Video: Blending Naptha with vegetable oil to make VO Blend Diesel Fuel
Making vegetable oil blend Diesel Fuel (VOBDF) by blending Naptha with vegetable oil
YouTube - ‪Blending Naptha with vegetable oil to make VO Blend Diesel Fuel‬‏
From Wikipedia:
Naphtha normally refers to a number of different flammable liquid mixtures of hydrocarbons, i.e. a distillation product from petroleum or coal tar boiling in a certain range and containing certain hydrocarbons, a broad term encompassing any volatile, flammable liquid hydrocarbon mixture.
Naphtha is used primarily as feedstock for producing a high octane gasoline component (via the catalytic reforming process). It is also used in the petrochemical industry for producing olefins in steam crackers and in the chemical industry for solvent (cleaning) applications.
Production of naphtha in refineries:
Naphtha is obtained in petroleum refineries as one of the intermediate products from the distillation of crude oil. It is a liquid intermediate between the light gases in the crude oil and the heavier liquid kerosene. Naphthas are volatile, flammable and have a specific gravity of about 0.7. The generic name naphtha describes a range of different refinery intermediate products used in different applications. To further complicate the matter, similar naphtha types are often referred to by different names...
Naphthas are also used in other applications such as:
* (as an unprocessed component - in contrast to reforming above) in the production of petrol/motor gasoline.
* industrial solvents and cleaning fluids
* an oil painting medium
* the sole ingredient in the home cleaning fluid Energine, which has been discontinued.
* an ingredient in shoe polish
* an ingredient in some lighter fluids for wick type lighters such as Zippo lighters.
* an adulterant to petrol
* a fuel for portable stoves and lanterns, sold in North America as white gas or Coleman fuel.
Other names of Naphtha:
Shellite (Australia), also known as white gas (North America), white spirit or Coleman fuel, is a water white liquid with a hydrocarbon odour. Shellite has a freeze point less than -30 °C (-22 °F), and a boiling point of 47 °C (117 °F). The composition of shellite is 95% paraffins and naphthenes, less than 5% aromatic hydrocarbons and less than 0.5% benzene. It is highly flammable and due to its low flashpoint is used in many low pressure camping stoves. Shellite is also a fast drying solvent used for cleaning metal, hard plastic and painted surfaces. Ronsonol is a brand name used in North America, and is marketed principally as a refill fluid for cigarette lighters and has a flashpoint of about 6 °C (43 °F).
Health and safety considerations:
Forms of naphtha may be carcinogenic, and frequently products sold as naphtha contain some impurities, which may also have deleterious properties of their own. [1] Like many hydrocarbon products, because they are products of a refractory process where a complex soup of chemicals is broken into another range of chemicals, which are then graded and isolated mainly by their specific gravity and volatility, there is a range of distinct chemicals included in each product. Almost all volatile, lipid-soluble organic chemicals cause general, nonspecific depression of the central nervous system or general anesthesia. The OSHA PEL TWA = 100 parts-per-million (ppm); Health Hazards/Target Organs = eyes, skin, RS, CNS, liver kidney. Symptoms of acute exposure are dizziness and narcosis with loss of consciousness.
Physical properties:
“Light naphtha, a mixture consisting mainly of straight-chained and cyclic aliphatic hydrocarbons having from five to nine carbon atoms per molecule. Heavy naphtha, a mixture consisting mainly of straight-chained and cyclic aliphatic hydrocarbons having from seven to nine carbons per molecule.”[1] Molecular weight range is 100-215 g/mol; specific gravity range is 0.75-0.85 g/cm3; boiling point range is 320-430°F; vapor pressure is < 5 mm Hg (< 5 torr). Naphthas are insoluble in water; colorless (kerosene odor) or red-brown (aromatic odor) liquid; incompatible with strong oxidizers.
* Paraffin content (volume percent)
* Isoparaffin content (only in a PIONA analysis)
* Olefins content (volume percent)
* Naphthenes content (volume percent)
* Aromatics content (volume percent)
Paraffinic naphthas:
Generally speaking, less dense ("lighter") naphthas will have a higher paraffin content. These are therefore also referred to as paraffinic naphtha. The main application for these naphthas is as a feedstock in the petrochemical production of olefins. This is also the reason they are sometimes referred to as "light distillate feedstock" or LDF (these naphtha types can also be called "straight run gasoline"/SRG or "light virgin naphtha"/LVN)...
