Patent Application
20240043359
The present invention refers to a method, system and plant for the reduction of energy consumption, preferably a green methanol plant.
It is known that the product of plants for synthesizing methanol, commonly defined as crude methanol, is an aqueous solution of methanol containing by-products of the synthesis reaction including ethanol, ketones, higher alcohols, and some dissolved gases including mainly H2, CO, CO2, N2, CH4.
Known distillation processes are based substantially on one or more distillation columns, where typically at least one column is able to separate light products (for example gas) recovered at the top of the column from methanol, and at least one column is able to separate the heavier product (e.g. aqueous solution) recovered at the bottom of the column from methanol.
A specific method which is widely used for e.g. distillation of methanol, comprises two columns that operate at atmospheric pressure or close to atmospheric pressure. More specifically, said method uses a preliminary treatment column known as stabilizing column or pre-run column and a second distillation column. The first column substantially has the purpose of separating the more volatile components contained in the crude methanol, where it receives the crude methanol and separates the light components at the top and an aqueous solution at the bottom. The second column known as concentration column carries out the actual distillation, obtaining (i) refined methanol at the top, (ii) a prevalently aqueous stream at the bottom (“bottom water”), (iii) a side stream known as “fusel oil” mainly containing water, residual methanol (ca. 1% of the total) and most of the by-products of the synthesis reaction. Said fusel oil has a certain heat value and is usually used as a fuel or feed in for synthesis gas generation.
Each column comprises a reboiler that heats the bottom of the column and maintains heat input to the distillation method. Each column comprises also a condenser, which condenses the top product and recycles it (at least partially) to said column. The heat is provided to the concentration (or distillation) column by steam, or by a process gas when available—of suitable thermal level. The cooling medium for the condenser is normally water or air. Said configuration with two columns is simple in terms of a plant (e.g., a methanol distillation plant), but it has the major drawback of consuming a substantial amount of energy, both due to the heat supplied to the bottom reboilers, and due to the consumption of cooling water and/or electricity of the top condensers. Moreover, the columns have a relatively large diameter in relation to the production capacity and the plant cost is consequently high.
The standard solution shown in
There is, however, the need for the pursuit of more sustainable ways of working in methanol production, providing for the reutilization and/or saving of energy.
The combustion of fossil fuels generates over 13 gigatons of CO2 per year. Concern over the effects of CO2 with respect to climate change and ocean acidification led governments and industries to investigate the feasibility of technologies that capture the resultant CO2 from entering the carbon cycle. However, existing power plants require the postcombustion separation of CO2 from the flue gas with a scrubber. In such a system, fossil fuels are combusted with air and CO2 is selectively removed from a gas mixture also containing N2, H2O, O2 and trace sulphur, nitrogen and metal impurities. While exact separation conditions are fuel and technology dependent, in general CO2 is present at low concentrations (4-15% v/v) in gas mixtures near atmospheric pressure and at temperatures of approximately −60° C. Sorbents for carbon capture are regenerated using temperature, pressure or vacuum, so that CO2 can be collected for sequestration or utilization and the sorbent can be reused.
The most significant impediment to carbon capture is the large amount of electricity required. Without policy or tax incentives, the production of electricity from such plants is not competitive with other energy sources. The largest operating cost for power plants with carbon capture is the reduction in the amount of electricity produced, [6] because energy in the form of steam is diverted from making electricity in the turbines to regenerating the sorbent. Thus, minimizing the amount of energy required for sorbent regeneration is the primary goal behind much carbon capture research.
The present invention (
Since green plants are small, typically only one concentration column exists in this type of plant and the duty cannot be reused in a second concentration column. Instead, the overhead duty is re-used at least partially in the CO2 reboiler, so as to recycle such energy and minimize the waste.
“Atmospheric pressure” means 1,01325 bar, i.e., approximately 1 bar.
Carbon capture means the method of capturing carbon dioxide from a stream, typically flue gas but also from pressurized process gas. The method consists of an absorber where a liquid sorbent is in contact with the gas and selectively absorbs the CO2. The CO2 loaded sorbent is sent to a stripper where the loaded CO2 is stripped off by use of heat so that the CO2 is leaving the stripper in concentrated form.
