Patent Application
20220243231
The present invention relates to the preparation of organic molecules by anaerobic fermentation of biomass, in which the fermentation liquor is aerated prior to the organic molecule recovery step.
Various processes are known for the preparation of organic molecules, in particular organic acids, by anaerobic fermentation of a biomass, in particular by fermentation of molasses and/or pulp, comprising in particular the steps of anaerobic fermentation of molasses and/or pulp in an aqueous fermentation medium, recovery of a fermentation liquor from the fermentation must and isolation of the organic molecules from the fermentation liquor. These processes and the conditions for carrying out the various steps are in particular described in the patent applications WO 2016/135396, WO 2016/135397, WO 2016/012701, WO 2017/013335, WO 2015/036683, WO 2014/100424 and WO 2010/047815.
The isolation of organic molecules from the fermentation liquor is generally preceded by a concentration of the fermentation liquor by evaporation of water. However, this evaporation step can lead to the loss of some of the organic molecules with the evaporation of the water and a loss in final yield.
It is therefore advantageous to find a robust and economical process that limits or even eliminates the loss of organic molecules during the evaporation of water to concentrate the fermentation liquor.
The invention resides in a simple step that consists in aerating the fermentation liquor before its concentration.
The invention thus relates to a process for preparing organic molecules comprising the steps of a) anaerobically fermenting a biomass in an aqueous fermentation medium, b) recovering a fermentation liquor from the fermentation must, and c) recovering organic molecules from the fermentation liquor, in which the fermentation liquor is aerated prior to the step c) of recovering the molecules.
Advantageously, the step c) of recovering the organic molecules comprises a step c1) of concentrating the fermentation liquor which precedes a step c2) of recovering the organic molecules from the concentrated fermentation liquor.
Advantageously and preferably, the object of the fermentation process is to produce organic acids, more particularly volatile organic acids, such as acetic, propionic, butyric, isobutyric, valeric, isovaleric, caproic acids and mixtures thereof.
Processes for preparing organic molecules by anaerobic fermentation comprise the steps of a) anaerobically fermenting a biomass in an aqueous fermentation medium, b) recovering a fermentation liquor from the fermentation must, and recovering the organic molecules from the fermentation liquor, in which the fermentation liquor is aerated prior to the step c) of recovering the molecules.
The invention relates to an improvement of these anaerobic fermentation processes which consists in aerating the fermentation liquor before the recovery of these organic molecules.
The organic molecules produced in these anaerobic fermentation processes are in particular alcohols, organic acids, and in particular volatile organic acids, derivatives of these organic acids such as polyhydroxyalkanoates or esters, or amino acids.
Advantageously and preferably, the object of the fermentation process is to produce organic acids, more particularly volatile organic acids, such as acetic, propionic, butyric, isobutyric, valeric, isovaleric, caproic acids and mixtures thereof.
According to the invention, the biomass comprises any biomass that can be fermented in anaerobic mode, comprising the nutrients necessary for the growth of the anaerobic microorganisms and the production of the selected organic molecules. The different exploitable biomasses are well known to the person skilled in the art according to the anaerobic fermentation processes implemented. These fermentable biomasses are for example co-products from agriculture or the agri-foods industry such as cereal waste, potato sorting waste, slaughterhouse waste, brewery draff, vinasse or livestock effluents. All methanizable substrates are also examples of fermentable biomasses. The classic fermentation substrates used in biotechnology or in the agri-foods industry such as sucrose, glucose, fructose or alcohols such as glycerol are also examples of fermentable biomass.
According to a particular embodiment of the invention, the biomass is molasses and/or beet pulp.
According to a more preferred embodiment of the invention, the anaerobic fermentation process is carried out with molasses and/or pulp as carbon source, for the preparation of organic acids, in particular volatile organic acids as identified above.
The invention consists in aerating the fermentation liquor before the recovery of the organic molecules and the skilled person will know how to determine the most appropriate means and conditions of aeration of the fermentation liquor according to the volume of liquor to be treated and the organic molecules to be recovered.
In particular, aeration can be achieved by introducing air or bubbling air through the fermentation liquor, or by simply stirring the fermentation liquor in contact with air by any suitable means such as recirculation pumps, spargers, venturi mixers etc.
Preferentially, the aeration is obtained by stirring the fermentation liquor.
Without wanting to limit the invention or to be bound to any theory, it may be understood that the fermentation liquor from an anaerobic fermentation step includes high amounts of dissolved carbon dioxide. It is possible that aeration, by removing the dissolved carbon dioxide in the fermentation liquor, may increase the pH of the liquor.
It was indeed found that the aeration of the fermentation liquor raised its pH and that the more the pH of the liquor was acid, the more the organic molecules were entrained with the evaporation of water, for example in the event of recovery with evaporation of water, as in a concentration step.
Advantageously, aeration is maintained until a fermentation liquor with a pH of at least 7, preferably at least 8, is obtained.
