Oil and Gas: Midstream and Downstream

Petroleum Process and Product Analysis

Oil refining and raw natural gas processing has increasingly strict requirements for process and quality control. Bruker is dedicated to providing analytical solutions that thrive in the petrochemical industries’ rigorous operating environments that imposes unique analytical requirements.

Petrochemical Product Analysis

Petrochemical Product Analysis

Refinery and cracker operations have become more complex with tighter margins, requiring a renewed focus on process control, feedstock analysis, and product quality control. Advanced analysis of the composition of petroleum enables operators to optimize refinery operations more profitably. Additionally, expanding regulatory controls on fuels require reliable and easy to use routine analysis. Bruker is committed to the downstream and petrochemical segment, with dedicated solutions and expertise in implementing new or improved workflows. Bruker provides go to solutionsWe are your partner in petrochemical product analysis and process control solutions.

FT-NIR

FT-NIR in Fuel & Analysis

Gasoline, Diesel and Jet fuels require extensive testing in the laboratory for process optimization, blend optimization and efficiency and to reduce the instance of octane giveaway. Previously, this required many independent tests including simulated distillation, GC and Knock Engine Testing. New advances in Fourier Transform Near Infrared spectroscopy now mean that multiple chemical and& physical properties can be derived from one sample/one spectrum in seconds. Properties include:

  • RON, MON, PON
  • RVP, T5, T10, T50, T90, T95, IBP, FBP
  • Benzene, Aromatics, Olefins, Saturates

Bruker has developed unique solutions for the refinery fuels laboratories which includes calibrations developed using many thousands of fuel samples.

Molecular Classification

Petroleomics: The Molecular Classification of Petroleum

A detailed knowledge of the exact chemical composition of crude oil and crude oil fractions is in high demand within the oil industry. Crude oils with similar or even identical bulk chemical properties can behave completely different. Examples include reacting differently in the refinery processes, where specific compounds and compound classes can cause catalytic deactivation.

Flow assurance interests are with polar compounds in crude oil containing hetero atoms such as nitrogen, sulfur and oxygen having a high contribution in deposition and clogging of pipelines. Even in oil exploration, the exact chemical class information can be useful for reservoir connectivity studies. 

Therefore, detailed information on relative abundances of those problematic compound classes is of major interest.

The relative abundance of compound classes, as well as detailed core structural information of classes based on ring and double bond equivalents can be derived by ultra-high resolution mass spectrometry.

Crude oils can be analyzed without any sample purification within minutes using different ionization methods (APPI, ESI, LDI). Mass spectrometric data are then processed using advanced software solutions (PetroOrg/Composer).

Elemental Classification

Explore XRF Solutions for Petrochemical Standards

Elemental analysis is a crucial process control tool for the refining process: XRF is employed as a technique to quantify sulfur from the crude oil to the liquid streams and in the refined products as well as to quantify Ni, Fe and V in crude oils.: Since XRF can analyze the sample directly without digestion or dilution it is the technique that is widely employed as process tool.: Sulfur levels in fuels are regulated, compliance analysis can be performed with XRF by applying ASTM, ISO or other national norms such as ASTM D2622. Residual fuel oils as well as solid petcoke can be analyzed as well directly.

For the lowest detection limits, as well as for testing P, Pb , S,Ni,V and many more elements in a laboratory setting the S8 TIGER Series 2 WDXRF units are used by many refineries.

Smaller refineries and for regions where regulatory compliance for sulfur and ultra-low sulfur can be done with EDXRF (e.g. ISO 13032, ASTM D7220 and D4294) BRUKER offers the S2 POLAR with factory calibrated solutions.

IMO 2020 Low Sulfur in Fuel Regulations

The International Convention for the Prevention of Pollution from Ships (MARPOL) carriage ban on non-compliant fuel oil went into effect on March 1, 2020. Quickly and accurately measure sulfur in marine fuels to ensure bunker fuels meet regulations in Emission Control Areas and other restricted locations. This method follows ASTM D4294 higher concentration range of 0.1 to 5.0% Sulfur in Fuel and ISO 8754:2003. Suppliers, engineers, ship captains and inspectors can use our portable XRF Sulfur Measurement solutions at service labs, supply stations, on docks, in ports, and even aboard barges and ships. 

Bruker’s CTX portable XRF system provides a reliable and inexpensive verification of sulfur in fuel onboard or at the terminal. 

