Cashew nut shell liquid extraction pump
Rather, these exemplary cashew nut shell liquid extraction pump are provided so that the present disclosure satisfies applicable legal requirements. Fuel and rheological properties of bioslurry prepared from the bio-oil and biochar of mallee biomass fast pyrolysis. Despite abundance of its resource, it remains largely unexploited because of difficulties associated with its recovery, transportation and refining. In an extremely heavy oil sample, CNSL demonstrated effectiveness in reducing the viscosity. The composition can further comprise at least one of anacardic acid, cardanol and cardol.
The disadvantages associated with using solely petroleum-based solvents, diluents or dispersants, to reduce the viscosity of residual fuel oils, heavy oils and tar sands include that they are costly as well as hazardous to transport and handle due to their volatility cashew nut shell liquid extraction pump combustibility. The biofuel-containing products offer economic advantages, for example, tax credits for the sale or use thereof. Group V oils include very heavy residual fuel oils, asphalt products, and very heavy crude oils.
The composition of claim 94further comprising one or more of surfactants, co-surfactants, co-solvents, water, pH modifiers and buffers, rheology modifiers, biological agents, water, biodiesel, plant based solvents, and light hydrocarbons distillates. The method of claim 80wherein said method further comprises adding one or more of surfactants, co-surfactants, co-solvents, water, pH modifiers and buffers, rheology modifiers, biological agents, water, biodiesel, plant based solvents, and light hydrocarbons cashew nut shell liquid extraction pump, to the heavy oil. The composition of claim 94further comprising cashew nut shell liquid CNSL. The present disclosure also provides a composition comprising a heavy oil and at least cashew nut shell liquid extraction pump of anacardic acid, cardanol and cardol. Corrosion behavior of biodiesel from seed oils of Indian origin on diesel engine parts.
In accordance with this disclosure, CNSL either used alone or in combination with surfactants, water, and co-solvents overcomes many limitations of using petroleum based solvents alone to reduce the viscosities of residual fuel oils, heavy cashew nut shell liquid extraction pump and tar sands. The method comprises adding at least one of anacardic acid, cardanol and cardol to the heavy oil in an amount sufficient to reduce viscosity of the heavy oil. From a chemical fate and transport perspective, CNSL has been found to be a chemical mixture with a low water solubility 0. Therefore incorporating petroleum distillate in CNSL containing formulations enhances viscosity reduction, but lowers the flash point. In addition to a viscosity reducing agent, the compositions can be used as an enhanced oil recovery agent, a heavy oil upgrading agent, a wellbore cashew nut shell liquid extraction pump agent, and a cleaning agent for asphaltene-containing materials.
It should be understood that various alternatives, combinations and modifications of the present disclosure could be devised by those skilled in cashew nut shell liquid extraction pump art. CNSL materials have been found to be thermally stable in the range of temperatures used to heat heavy hydrocarbon products during extraction from the subsurface, transportation and storage. The results are shown in Table D below. The method of claim 82further comprising adding cashew nut shell liquid CNSL to the heavy oil. The final viscosity of the crude oil is significantly lower than the initial viscosity of the crude oil.