Generally, aeration is maintained for at least 15 minutes, and can be up to 30 minutes or more. The aeration time will essentially depend on the pH of the fermentation liquor recovered at the end of the fermentation, the skilled person knowing how to determine the aeration time according to this pH, but also on the organic molecules to be recovered and the methods for recovering said organic molecules.
This pH increase is particularly suitable when the organic molecules are organic acids, more particularly volatile organic acids such as acetic, propionic, butyric, isobutyric, valeric, isovaleric, caproic acids and mixtures thereof.
The processes and conditions for carrying out the various steps are in particular described in the patent applications WO 2016/135396, WO 2016/135397, WO 2016/012701, WO 2017/013335, WO 2015/036683, WO 2014/100424 and WO 2010/047815.
The fermentation step a) will generally be implemented in mesophilic and anaerobic mode in a stirred fermenter. The culture mode can be continuous or discontinuous.
The biomass, in particular molasses or pulp, used for the fermentation is preferably residue from the sugar industry, in particular from sugar cane or sugar beet processing, preferably sugar beet pulp or sugar beet molasses.
Molasses and pulp can be used together in the same fermenter in any proportion, or separately in different fermenters.
Preferentially, pulp and/or molasses are the only carbon sources for anaerobic fermentation.
Anaerobic fermentation is generally carried out with microorganisms alone or in mixtures. It can be lines and mixtures of microorganisms seeded in the biomass for the beginning of fermentation. It can also be the autochthonous flora of the biomass which develops under the conditions of anaerobic culture.
The aqueous medium is water. According to a particular embodiment of the invention, the aqueous fermentation medium consists of water and vinasse mixed in any proportion. The aqueous fermentation medium can be supplemented with vitamins, yeast extract or any other adjuvant allowing an optimization of the fermentation performance.
For step b), the recovery is done at the end of fermentation according to usual filtration techniques to eliminate the potential solid residues present in the fermentation must, for example by centrifugation, centrifugal decantation, etc.
The aeration step is done on a liquid medium after fermentation where the state of the art describes the influence of aeration on the fermentation conditions, equivalent to step a) of the process according to the invention, upstream of step b) of recovering the fermentation liquor (Wei & al., 2014; EP 1 892 300; Cheng & al., 2004; Yimalztekin & al., 2013; Botheju & al., 2011).
The process for preparing organic molecules by anaerobic fermentation according to the invention can therefore also be described as comprising the following steps
a) anaerobically fermenting a biomass in an aqueous fermentation medium,
b) recovering a fermentation liquor from the fermentation must
b2) aerating the fermentation liquor and
c) recovering organic molecules from the aerated fermentation liquor.
The step c) of recovering the organic molecules is generally done by extraction, precipitation and/or distillation.
Advantageously, this step c) of recovering the organic molecules comprises a step c1) of concentrating the fermentation liquor which precedes a step c2) of recovering the organic molecules from the concentrated fermentation liquor.
The concentration step c1) is carried out according to the usual evaporation methods, known to the person skilled in the art.
The step c2) of recovering the organic molecules is advantageously carried out on the concentrated fermentation liquor after removal of at least part of the water and, if need be, with the addition of an organic solvent to promote the partitioning of the various molecules. Particular mention may be made of the extraction methods described in the applications WO 2015/036683, WO 2014/100424. The skilled person knows and will know how to choose the means best suited to the organic molecules to be isolated, this step not being limiting with respect to the invention, which first concerns the concentration step c1).
According to a particular embodiment, the step c2) of recovering the organic molecules is preceded by a step of acidification by addition of a strong acid, in particular sulfuric acid, down to a pH lower than 5, which can go down to 3 or less.
This addition of a strong acid is particularly appropriate before isolating organic acids, and more particularly volatile organic acids.
The fermentation liquor can come from a single fermentation must or from a mixture of several fermentation liquors from several fermentation musts, if need be after concentration. In this case, each fermentation must can come independently from the fermentation of pulp or molasses or from a mixture of pulp and molasses.
Anaerobic fermentation of organic by-products from sugar factories such as sugar beet molasses is carried out in industrial fermenters. The pH of the fermentation musts is regulated with potash. The results of the aeration experiments to raise the pH are presented in the tables below. At the end of fermentation, the fermentation liquor is recovered and aerated via a recirculation pump. The pH of the liquor is measured after a first aeration time of 1 or 2 minutes, then at the end of aeration.
Table 1 below summarizes the results of pH increase by aeration at different times from various liquors from anaerobic fermentation of molasses-type agro-industrial co-products.
Following various anaerobic fermentations on agro-industrial co-products, the fermentation liquors are evaporated with or without a prior aeration step by stirring with a recirculation pump. The amounts of volatile fatty acids (VFA) in the evaporation condensate are measured. The results of the various experiments are shown in Table 2 below.
These results show that the aeration step limits the entrainment of volatile fatty acids with water during the concentration of the fermentation liquor and thus decreases the losses of these compounds likely to be recovered from the concentrated liquor.
| Number | Date | Country | Kind |
|---|---|---|---|
| 1859671 | Oct 2018 | FR | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2019/078329 | 10/18/2019 | WO | 00 |
