Top Gas Density Measurement in a Fluid Catalytic Cracker (FCC)

Application Scope

Industry:        Refining
Product:         Gas Density Meter

Introduction

The top gas generated at the top of a distillation column in a petroleum refinery’s fluid catalytic cracker(FCC) is used to produce gasoline and LPG. As the composition of this gas varies depending on the running conditions of the cracker as well as the composition of the crude oil, its density (= molecular weight) must be constantly monitored and measured. The GD402 Gas Density Meter has been introduced for this explosion protected application. It features an intrinsically safe and explosionproof design, fast response, and a dust-proof, anti-corrosive, and flameproof construction.

Expected Benefits

  • Ensures stable and rapid measurement of gas density under hazardous conditions
  • Capable of displaying specific gravity and molecular weight readings derived from the density data
  • Greatly reduces the workload by ensuring continuous and accurate measurement 

Process Overview

In the petroleum refining system, an atmospheric distillation column or reduced-pressure distillation column is used to refine crude oil into gasoline, kerosene, and lubrication oil. In addition, the petroleum refining system incorporates an FCC to distill high-octane gasoline and LPG from the heavy contents of the crude oil. In many refineries the FCC unit serves as the primary unit, converting, or cracking low-value crude oil heavy ends into a variety of higher value, light products. The primary function of the FCC unit is to produce gasoline. Modern FCC units can process a wide variety of feedstock and can adjust operating conditions to maximize production of gasoline, middle distillate olefins (LCO) or light olefins to meet different market demands.

The top gas generated in the fraction column of the FCC goes through a heat exchanger and is then pumped to a high pressure. The resulting gas content is transferred to the LPG recovery system and the liquid content to the gasoline generation system. In this process, it is important to measure the density (specific gravity) of the gas because the data is essential as a critical parameter in controlling the operation of the FCC. In addition to being used to monitor the system and the quality of the product, this measurement can also help prevent pump pressure surges.

The GD402 Gas Density Meter has been introduced for this explosion protected application. It features an intrinsically safe and explosion-proof design, fast response, and a dust-proof, anti-corrosive, and flameproof construction. GD402 will ensure stable and rapid measurement of gas density under hazardous conditions. It is capable of displaying specific gravity and molecular weight readings derived from the density data, and it will greatly reduce the workload by ensuring continuous and accurate measurement.

Structure of FCC

 

Solution Details

Measurement System

Gas Density Meter (explosionproof type) :  GD40/...
Converter : GD402--E-E/...
Sampling system : Customized
Cubicles for detector and converter : Customized

Utilities

Power supply :
  Rated voltage, frequency ;  100 to 240 V AC, 50/60 Hz
  Operating voltage, frequency ;  85 to 264 V AC, 47 to 63 Hz

Power consumption: 12 W (max.)
  Steam ; 120 to 180°C (300 to 700 kPa)
                  Saturated steam (15 to 20 kg/h)

 Field Data

Process conditions

  Measurement point : Outlet of the top fraction column in the FCC
  Temperature : 34°C
  Pressure : 75 kPa to 185 kPa        
  Humidity : Wet        
  Gas composition : O2, N2, CO, H2, H2S, C1 to C5
  Dust : None

Measurement Range

  1,600 to 1,800 kg/Nm3

 

Flow Diagram of Sampling System

Notes

  • The cubicles for the detector and converter are separated to prevent the gas in the sampling section from cooling and liquefying while the converter is operating.
  • The capillary tubes for introducing the gas that is to be measured and the inside of the cubicles are heated with steam so that the heavy contents (C5 or more) will not liquefy.

 

Related Industries

  • Pétrole et Gaz (raffinage et distribution)

    Ces dernières années, l'industrie pétrolière et gazière en aval a été confrontée à un nombre croissant de défis. Ceux-ci comprennent les caractéristiques changeantes des matières premières à traiter, le vieillissement des installations et des équipements de traitement, l'augmentation du coût de l'énergie, le manque d'opérateurs d'usine qualifiés capables de faire fonctionner une raffinerie de manière sûre et efficace, et les exigences en constante évolution du marché et du client.

    Au fil des ans, Yokogawa s'est associé à de nombreuses sociétés en aval pour fournir des solutions industrielles axées sur la résolution de ces défis et problèmes. Les solutions de Yokogawa ont aidé les propriétaires d'usines à atteindre une rentabilité maximale et une sécurité durable dans leurs usines.

  • Raffinage

    Dans un marché en constante évolution, les raffineries sont considérées non seulement comme des unités de traitement du brut, mais aussi comme des centres de profit. Dans le même temps, il existe une conscience aiguë du besoin de sécurité dans ces installations. Une solution de production totale qui englobe la planification, l'ordonnancement, la gestion et le contrôle est nécessaire pour atteindre les objectifs à long terme en matière de rentabilité, d'efficacité et de protection de l'environnement. Avec des années d'expertise dans le domaine de l'automatisation, Yokogawa peut vous apporter des solutions globales abordables pour une meilleure opérabilité et un monde plus propre.

Les produits et solutions liés

  • GD40 Detector

    The GD40 detector is designed for intrinsically safe and flameproof, explosion protected applications. It is designed to be virtually maintenance free for all accepted applications.

  • GD402 Analyzer

    The Model GD402 gas density analyzer and Model GD40 detector not only provide continuous measurement of gas density, but also several other valuable parameters, including specific gravity and molecular weight. The Model GD402 is a rugged microprocessor-based converter designed in two versions to meet both general area and explosion-proof application requirements.


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