Carbon dioxide sorbent means a sorbent agent that is able to absorb CO2. A carbon dioxide sorbent may be physical, such as a porous material or chemical, such as aqueous amine solutions that form a chemical bond.
Carbon dioxide stripping unit means a unit for desorption of the captured CO2. Typically a column were loaded CO2 solution is boiled to strip off the captured CO2.
Chemical sorbent means a sorbent agent that absorbs CO2 and forms a chemical bond with the active component and CO2.
“Concentration column” or “distillation column” or “bottoming column” means a column divided into a series of stages. These correspond to a cascade of equilibrium stages. Liquid flows down the column from stage to stage and is contacted by vapor flowing upward. Traditionally, most columns have been built from a set of distinct “trays” or “plates”, so these terms end up being essentially interchangeable with “stages”. Each tray in a distillation column is designed to promote contact between the vapor and liquid on the stage. Distillation can be conducted in a packed column (just as absorption can be done in a trayed column). The operating pressure of the column is typically controlled by adjusting heat removal in the heat exchanger. The base of the column is typically used as a reservoir to hold liquid leaving the bottom tray. A heat exchanger, e.g. a reboiler, is used to boil this liquid. The vapor which results, the “boilup”, is returned to the bottom of the column.
Crude methanol is distilled to meet the purity specifications required on the market. Crude methanol is a solution comprising methanol, typically 65 to 95% methanol, water and other components. Crude methanol contains low-boiling and high-boiling components (light and heavy ends). The light ends L include mainly dissolved gases (e.g., CO2), di-methyl ether, methyl formate, and acetone. The heavy ends H include higher alcohols, long-chain hydrocarbons, higher ketones, and esters of lower alcohols with formic, acetic, and propionic acids. For example, the grade AA specification requires a minimum methanol concentration of 99.85% by weight, wherein ethanol should not exceed 10 ppm by weight.
“Distillation” means a method for separating liquid mixtures into two or more vapor or liquid products with different compositions. Distillation is an equilibrium stage operation. In each stage, a vapor phase is contacted with a liquid phase and mass is from vapor to liquid and from liquid to vapor. The less volatile, “heavy” or “high boiling”, components concentrate in the liquid phase; the more volatile, “light”, components concentrate in the vapor. By using multiple stages in series with recycle, separation can be accomplished.
The feed to a distillation column may be liquid, vapor, or a liquid-vapor mixture. It may enter at any point in the column. More than one stream may be fed to the system, and more than one product may be drawn. Distillation at the concentration column typically takes place at the lowest possible pressure, but in the present invention we increase pressure to recover the heat.
Green methanol plant means a plant using renewable H2 as feed.
“Heat duty” or “Duty” means the amount of heat needed to transfer from a hot side to the cold side over a unit of time. The equation to calculate the heat duty is normally written in two ways: a) one that can be used for sensible heat transferred, which means that the fluid undergoes no phase change; b) the other can be used for latent heat transferred, which means that the fluid undergoes a phase change. i.e. condenses.
“Heat exchanger” means a system used to transfer heat between two or more fluids.
Heat exchangers are used in both cooling and heating processes. The fluids may be separated by a solid wall to prevent mixing or they may be in direct contact. In particular, “heat exchanger” means a reboiler/condenser, such as a tube bundle exchanger, for example with evaporation of the solution in the shell side and condensation of the distillate in the tube side (or vice-versa). It is also possible to use a plated heat exchanger with heat exchange plates housed inside a shell.
“Heavy by-products” or “side streams”, H, means a stream comprising higher alcohols and other minor bi-products recovered from the last concentration column—typically taken out in between the feed tray and the bottom of the column. It is also known as “fusel oil” and comprises water, residual methanol (ca. 1% of the total) and most of the by-products of the synthesis reaction. Said fusel oil has a certain heat value and is usually used as a fuel or feed to a synthesis gas generation section. Side streams of fusel oil can also be extracted, if suitable, from the intermediate distillation stages.
High pressure distillation means a distillation method that operates above the normal operating pressure. Typically methanol distillation is operated at low pressures to ease the separation of components, but high pressure distillation is operated at elevated pressures, such as higher than 2 barg.
