Method for preparing rosin methyl ester and compound biodiesel raw material through pine oleoresin

A biodiesel and rosin methyl ester technology, applied in the preparation of biological raw materials, biofuels, liquid hydrocarbon mixtures, etc., can solve the problems of difficult product separation, long reaction time, atomic loss, etc., achieve simple production process and reduce production cost , the effect of shortening the production cycle

Inactive Publication Date: 2012-02-22
GUANGXI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method has created a unique way of producing fuel oil from rosin, a biomass, and has made beneficial contributions to society. However, this method is to obtain rosin and turpentine products by distillation and separation of rosin, and then use rosin as a raw material for decarboxylation of rosin resin acid. Obtain abietane and carbon dioxide, the price of rosin u

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] (1) Melting turpentine: According to the mass ratio of turpentine and turpentine as 1:1, weigh 380.8g of turpentine in a large beaker, add 380.8g of turpentine, carefully crush the agglomerated turpentine and place it in a preheated to 90°C Heat to dissolve in a constant temperature water bath.

[0025] (2) Filtration: Filtrate the completely melted rosin while hot to obtain a yellow rosin liquid.

[0026] (3) Feeding: According to the mass ratio of yellow turpentine liquid and methanol as 1:0.4, weigh 642.9g of yellow turpentine liquid and 257.1g of methanol into the autoclave, seal it with a cover, and then connect the pipelines.

[0027] (4) Vacuuming: Connect the vacuuming pipeline, close the intake valve, turn the three-way valve to the vacuuming position, turn on the vacuum pump to start vacuuming, record the vacuum reading after the U-shaped pressure gauge is stable, and turn off the pumping after about 5 minutes vacuum valve.

[0028] (5) Leak detection: open ...

Embodiment 2

[0036] (1) Melting turpentine: According to the mass ratio of turpentine and turpentine of 1:1.2, weigh 352.7g of turpentine in a large beaker, add 423.3g of turpentine, carefully crush the agglomerated turpentine and place it in a preheated to 85°C Heat and melt in a constant temperature water bath.

[0037] (2) Filtration: Filtrate the completely melted rosin while hot to obtain a yellow rosin liquid.

[0038] (3) Feeding: According to the mass ratio of yellow rosin liquid and methanol at 1:0.5, weigh 600.0 g of rosin liquid and 300.0 g of methanol and put them into the autoclave, cover and seal, and then connect the pipelines.

[0039] (4) Vacuuming: Connect the vacuuming pipeline, close the intake valve, turn the three-way valve to the vacuuming position, turn on the vacuum pump to start vacuuming, record the vacuum reading after the U-shaped pressure gauge is stable, and turn off the pumping after about 5 minutes vacuum valve.

[0040] (5) Leak detection: open the intak...

Embodiment 3

[0048] (1) Melting turpentine: According to the mass ratio of turpentine and turpentine of 1:0.4, weigh 697.8g of turpentine in a large beaker, add 279.1g of turpentine, carefully crush the agglomerated turpentine and place it in a preheated to 97°C Heat and melt in a constant temperature water bath.

[0049] (2) Filtration: Filtrate the completely melted rosin while hot to obtain a yellow rosin liquid.

[0050] (3) Feeding: According to the mass ratio of yellow rosin liquid and methanol at 1:0.05, weigh 857.1 g of rosin liquid and 42.9 g of methanol and put them into the autoclave, cover and seal, and then connect the pipelines.

[0051] (4) Vacuuming: Connect the vacuuming pipeline, close the intake valve, turn the three-way valve to the vacuuming position, turn on the vacuum pump to start vacuuming, record the vacuum reading after the U-shaped pressure gauge is stable, and turn off the pumping after about 5 minutes vacuum valve.

[0052] (5) Leak detection: Open the intak...

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Abstract

The present invention relates to the technical fields of forest product deepening and processing, and renewable energy resources, and a method for preparing rosin methyl ester and a compound biodiesel raw material through pine oleoresin. The method comprises: mixing the pine oleoresin and turpentine oil according to a mass ratio of the pine oleoresin to the turpentine oil of 1:0.4-1.2; heating, melting and filtering; adding the resulting filtrate and methanol to an autoclave according to the mass ratio of the filtrate to the methanol of 1:0.05-0.5, introducing 0-4 MPa of CO2 to the autoclave, wherein the CO2 is adopted as a cosolven to carry out a reaction under a supercritical state or a subcritical state; carrying out standing and demixing for the product after completing the reaction, wherein the upper layer is an alcohol phase, and is subjected to atmospheric distillation to recover the methanol, the lower layer is an oil phase, is subjected to atmospheric distillation to recover the methanol, and then is subjected to a CO2 circulating gas introducing method or a super heating steam method to carry out vacuum distillation and separation to obtain the rosin methyl ester and the compound biodiesel raw material. The method provided by the present invention has advantages of simple production process, environmentally friendly property, no requirement of the catalysts, improvement of the economic feasibility of the biodiesel preparing through the pine oleoresin, and the like.

Description

technical field [0001] The invention relates to the technical fields of deep processing of forest products and renewable energy, and relates to a method for preparing rosin methyl ester and compound biodiesel raw materials from rosin. Background technique [0002] Biodiesel is a liquid fuel made from various oils and low-carbon alcohols through esterification or transesterification. It is a high-quality substitute for petrochemical diesel and a typical "green energy" . With the increasing oil crisis worldwide and in view of the pressure on resources and the environment, people have begun to seek new technologies for preparing fuels that do not use petroleum as a raw material. Among them, vegetable oil was once the main raw material for preparing biodiesel. Research. Patent announcements CN1313568 and CN1570029 disclose the process and method of using natural vegetable oils to prepare biodiesel. However, because the price of natural oils is generally 10-20% higher than that...

Claims

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Application Information

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IPC IPC(8): C10G3/00C10L1/04C09F1/04
CPCY02E50/10Y02P20/54Y02P30/20
Inventor 陈小鹏黄森丽王琳琳梁杰珍韦小杰谢丹丹
Owner GUANGXI UNIV
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