Petroleum only
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 tropsh
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
https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvH
https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvHu
https://www.google.com/search?q=artificial%20petroleum%20production&udm=2&uds=AMwkrPs7I2hXjqs29S2u-P2GT8CxOteHwNLdUlahOpkUoMZa41YUqFPqfcomvbMxb8hhpPY-EHgE&tbs=rimg:CVR2C1edAK3ZYSE0s8CZK_1jrsgIAwAIA2AIA4AIA&rlz=1C1CHBD_enPK1073PK1073&hl=en&sa=X&ved=0CB4QuIIBahcKEwiYur36ksGFAxUAAAAAHQAAAAAQBg&biw=1920&bih=953&dpr=https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvH
Inorganic
Synthetic polymers like polyethylene (PE), polypropylene (PP), nylon, polyester (PS), polytetrafluoroethylene (PTFE), and epoxy (commonly known as plastic) are derived from petroleum hydrocarbons [1].
<-----------------
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].
<-----------------
Powder
Inorganic
Crystals
Autocatalytic reaction
2MnO4- +5C2O4. + 16H+ = 2Mn+2 + 10CO2 +8H2O(auto Catalytic reaction)
Petroleum real
Petroleum
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
https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvH
https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvHu
https://www.google.com/search?q=artificial%20petroleum%20production&udm=2&uds=AMwkrPs7I2hXjqs29S2u-P2GT8CxOteHwNLdUlahOpkUoMZa41YUqFPqfcomvbMxb8hhpPY-EHgE&tbs=rimg:CVR2C1edAK3ZYSE0s8CZK_1jrsgIAwAIA2AIA4AIA&rlz=1C1CHBD_enPK1073PK1073&hl=en&sa=X&ved=0CB4QuIIBahcKEwiYur36ksGFAxUAAAAAHQAAAAAQBg&biw=1920&bih=953&dpr=https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvH
Amorphous
https://www.google.com/search?q=petroleum+production+ways&tbm=isch&ved=2ahUKEwj90MTMvfCEAxVRbKQEHTg6DckQ2-cCegQIABAA&oq=petroleum+production+ways&gs_lp=EgNpbWciGXBldHJvbGV1bSBwcm9kdWN0aW9uIHdheXNI6tkBUIUlWPTLAXAAeACQAQCYAa0CoAG9LqoBBjItMjUuMbgBA8gBAPgBAYoCC2d3cy13aXotaW1nwgIHEAAYgAQYGMICBBAjGCfCAgoQABiABBiKBRhDwgIIEAAYgAQYsQPCAgQQABgDwgIFEAAYgATCAg0QABiABBiKBRhDGLEDwgIGEAAYCBgeiAYB&sclient=img&ei=ODbxZf3UBNHYkdUPuPS0yAw&bih=953&biw=1920&rlz=1C1CHBD_enPK1073PK1073
https://www.google.com/search?q=petroleum+production+ways&tbm=isch&ved=2ahUKEwj90MTMvfCEAxVRbKQEHTg6DckQ2-cCegQIABAA&oq=petroleum+production+ways&gs_lp=EgNpbWciGXBldHJvbGV1bSBwcm9kdWN0aW9uIHdheXNI6tkBUIUlWPTLAXAAeACQAQCYAa0CoAG9LqoBBjItMjUuMbgBA8gBAPgBAYoCC2d3cy13aXotaW1nwgIHEAAYgAQYGMICBBAjGCfCAgoQABiABBiKBRhDwgIIEAAYgAQYsQPCAgQQABgDwgIFEAAYgATCAg0QABiABBiKBRhDGLEDwgIGEAAYCBgeiAYB&sclient=img&ei=ODbxZf3UBNHYkdUPuPS0yAw&bih=953&biw=1920&rlz=1C1CHBD_enPK1073PK1073
Pollutants
O3
SOx
NOx
NO3
CFC11
HFC
Global warming
Ager aik special Shahr rak Dia Jay petrol bnanay ka or us k pani me lime stone daldia jay to PNNaKOSs pollutants se bacha ja skta ha
Kepco ri23 gas absorb harmful gas
MHCORI 23
Solid absorbed CO2is traveled through pipe
CO2 levels the temperature and and pressure
Petroleum real
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
https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvH
https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvHu
https://www.google.com/search?q=artificial%20petroleum%20production&udm=2&uds=AMwkrPs7I2hXjqs29S2u-P2GT8CxOteHwNLdUlahOpkUoMZa41YUqFPqfcomvbMxb8hhpPY-EHgE&tbs=rimg:CVR2C1edAK3ZYSE0s8CZK_1jrsgIAwAIA2AIA4AIA&rlz=1C1CHBD_enPK1073PK1073&hl=en&sa=X&ved=0CB4QuIIBahcKEwiYur36ksGFAxUAAAAAHQAAAAAQBg&biw=1920&bih=953&dpr=https://www.youtube.com/playlist?list=PLQUZQ3Bhsuwl_0cQhYPbwYzDaeVSRMyvH
Inorganic
Synthetic polymers like polyethylene (PE), polypropylene (PP), nylon, polyester (PS), polytetrafluoroethylene (PTFE), and epoxy (commonly known as plastic) are derived from petroleum hydrocarbons [1].
<-----------------
PowDer
flour, sugar, ground coffee, powdered milk, copy machine toner, gunpowder, cosmetic powders, and some pharmaceuticals
Organic
Crystalline
Quartz, calcite, sugar, mica, diamonds, snowflakes, rock, calcium fluoride, silicon dioxide, and alum are examples of crystalline solids. are the examples of crystalline
Amorphous carbonia, also called a-carbonia or a-CO2, is an exotic amorphous solid form of carbon dioxide that is analogous to amorphous silica glass. It was first made in the laboratory in 2006 by subjecting dry ice to high pressures (40-48 gigapascal, or 400,000 to 480,000 atmospheres), in a diamond anvil cell.
Cold plasma - >low ionization
Low ionization
Air me koi aesa element dal dey jis se pollution create na ho
Smoke detector - >amretiom
Low ionization has higher frequency
BEC->boze Einstein condensate->positrons
Eg. Lasers
Amphoteric substances are substances that display both acidic and basic properties, so they can act as either acids or bases. If an amphoteric substance reacts with a base, then it will take on the role of an acid by being an electron acceptor or proton donor.
Amphoteric and other forms
Aluminium hydroxide.
Zinc hydroxide.
Copper hydroxide.
Chromium hydroxide.
Beryllium hydroxide.
Tin hydroxide.
Fire
Cold plasma - >low ionization
Low ionization
Air me koi aesa element dal dey jis se pollution create na ho
Smoke detector - >amretiom
MHCORI 23
Solid absorbed CO2is traveled through pipe
CO2 levels the temperature and and pressure
Water pollution
petroleum engineering=autocad 3d + boolean algebra + mechanical engineering + power+chemistry+physics+math
Waves are produced by hot and low pressure air coming from left and right side
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