The vertical combustion analyzer nitrogen sulfur offers the most features out of the smallest footprint. Completely optimized for your (liquid) hydrocarbon sample analysis. It offers fast combined TN/TS analysis, top detection performances, smart operation features, data-driven robustness, and a fully loaded method library. All in one single configuration.
The analyzer produces accurate results rapidly and suggests user actions based on extensive data collection. A solution you can rely on. The Xplorer-V NS is designed to provide the best analytical experience when running (liquid) hydrocarbon applications. The analysis are conducted according to relevant international test methods, such as ASTM, DIN, ISO, and UOP.
Features & Benefits
Features | Benefits |
---|---|
Most Compact Analyzer on the Market | Saves valuable laboratory space, making it ideal for small or crowded labs. |
Available with Vectra Autosampler (up to 250 Sample Positions) | Enhances productivity by automating high-throughput sample analysis. |
Fast Analysis: 2 – 6 Minutes | Delivers rapid results, minimizing wait times and maximizing efficiency. |
Xpro-V™ Combustion Tube | Ensures precise and consistent combustion for accurate measurements. |
Ultra-Low Detection Limits: 10 ppb (S), 10 ppb (N) | Provides superior sensitivity for detecting trace amounts of nitrogen and sulfur. |
Nitrogen Oxide Correction Technology (NO-CT) | Improves accuracy by compensating for nitrogen oxide interference. |
Auto-Clean Function | Reduces maintenance effort and ensures consistent performance over time. |
Easily Accessible Filters and Permeation Tube | Simplifies maintenance and minimizes downtime. |
Data-Driven Robustness with TEIS Software Counter-Center™ | Enhances operational reliability with advanced monitoring and control. |
Instrument Performance Dashboards | Provides real-time insights into system status and performance for proactive management. |
Operated through PC or Incorporated Touch Screen | Offers flexible and user-friendly operation to suit various preferences and setups. |
Product Details
Background
Regulating bodies all over the world have set challenging low levels of allowed Sulfur and Nitrogen concentrations in organic fuels for the present and near future in order to protect the environment.
Oil refineries produce a wide range of air and water emissions that can be harmful to the environment. Some of the contaminants are present in the original crude oil, while others are a result of refinery processes and operations. Air emissions include Sulfur dioxide (SO2) and Nitrogen dioxide (NO2), which have to be monitored.
During the production process of oil products, Nitrogen oxides (NOx) are formed in the gases of the furnaces, which are corrosive to steel. In addition, during catalyst reforming, naphtha is pretreated to remove contaminants like Chlorine, Sulfur and Nitrogen which could poison the catalyst. Right before the end-product is sent to blending and storage, the oil product is treated once more to remove the last amounts of Nitrogen and Sulfur completely.
Refineries need to monitor and control the Total Nitrogen and Total Sulfur content in the feedstock. This is the only way to tune their processes at the highest level of efficiency and also important in order to protect the quality of fuels which leads to a cleaner environment.