TD-NMR

TD-NMR Hydrocarbon Analysis

Time Domain Nuclear Magnetic Resonance (TD-NMR), also called Low Resolution NMR, is an affordable NMR solution for petroleum and processes analysis. Magnetic field relaxation times can be used to determine physical and chemical properties, including: 

Crude Oil Analyses

  • Viscosity
  • Droplet size distribution (oil-in-water, water-in-oil)
  • Hydrogen content

Distillation Monitoring

  • % Hydrogen in seconds (ASTM techniques)
  • Automated hydro-cracking process control

Oil Sand Separation

  • Real-time monitoring of bitumen, water, solvents in separation samples
  • Sample size: few mg to 1000g
  • No sample preparation necessary
  • Color, opacity does not affect measurement
  • Simple and short calibration procedure

NMR

NMR for Fuel Analysis

NMR has found application in the fuel industry since its inception as a commercial product, and the fuel additives field has since become a heavily studied area of the industry. Often, fuel companies will carry out this research themselves and use NMR to acquire detailed information on the chemical makeup of raw petroleum.

Zugehörige Produkte

Products for Petroleum Process and Product Analysis

CTX BenchTop / CounterTop XRF spectrometer.

CTX BenchTop XRF spectrometer.

Portable BenchTop XRF ideal for quick analysis of small or prepared samples: only 14 cm wide, light-weight (<7 kg), safety-interlocked, interactive touchscreen, and battery operated.
G4 ICARUS Series 2

G4 ICARUS Series 2

The combustion analyzer G4 ICARUS Series 2 with HF induction furnace and HighSenseTM detection is the ideal instrument for the rapid and precise carbon and sulfur determination in solids, especially metals and their alloys as well as other inorganic materials like ores, cements, minerals, ceramics, etc.
MATRIX-F - online FT-NIR Spektrometer

MATRIX-F - online FT-NIR Spektrometer

Online-FT-NIR-Spektrometer zur direkten Messung in Reaktoren und Rohrleitungen, für ein besseres Verständnis und eine bessere Steuerung des Prozesses
MPA II - FT-NIR Mehrzweck-Analysator

MPA II - Multi Purpose Analyzer

Leistungsstarkes Werkzeug für die Entwicklung anspruchsvoller Kalibriermethoden für Ihre Labor- oder Prozessanforderungen und dennoch einfach zu bedienen für QA/QC-Routineaufgaben.
S2 PUMA Series 2

S2 PUMA Series 2

Multielementanalyse von Kohlenstoff (C) bis Americium (Am) für einen weiten Anwendungsbereich in produktionsnaher Qualitätskontrolle sowie in Zentrallaboren. Mit Hilfe seiner einzigartigen HighSense Detektoren beherrscht der S2 PUMA auch anspruchsvolle Anwendungen in der Forschung und Entwicklung.
S6 JAGUAR

S6 JAGUAR

Exzellente analytische Leistung für die Elementanalyse mit innovativer Technologie in einer kompakten Größe.
S8 TIGER Serie 2

S8 TIGER Serie 2

Vielseitigstes Werkzeug für fortschrittliche Elementanalyse in Industrie und Forschung.
TANGO - Standalone FT-NIR Spektrometer

TANGO - Standalone FT-NIR Spektrometer

Bewährte Technologie kombiniert mit einer benutzerfreundlichen Touchscreen-Bedienung und einer geringen Stellfläche, ideal für Labore mit begrenztem Platzbedarf.
scimaX

scimaX

scimaX is powered by 2xR MRMS technology, bringing the "high hanging fruit" within easy reach.
solariX

solariX

The workhorse platform for high-field MRMS works at 12T or 15T - useful for ultra-complex mixture analysis such as petroleomics and dissolved organic materials.
mq-one

minispec mq-one

Der mq-one ist die neueste Ergänzung der TD-NMR-Systeme der minispec mq-Serie. Die preisgekrönte mq-Serie deckt ein breites Anwendungsspektrum ab und bietet Erweiterungsmöglichkeiten sowohl für die routinemäßige NMR-Qualitätskontrolle als auch für Forschung und Entwicklung. Der mq-one führt die Produktlinie der minispec mq-Serie weiter in den Bereich der industriellen Routineanwendungen.
mq20

minispec mq Serie

Die minispec mq-Serie bietet den umfassendsten Messfrequenzbereich, der heute bekannt ist und von 7,5 MHz für Proben mit großen Durchmessern über 10 MHz, 20 MHz und 40 MHz bis hin zum unvergleichlichen mq60 mit 60 MHz Betriebsfrequenz reicht.
minispec_lf_Series

minispec LF-Serie

Körperzusammensetzungsanalyse von Mäusen und Ratten