The HTTNS-9000 automatic sulfur and nitrogen analyzer uses the ultraviolet fluorescence method to determine the total sulfur content and the chemiluminescence method to determine the nitrogen content. This enhances the ability to resist impurity interference, avoids the cumbersome operation of the titration cell in the coulometric method and the resulting unstable factors, and thus greatly improves the sensitivity of the instrument. The key components of the system adopt imported devices, which ensures the reliable performance of the whole machine. Application fields: environmental protection, chemical industry, biological industry, petroleum, energy.

Feature: High degree of automation

Based on the Windows Chinese operating interface, direct human-machine dialogue is available. The computer controls data collection, processing, storage, and printing. The instrument automatically adjusts gas flow, automatically injects samples, automatically cleans, automatically changes samples, automatically generates standard curves, automatically goes to sleep after the analysis process, can be set to wake up regularly, and *realizes unattended analysis.

Instrument execution standards：

SH/T 0689－2000　Method for Determination of Total Sulfur Content in Light Hydrocarbons, Engine Fuels and Other Petroleum Products (Ultraviolet Fluorescence Method）

ASTM D 5453 -2006 Standard Test Method for Determination of Total Sulfur in Light Hydrocarbons, Spark-Ignition Engine Fuels, Diesel Engine Oils, and Engine Oils by Ultraviolet Fluorescence Measurement

ASTM D6667-2014 Standard Test Method for Determination of Total Volatile Sulfur Content in Gaseous Hydrocarbons and Liquefied Petroleum Gases by Ultraviolet Fluorescence Method

ASTM D7183-2012 Standard Test Method for Determination of Total Sulfur in Aromatics and Related Compounds by Ultraviolet Fluorescence Method.

EN ISO 20846:2004 Standard Title: Petroleum Products – Determination of Sulfur Content in Motor Vehicle Fuels – Ultraviolet Fluorescence Method

GB/T 17930-2011 motor gasoline

GB/T 19147-2009 automotive diesel oil

ISO 20846-2011 Determination of Sulfur Content in Petroleum Products and Motor Fuels

BS EN 15486-2007 Ethanol is a blended component of petroleum. Determination of sulfur content
SH/T 0657－1998　Method for Determination of Trace Nitrogen in Liquid Petroleum Hydrocarbons (Oxidative Combustion and Chemiluminescence Method）
ASTM D4629－2010 Standard Test Method for Determination of Trace Organically Bound Nitrogen in Liquid Petroleum Hydrocarbons by Injection/Insertion of Oxidizing Fuel and Chemiluminescence

ASTM D5762 -2010 Test Method for Determination of Nitrogen in Petroleum and Petroleum Products by Ship Inlet Chemiluminescence Method

ASTM D6069-2001—Standard Test Method for Determination of Trace Nitrogen in Hydrocarbons for Aviation by Oxidative Combustion and Reductive Pressure Chemiluminescence Detection.

System Configuration：

Standard configuration: Computer + HTTNS-9000 system + automatic sampler (16-position or 110-position）

Technical Parameters of HTTNS-9000 Automatic Sulfur and Nitrogen Analyzer：

Basic parameters:

Sample type: Liquid

Determination method: Ultraviolet fluorescence method (S), Chemiluminescence method (N)

Sample injection volume: Liquid sample: 2-25μL

Measurement range：0.05～10000mg/L   (S)  ；0.05～10000mg/L   (N)

measurement accuracy：

concentration value (ppm)	injection volume（μL）	RSD(％)
0.1～1.0	20	10
1～10	10	6
10～1	10	2
＞100	10	1

detection limit：0.1ppm

Temperature control range: room temperature ~1300℃

Temperature control accuracy：±1℃

Gas source requirements: High-purity argon: purity of 99.98% or higher

　　　　　               High-purity oxygen: purity above 99.98%

Power Supply：AC220V±22V，50Hz±0.5Hz，1500 W

Overall dimensions: Main unit:505(W)×541(D)×960(H)mm

Weight: Main unit:40kg

HTTNS-9000Advantages of Full-automatic Sulfur and Nitrogen Analyzer

The instrument adopts a vertical sampling mode.

It realizes automatic cleaning of the sampling needle and automatic replacement of samples, and the program can be set according to requirements.

A fully automatic sampler with 16 or more positions is selected, featuring accurate positioning. Once set, it can perform fully automatic detection and automatically set the sampling volume, enabling unattended and automatic analysis.

The gas flow rate is precisely controlled by a mass flow meter without manual adjustment.

The gas pressure and temperature are precisely controlled by corresponding sensors.

The computer controls the entire process of analysis, data processing, etc., and displays the working status of the whole process. The standard curve can be automatically generated.

Imported high-quality furnace wires are used to extend the service life of the cracking furnace. The data processing software has an over-temperature protection and automatic shutdown function. When the temperature exceeds the set upper limit, the instrument will automatically cool down and enter a protection state.

The uniquely designed fluorescent sulfur reaction chamber has an automatic compensation function for the intensity of the ultraviolet light source, with high sensitivity and low baseline noise.

The unique nitrogen reaction chamber enhances the reaction intensity between nitric oxide and ozone, and quickly discharges exhaust gas to reduce tailing.

It is equipped with an aromatic hydrocarbon barrier filter system with a selective permeable membrane and a detection system, which prevents contamination.

A specially made quartz cracking tube, which does not need to be disassembled or replaced, completely solves the problem that the combustion tube is prone to carbon deposition.

The instrument is equipped with a gas filtration and purification system.

In case of abnormal gas flow rate or pressure, the instrument will automatically cool down for protection.

The gas pipelines are connected with ball clamps for easy maintenance.

The instrument can set the cracking furnace temperature during hibernation and the wake-up time. After the sample analysis is completed, the instrument will automatically enter the hibernation state, and at the set wake-up time, it will automatically start working without the need for operators to be present.

Key components are imported, which reduces instrument noise and improves detection sensitivity.