This site uses cookies. By continuing to browse the ConceptDraw site you are agreeing to our Use of Site Cookies.
This process flow diagram (PFD) example shows an amine treating system for the removal of gaseous hydrogen sulfide from gas streams. It is used in oil refineries and chemical plants. This PFD sample was redesigned from the Wikimedia Commons file: AmineTreating.png. [commons.wikimedia.org/ wiki/ File:AmineTreating.png]
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license. [creativecommons.org/ licenses/ by-sa/ 3.0/ deed.en]
"Amine gas treating, also known as gas sweetening and acid gas removal, refers to a group of processes that use aqueous solutions of various alkylamines (commonly referred to simply as amines) to remove hydrogen sulfide (H2S) and carbon dioxide (CO2) from gases. It is a common unit process used in refineries, and is also used in petrochemical plants, natural gas processing plants and other industries.
Processes within oil refineries or chemical processing plants that remove hydrogen sulfide are referred to as "sweetening" processes because the odor of the processed products is improved by the absence of hydrogen sulfide. An alternative to the use of amines involves membrane technology. Membranes are attractive since no reagents are consumed.
Many different amines are used in gas treating:
Diethanolamine (DEA),
Monoethanolamine (MEA),
Methyldiethanolamine (MDEA),
Diisopropanolamine (DIPA),
Aminoethoxyethanol (Diglycolamine) (DGA).
The most commonly used amines in industrial plants are the alkanolamines DEA, MEA, and MDEA. These amines are also used in many oil refineries to remove sour gases from liquid hydrocarbons such as liquified petroleum gas (LPG)." [Amine gas treating. Wikipedia]
The PFD example "Amine treating unit schematic diagram" was drawn using the ConceptDraw PRO diagramming and vector drawing software extended with the Chemical and Process Engineering solution from the Chemical and Process Engineering area of ConceptDraw Solution Park.
Process Flow Diagram (PFD)
Process Flow Diagram (PFD), kettle, reboiler, heater, cooler, diaphragm valve, dashed mid-line, indicator, discrete instrument, column, closed tank, centrifugal pump,
This PFD sample was redesigned from the Wikipedia file: NaturalGasCondensate.png.
"This is a schematic flow diagram of a typical facility for separating and recovering liquid condensate from raw natural gas."
[en.wikipedia.org/ wiki/ File:NaturalGasCondensate.png]
"Natural-gas condensate is a low-density mixture of hydrocarbon liquids that are present as gaseous components in the raw natural gas produced from many natural gas fields. It condenses out of the raw gas if the temperature is reduced to below the hydrocarbon dew point temperature of the raw gas.
The natural gas condensate is also referred to as simply condensate, or gas condensate, or sometimes natural gasoline because it contains hydrocarbons within the gasoline boiling range. Raw natural gas may come from any one of three types of gas wells:
(1) Crude oil wells - Raw natural gas that comes from crude oil wells is called associated gas. This gas can exist separate from the crude oil in the underground formation, or dissolved in the crude oil.
(2) Dry gas wells - These wells typically produce only raw natural gas that does not contain any hydrocarbon liquids. Such gas is called non-associated gas.
(3) Condensate wells - These wells produce raw natural gas along with natural gas liquid. Such gas is also non-associated gas and often referred to as wet gas." [Natural-gas condensate. Wikipedia]
The process flow diagram example "Natural gas condensate - PFD" was drawn using the ConceptDraw PRO software extended with the Chemical and Process Engineering solution from the Chemical and Process Engineering area of ConceptDraw Solution Park.
Process flow diagram (PFD)
Process flow diagram (PFD), vapor, horizontal, jacketed vessel, vaporizing equipment, reducer, off-sheet, pipelines, heater, cooler, diaphragm valve,
This PFD of jet fuel mercaptan oxidation treating was redrawn from Wikipedia file: ConvLPGMerox.png. [en.wikipedia.org/ wiki/ File:ConvKeroMerox.png]
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported icense. [creativecommons.org/ licenses/ by-sa/ 3.0/ deed.en]
"Merox is an acronym for mercaptan oxidation. It is a proprietary catalytic chemical process developed by UOP used in oil refineries and natural gas processing plants to remove mercaptans from LPG, propane, butanes, light naphthas, kerosene and jet fuel by converting them to liquid hydrocarbon disulfides.
The Merox process requires an alkaline environment which, in some of the process versions, is provided by an aqueous solution of sodium hydroxide (NaOH), a strong base, commonly referred to as caustic. In other versions of the process, the alkalinity is provided by ammonia, which is a weak base.