The "heavier" or rather denser types are usually richer in naphthenes and aromatics and therefore also referred to as N&A's. These can also be used in the petrochemical industry but more often are used as a feedstock for refinery catalytic reformers where they convert the lower octane naphtha to a higher octane product called reformate. Alternative names for these types are Straight Run Benzene (SRB) or Heavy Virgin Naphtha (HVN).
Heavy naphthas
Coleman Camp Fuel, also known as white gas, is a common naphtha fuel used in many lanterns and torches
Other applications / descriptions
[1] NIOSH Pocket Guide to Chemical Hazards from the US National Institute for Occupational Safety and Health >>
Naphtha - Wikipedia, the free encyclopedia
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The point of this experiment and video is simply to demonstrating that some solvents will dissolve readily into WVO. It is purely of academic interest and is in no way an attempt to encourage its use or recommend its use over petroleum distillates. I am just posting these experimental blending videos to show that there is a range of solvents that could be blended with waste oils to make diesel fuel. It is up to the user to decide whether they wish to further the experiment by running it on an engine. If you do, then please post your findings on this thread.
The point is making diesel fuel out of waste oils is a form of recycling. And, there are many people making viable and sustainable diesel fuels by blending various solvents with various waste oils. Therefore, there is no reason why the solvents used to thin waste oil need not also be recycled, therefore it is conceivable that someone may come across some recycled solvent and consider using it as a solvent for making diesel fuel by blending it with waste oils. Thus, diesel fuel made from blending waste oils with waste solvents is essentially recycling, therefore it is fundamentally a green activity
And, anyone engaged in blending or making biodiesel should most definitely wear protective gear, such as: safety goggles or shield, respirator with activated charcoal cartridge, chemical apron, and gloves, have a water hose under pressure and a fire extinguisher handy whenever processing fuel. That process should also be done in a well-ventilated shed or out-building or outside away from buildings, because the biodiesel process has gotten away from some people, exploded and caused severe burns on major portions of the operator's body and set the house and even neighborhood on fire. However, there is no report yet of a blender having the same accident, but blending is nonetheless a potential hazard.
Please dispose of your waste products responsibly.
Making vegetable oil blend Diesel Fuel (VOBDF) by blending Naptha with vegetable oil
YouTube - ‪Blending Naptha with vegetable oil to make VO Blend Diesel Fuel‬‏
From Wikipedia:
Naphtha normally refers to a number of different flammable liquid mixtures of hydrocarbons, i.e. a distillation product from petroleum or coal tar boiling in a certain range and containing certain hydrocarbons, a broad term encompassing any volatile, flammable liquid hydrocarbon mixture.
Naphtha is used primarily as feedstock for producing a high octane gasoline component (via the catalytic reforming process). It is also used in the petrochemical industry for producing olefins in steam crackers and in the chemical industry for solvent (cleaning) applications.
Production of naphtha in refineries:
Naphtha is obtained in petroleum refineries as one of the intermediate products from the distillation of crude oil. It is a liquid intermediate between the light gases in the crude oil and the heavier liquid kerosene. Naphthas are volatile, flammable and have a specific gravity of about 0.7. The generic name naphtha describes a range of different refinery intermediate products used in different applications. To further complicate the matter, similar naphtha types are often referred to by different names...
Naphthas are also used in other applications such as:
* (as an unprocessed component - in contrast to reforming above) in the production of petrol/motor gasoline.
* industrial solvents and cleaning fluids
* an oil painting medium
* the sole ingredient in the home cleaning fluid Energine, which has been discontinued.
* an ingredient in shoe polish
* an ingredient in some lighter fluids for wick type lighters such as Zippo lighters.
* an adulterant to petrol
* a fuel for portable stoves and lanterns, sold in North America as white gas or Coleman fuel.
Other names of Naphtha:
Shellite (Australia), also known as white gas (North America), white spirit or Coleman fuel, is a water white liquid with a hydrocarbon odour. Shellite has a freeze point less than -30 °C (-22 °F), and a boiling point of 47 °C (117 °F). The composition of shellite is 95% paraffins and naphthenes, less than 5% aromatic hydrocarbons and less than 0.5% benzene. It is highly flammable and due to its low flashpoint is used in many low pressure camping stoves. Shellite is also a fast drying solvent used for cleaning metal, hard plastic and painted surfaces. Ronsonol is a brand name used in North America, and is marketed principally as a refill fluid for cigarette lighters and has a flashpoint of about 6 °C (43 °F).
