Petroleum & energy generation ion Imran khan

 Petroleum

CH4+H2O<=>CO+3H2

Ch4+1/2O2<=>CO+2H2

Coal gasification

C+H2OCO+H2

Hydrocarbons are combined to form heavier molecules resembling gasoline

CH3CH+CH2+CH3CH2CH<catalyst =>CH2+CHCH2CHCH3CH3

Thermal polimerization>500-600C and pressure 70-350kg/cm2

Catalytic polimerization

Km C or km P phosphoric acid ki mojoodgi me =gasoline obtained

Stergius process

CO+H2 is passed through chambers

FE2CO3+ Na2CO3=>catalyst chamber

nCo+2H2>C2H2+HEAT

nCO+(2n+1)H2n+2+H2O+Heat

Low grade coal >hydrogenating them in presence of catalyst Ni/Sn

Fuel cell

Amager bakke. Process

Submisserable rection

Fisher tropsch

CH4+H2O<=>CO+3H2

Ch4+1/2O2<=>CO+2H2

Coal gasification

sesimic reaction

C+H2OCO+H2

Hydrocarbons are combined to form heavier molecules resembling gasoline

CH3CH+CH2+CH3CH2CH<catalyst =>CH2+CHCH2CHCH3CH3

Thermal polimerization>500-600C and pressure 70-350kg/Petroleum manufacture 100 processes

CH4+H2O<=>CO+3H2

Ch4+1/2O2<=>CO+2H2

Coal gasification

C+H2OCO+H2

Hydrocarbons are combined to form heavier molecules resembling gasoline

CH3CH+CH2+CH3CH2CH<catalyst =>CH2+CHCH2CHCH3CH3

Thermal polimerization>500-600C and pressure 70-350kg/cm2

Catalytic polimerization

Km C or km P phosphoric acid ki mojoodgi me =gasoline obtained

Stergius process

CO+H2 is passed through chambers

FE2CO3+ Na2CO3=>catalyst chamber

nCo+2H2>C2H2+HEAT

nCO+(2n+1)H2n+2+H2O+Heat

Low grade coal >hydrogenating them in presence of catalyst Ni/Sn

Fuel cell

Amager bakke. Process

Submisserable rection

Fisher trosch

CH4+H2O<=>CO+3H2

Ch4+1/2O2<=>CO+2H2

Coal gasification

sesimic reaction

C+H2OCO+H2

Hydrocarbons are combined to form heavier molecules resembling gasoline

CH3CH+CH2+CH3CH2CH<catalyst =>CH2+CHCH2CHCH3CH3

Thermal polimerization>500-600C and pressure 70-350kg/cm2

Catalytic polimerization

Km C or km P phosphoric acid ki mojoodgi me =gasoline obtained

Stergius process

Carbon

CO+H2 is passed through chambers

FE2CO3+ Na2CO3=>catalyst chamber

nCo+2H2>C2H2+HEAT

nCO+(2n+1)H2n+2+H2O+Heat

Low grade coal >hydrogenating them in presence of catalyst Ni/Sn

Fuel cell

Sand + carbon=>raw sillicon

Amager bakke. Process

Chemical Chemical Engineering Hub

Waste

Forests

Fuel cell

Waste

oil well

porosity, permeability, capillary pressure, wettability, oil formation volume factor, phase diagram, five reservoir fluids, etc

Porosity=1-bulk density /particle density

Offshore drilling

Fluid Computational Fluid Dynamics Lovers CFD.

Plankton

dinosaurs

biomass conversion

Biomass Conversion

Synthetic Fuels

Hydrothermal Liquefaction

Carbon Capture and Utilization

Microbial Conversion

Solar Fuel Production

Algal Biofuels

Steam Injection:

Enhanced Oil Recovery (EOR)

Hydraulic Fracturing (Fracking)

Horizontal Drilling

Nanotechnology

Microbial Enhanced Oil Recovery

Subsea Processing

Thermal Methods

Digital Oilfield Technologies

Alkylation

Catalytic cracking

Coking

Hydrotreating

Isomerisation

Nuclear 

Wastewater

Catalytic polimerization

Km C or km P phosphoric acid ki mojoodgi me =gasoline obtained

Stergius process

Carbon

CO+H2 is passed through chambers

FE2CO3+ Na2CO3=>catalyst chamber

nCo+2H2>C2H2+HEAT

nCO+(2n+1)H2n+2+H2O+Heat

Low grade coal >hydrogenating them in presence of catalyst Ni/Sn

Fuel cell

Sand + carbon=>raw sillicon

Amager bakke. Process

Chemical Chemical Engineering Hub

Waste

Forests

Fuel cell

Waste

oil well

porosity, permeability, capillary pressure, wettability, oil formation volume factor, phase diagram, five reservoir fluids, etc

Porosity=1-bulk density /particle density

Offshore drilling

Fluid Computational Fluid Dynamics Lovers CFD.

Plankton

dinosaurs

biomass conversion

Biomass Conversion

Synthetic Fuels

Hydrothermal Liquefaction

Carbon Capture and Utilization

Microbial Conversion

Solar Fuel Production

Algal Biofuels

Steam Injection:

Enhanced Oil Recovery (EOR)

Hydraulic Fracturing (Fracking)

Horizontal Drilling

Nanotechnology

Microbial Enhanced Oil Recovery

Subsea Processing

Thermal Methods

Digital Oilfield Technologies

Alkylation

Catalytic cracking

Coking

Hydrotreating

Isomerisation

Nuclear 

Wastewater

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Amorphous

Organic 

Synthetic polymers like polyethylene (PE), polypropylene (PP), nylon, polyester (PS), polytetrafluoroethylene (PTFE), and

 epoxy(commonly known as plastic) are derived from petroleum hydrocarbons [1].

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Powder

Inorganic

Crystals

Autocatalytic reaction

2MnO4-  +5C2O4. + 16H+ = 2Mn+2 + 10CO2  +8H2O(auto Catalytic reaction)

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