The catalyst in some versions of the process is a water-soluble liquid. In other versions, the catalyst is impregnated onto charcoal granules.
Processes within oil refineries or natural gas processing plants that remove mercaptans and/ or hydrogen sulfide (H2S) are commonly referred to as sweetening processes because they results in products which no longer have the sour, foul odors of mercaptans and hydrogen sulfide. The liquid hydrocarbon disulfides may remain in the sweetened products, they may be used as part of the refinery or natural gas processing plant fuel, or they may be processed further.
The Merox process is usually more economical than using a catalytic hydrodesulfurization process for much the same purpose." [en.wikipedia.org/ wiki/ Merox]
The process flow diagram (PFD) example "Jet fuel mercaptan oxidation treating" was drawn using the ConceptDraw PRO software extended with the Chemical and Process Engineering solution from the Chemical and Process Engineering area of ConceptDraw Solution Park.
Process flow diagram (PFD)
Process flow diagram (PFD), gate valve, electrically insulated, column, centrifugal pump,

chemical engineering, process engineering, process flow diagram symbols, process and instrumentation diagram, process diagrams Chemical and Process Engineering

chemical engineering, process engineering, process flow diagram symbols, process and instrumentation diagram, process diagrams
This chemical engineering solution extends ConceptDraw PRO v.9.5 (or later) with process flow diagram symbols, samples, process diagrams templates and libraries of design elements for creating process and instrumentation diagrams, block flow diagrams (BFD
This is a schematic process flow diagram of the processes used in a typical oil refinery.
This process flow diagram (PFD) example was redesigned from the Wikimedia Commons file: RefineryFlow.png. [commons.wikimedia.org/ wiki/ File:RefineryFlow.png]
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license. [creativecommons.org/ licenses/ by-sa/ 3.0/ deed.en]
"An oil refinery or petroleum refinery is an industrial process plant where crude oil is processed and refined into more useful products such as petroleum naphtha, gasoline, diesel fuel, asphalt base, heating oil, kerosene and liquefied petroleum gas. Oil refineries are typically large, sprawling industrial complexes with extensive piping running throughout, carrying streams of fluids between large chemical processing units. In many ways, oil refineries use much of the technology of, and can be thought of, as types of chemical plants. The crude oil feedstock has typically been processed by an oil production plant. There is usually an oil depot (tank farm) at or near an oil refinery for the storage of incoming crude oil feedstock as well as bulk liquid products.
An oil refinery is considered an essential part of the downstream side of the petroleum industry." [Oil refinery. Wikipedia]
The PFD example "Process flow diagram - Typical oil refinery" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Chemical and Process Engineering solution from the Chemical and Process Engineering area of ConceptDraw Solution Park.
Process Flow Diagram (PFD)
Process Flow Diagram (PFD), column,
This process flow diagram (PFD) of a typical crude oil distillation unit as used in petroleum crude oil refineries was redrawn from Wikipedia file: Crude Oil Distillation Unit.png. [en.wikipedia.org/ wiki/ File:Crude_ Oil_ Distillation_ Unit.png]
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license. [creativecommons.org/ licenses/ by-sa/ 3.0/ deed.en]
"An oil refinery or petroleum refinery is an industrial process plant where crude oil is processed and refined into more useful products such as petroleum naphtha, gasoline, diesel fuel, asphalt base, heating oil, kerosene and liquefied petroleum gas. Oil refineries are typically large, sprawling industrial complexes with extensive piping running throughout, carrying streams of fluids between large chemical processing units. In many ways, oil refineries use much of the technology of, and can be thought of, as types of chemical plants. The crude oil feedstock has typically been processed by an oil production plant. There is usually an oil depot (tank farm) at or near an oil refinery for the storage of incoming crude oil feedstock as well as bulk liquid products.
An oil refinery is considered an essential part of the midstream side of the petroleum industry." [en.wikipedia.org/ wiki/ Oil_ refinery]
The process flow diagram (PFD) example "Crude oil distillation" was drawn using the ConceptDraw PRO diagramming and vector drawing software extended with the Chemical and Process Engineering solution from the Chemical and Process Engineering area of ConceptDraw Solution Park.
Process flow diagram (PFD)
Process flow diagram (PFD), vapor, horizontal, jacketed vessel, vaporizing equipment, heater, cooler, heat exchanger, intersecting flowlines, fired heater, column, centrifugal pump, air-blown, cooler,
The vector stencils library "Instruments" contains 72 symbols of control instruments and measuring devices: meters and gauges, and callouts, text boxes, and inserts.