Health and safety considerations:
Forms of naphtha may be carcinogenic, and frequently products sold as naphtha contain some impurities, which may also have deleterious properties of their own. [1] Like many hydrocarbon products, because they are products of a refractory process where a complex soup of chemicals is broken into another range of chemicals, which are then graded and isolated mainly by their specific gravity and volatility, there is a range of distinct chemicals included in each product. Almost all volatile, lipid-soluble organic chemicals cause general, nonspecific depression of the central nervous system or general anesthesia. The OSHA PEL TWA = 100 parts-per-million (ppm); Health Hazards/Target Organs = eyes, skin, RS, CNS, liver kidney. Symptoms of acute exposure are dizziness and narcosis with loss of consciousness.
Physical properties:
“Light naphtha, a mixture consisting mainly of straight-chained and cyclic aliphatic hydrocarbons having from five to nine carbon atoms per molecule. Heavy naphtha, a mixture consisting mainly of straight-chained and cyclic aliphatic hydrocarbons having from seven to nine carbons per molecule.”[1] Molecular weight range is 100-215 g/mol; specific gravity range is 0.75-0.85 g/cm3; boiling point range is 320-430°F; vapor pressure is < 5 mm Hg (< 5 torr). Naphthas are insoluble in water; colorless (kerosene odor) or red-brown (aromatic odor) liquid; incompatible with strong oxidizers.
* Paraffin content (volume percent)
* Isoparaffin content (only in a PIONA analysis)
* Olefins content (volume percent)
* Naphthenes content (volume percent)
* Aromatics content (volume percent)
Paraffinic naphthas:
Generally speaking, less dense ("lighter") naphthas will have a higher paraffin content. These are therefore also referred to as paraffinic naphtha. The main application for these naphthas is as a feedstock in the petrochemical production of olefins. This is also the reason they are sometimes referred to as "light distillate feedstock" or LDF (these naphtha types can also be called "straight run gasoline"/SRG or "light virgin naphtha"/LVN)...
The "heavier" or rather denser types are usually richer in naphthenes and aromatics and therefore also referred to as N&A's. These can also be used in the petrochemical industry but more often are used as a feedstock for refinery catalytic reformers where they convert the lower octane naphtha to a higher octane product called reformate. Alternative names for these types are Straight Run Benzene (SRB) or Heavy Virgin Naphtha (HVN).
Heavy naphthas
Coleman Camp Fuel, also known as white gas, is a common naphtha fuel used in many lanterns and torches
Other applications / descriptions
[1] NIOSH Pocket Guide to Chemical Hazards from the US National Institute for Occupational Safety and Health >>
Naphtha - Wikipedia, the free encyclopedia
#####################
The point of this experiment and video is simply to demonstrating that some solvents will dissolve readily into WVO. It is purely of academic interest and is in no way an attempt to encourage its use or recommend its use over petroleum distillates. I am just posting these experimental blending videos to show that there is a range of solvents that could be blended with waste oils to make diesel fuel. It is up to the user to decide whether they wish to further the experiment by running it on an engine. If you do, then please post your findings on this thread.
The point is making diesel fuel out of waste oils is a form of recycling. And, there are many people making viable and sustainable diesel fuels by blending various solvents with various waste oils. Therefore, there is no reason why the solvents used to thin waste oil need not also be recycled, therefore it is conceivable that someone may come across some recycled solvent and consider using it as a solvent for making diesel fuel by blending it with waste oils. Thus, diesel fuel made from blending waste oils with waste solvents is essentially recycling, therefore it is fundamentally a green activity
And, anyone engaged in blending or making biodiesel should most definitely wear protective gear, such as: safety goggles or shield, respirator with activated charcoal cartridge, chemical apron, and gloves, have a water hose under pressure and a fire extinguisher handy whenever processing fuel. That process should also be done in a well-ventilated shed or out-building or outside away from buildings, because the biodiesel process has gotten away from some people, exploded and caused severe burns on major portions of the operator's body and set the house and even neighborhood on fire. However, there is no report yet of a blender having the same accident, but blending is nonetheless a potential hazard.
Please dispose of your waste products responsibly.
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