatile, compact and robust X-Ray Transmission (XRT) process gauge was specifically optimized for the total sulfur analysis needs of refineries, pipelines, blending operations, heavy oil upgrading, bunkering terminals and other storage facilities.
Applications include bunker fuel blending to meet MARPOL Annex VI sulfur restrictions, interface detection of different grade fuels delivered via pipelines, refinery feedstock blending and monitoring, and the quality monitoring of crude at remote collection and storage facilities.
MARPOL Regulations
IMO ship pollution rules are contained in the "International Convention on the Prevention of Pollution from Ships", known as MARPOL 73/78. On 27 September 1997, the MARPOL Convention was amended by the "1997 Protocol," which includes Annex VI titled "Regulations for the Prevention of Air Pollution from Ships". MARPOL Annex VI sets limits on NOx and SOx emissions from ship exhausts and prohibits deliberate emissions of ozone depleting substances. The Rigaku NEX XT is the perfect tool to assay marine bunker fuels for blending to meet emissions regulation compliance.
3rd Generation Technology
The new Rigaku NEX XT system is faster, more sensitive and far more compact than competitive systems and provides continuous, reliable detection of sulfur at pressures up to 1480 psig and 200ºC. Rigaku NEX XT can operate as a stand-alone analyzer or provide real time closed loop control when tied into a blending or plant wide automation system.
Among its other key features are a simplified user interface, reduced standards requirement, automatic density compensation, automatic water compensation, password protection, and standard platform for communicating sulfur, density, and water content to a plant-wide DCS. Due to its unique design and robust construction, sample conditioning and recovery systems are typically not required.
On-line sulfur in heavy oils
On-line, real time X-ray Transmission (XRT) measurment of sulfur (S) in heavy or light oils to satisfy the needs of refineries, pipelines, blending operations, bunkering terminals and other storage facilities. Applications include bunker fuel blending to meet MARPOL Annex VI sulfur restrictions, interface detection of different grade fuels delivered via pipelines, refinery feedstock blending and monitoring, diesel/kerosene blending or production, and the quality monitoring of crude at remote collection and storage facilities.
Background
While in-line sulfur gauging, for blending, switching and QC, has been around for years, older technologies never delivered on their promise because those systems did not produce consistent measurements. For the accurate on-line determination of sulphur, the new Rigaku NEX XT resolves those past issues and is thus the perfect tool for blending operations supplying marine bunker fuels and crude feedstock for refineries. With uniquely engineered hardware and novel proprietary software technologies, the new Rigaku NEX XT system is faster, more sensitive and far more compact than previous generation systems and provides continuous, reliable detection of sulfur from 200 parts-per-million (ppm) to 6.0 wt. %, with analysis times as short as 1 second. The Rigaku NEX XT can operate as a stand-alone analyzer or provide real time closed loop control when tied into a blending or plant wide automation system.