Use these shapes to create annotated process flow diagrams (PFD), flow control, manufacturing processes, and distribution system diagrams in the ConceptDraw PRO software extended with the Chemical and Process Engineering solution from the Chemical and Process Engineering area of ConceptDraw Solution Park.
www.conceptdraw.com/ solution-park/ engineering-chemical-process
Indicator local
Indicator local, indicator, discrete instrument,
Indicator remote
Indicator remote, indicator, discrete instrument,
Indicator auxiliary
Indicator auxiliary, indicator, discrete instrument,
CRT local
CRT local, CRT, shared display,
CRT remote
CRT remote,
CRT auxiliary
CRT auxiliary, CRT,  shared display,
PLC local
PLC local, PLC, programmable logic control,
PLC auxiliary
PLC auxiliary, PLC, programmable logic control,
PLC remote
PLC remote, PLC, programmable logic control,
Computer local
Computer local, computer, computer function,
Computer auxiliary
Computer auxiliary, computer, computer function,
Computer remote
Computer remote, computer, computer function,
Light local
Light local, light,
Light remote
Light remote, light,
Light auxiliary
Light auxiliary, light,
Indicator auxiliary (dashed)
Indicator auxiliary (dashed), dashed mid-line, indicator, discrete instrument,
Indicator remote (dashed)
Indicator remote (dashed), dashed mid-line, indicator, discrete instrument,
Steam traced auxiliary
Steam traced auxiliary, steam traced, steam traced instrument,
Steam traced remote
Steam traced remote, steam traced, steam traced instrument,
Steam traced local
Steam traced local, steam traced, steam traced instrument,
Level meter auxiliary
Level meter auxiliary, level meter,
Level meter remote
Level meter remote, level meter,
Level meter local
Level meter local, level meter,
Pressure gauge diaphragm
Pressure gauge diaphragm, pressure gauges,
Pressure gauge
Pressure gauge, pressure gauges,
Pressure gauge liquid filled
Pressure gauge liquid filled, pressure gauge,
Strain gauge
Strain gauge, strain gauge, pressure,
Thermometer bi-metallic
Thermometer bi-metallic, thermometer,
Thermometer gas
Thermometer gas, thermometer,
Thermometer general
Thermometer general, thermometer,
Thermometer glass
Thermometer glass, thermometer,
Thermometer liquid
Thermometer liquid, thermometer,
Thermometer resistance
Thermometer resistance, thermometer,
Thermometer thermocouple
Thermometer thermocouple, thermometer,
Flowmeter electromagnetic
Flowmeter electromagnetic, flowmeter,
Flowmeter general
Flowmeter general, flowmeter,
Flowmeter nozzle
Flowmeter nozzle, flowmeter,
Flowmeter orifice
Flowmeter orifice, flowmeter,
Flowmeter positive displacement
Flowmeter positive displacement, flowmeter,
Flowmeter turbine
Flowmeter turbine, flowmeter,
Flowmeter variable area
Flowmeter variable area, flowmeter,
Flowmeter Venturi
Flowmeter Venturi, flowmeter,
Level meter capacitive
Level meter capacitive, level meter,
Level meter conductive
Level meter conductive, level meter,
Level meter displacer
Level meter displacer, level meter,
Level meter float
Level meter float, level meter,
Level meter general
Level meter general, level meter,
Level meter sonic
Level meter sonic, level meter,
Indicator analoque
Indicator analoque, indicator,
Indicator digital
Indicator digital, indicator,
Indicator general
Indicator general, indicator,
Recorder analoque
Recorder analoque,  recorder,
Recorder digital
Recorder digital,  recorder,
Recorder general
Recorder general, recorder,
Converter
Converter, converter,
Converter 2 (1st half filled)
Converter 2 (1st half filled), converter,
Converter 3 (2nd half filled)
Converter 3 (2nd half filled), converter,
Venturi
Venturi, venturi, flow nozzle,
Venturi (pressure taps)
Venturi (pressure taps), venturi, flow nozzle,
Flowmeter
Flowmeter, flowmeter,
Rotameter
Rotameter, rotameter,
Vortex sensor
Vortex sensor, vortex sensor,
Propeller meter
Propeller meter, propeller meter,
Generic utility
Generic utility, generic utility,
Operator box
Operator box, operator box,
Operator box 2 (1st half filled)
Operator box 2 (1st half filled), operator box,
Operator box 3 (2nd half filled)
Operator box 3 (2nd half filled), operator box,
AND gate
AND gate, AND gate,
OR gate
OR gate,
NOT gate
NOT gate, NOT gate,
Correcting element
Correcting element, correcting element,
Diamond
Diamond, diamond,