Loaded carbon dioxide sorbent means a solution comprising the captured CO2.
Methanol (MeOH) synthesis gas means syngas containing components for MeOH synthesis, a mixture of H2, CO and CO2 (alternatively only H2 and CO2).
Overhead duty means the transferred heat that is achieved by condensing the methanol vapor in the top of the column, e.g, a concentration column.
“Partial reboiler” means a reboiler where only part of the liquid in the column base is vaporized. The vapor produced is returned to the column, and the liquid stream is removed as product or feed to an additional column. The compositions of these three streams are different. Partial reboilers also provide an ideal separation stage. Sidestream reboilers can be used, which draw liquid off a tray, heat it, and then return the vapor liquid mixture to the same or similar trays.
Physical sorbent means a sorbent that absorbs CO2 without forming a chemical bond with the active component and CO2.
“Pressure”, P, means gauge pressure and is measured in bar(g). Gauge pressure is the pressure relative to atmospheric pressure and it is positive for pressures above atmospheric pressure, and negative for pressures below it. The difference between bar and bar(g) is the difference in the reference considered. Measurement of pressure is always taken against a reference and corresponds to the value obtained in a pressure measuring instrument. If the reference in the pressure measurement is vacuum we obtain absolute pressure and measure it in bar only. If the reference is atmospheric pressure then pressure is cited in bar(g).
Raw methanol product means a liquid product directly from synthesis in step (d) in the method of the present invention, mainly methanol but also water, byproducts and dissolved gasses.
“Reboiler” means a heat exchanger typically used to provide heat to the bottom of industrial distillation columns. Reboilers boil the liquid from the bottom of a distillation column to generate vapors which are returned to the column, to drive the distillation separation. The heat supplied to the column by the reboiler at the bottom of the column is removed by the condenser at the top of the column. Most reboilers are of the shell and tube heat exchanger type and normally steam is used as the heat source in such reboilers. However, other heat transfer fluids like hot synthesis gas, oil or Dowtherm (TM) may be used. Fuel-fired furnaces may also be used as reboilers in some cases.
“Stabilizing column” or Topping column or pre-run column is for separating the more volatile components from the heavier components, both contained in the crude product, such as crude methanol.
“Volatile components” or “volatile substances” means components or substances which vaporize readily at low temperatures. Volatility can also describe the tendency of a vapor to condense into a liquid or solid: less volatile substances will more readily condense from a vapor than highly volatile ones. Vapor pressure is a measurement of how readily a condensed phase forms a vapor at a given temperature. A substance enclosed in a sealed vessel initially at vacuum (no air inside) will quickly fill any empty space with vapor. After the system reaches equilibrium and no more vapor is formed, this vapor pressure can be measured. Increasing the temperature increases the amount of vapor that is formed and thus the vapor pressure. In a mixture, each substance contributes to the overall vapor pressure of the mixture, with more volatile compounds making a larger contribution. Boiling point is the temperature at which the vapor pressure of a liquid is equal to the surrounding pressure, causing the liquid to rapidly evaporate, or boil. It is closely related to vapor pressure, but is dependent on pressure. The normal boiling point is the boiling point at atmospheric pressure, but it can also be reported at higher and lower pressures.
“Upper stream” or “Top stream” means a stream obtained or recovered from the upper section of a column.
The present invention provides for a reduced overall energy consumption of the green plant (re-use of the distillation energy into the stabilizer column and CO2 reboiler in carbon capture unit) and thereby a reduced electrical import for heater/boiler (or reduced fuel consumption in steam generation).
The present invention uses one or more columns for distillation, wherein the column at the highest pressure is connected to at least one CO2 stripping unit. Said one or more columns comprise a stabilizing column V0, at pressure P0, connected in series with at least one distillation column V1, at pressure P1, wherein each column is associated to a heat exchanger E0 and E1, said heat exchanger being a reboiler for that column, characterized in that,
One purpose of the present invention is the reduction of energy input for green methanol plants. A standard layout has been developed where the plant consists of electrolyser, carbon capture, methanol synthesis and methanol distillation. Both a traditional carbon capture unit and the methanol distillation unit require heat in order to drive the CO2 stripping (e.g., in a carbon capture unit) and the raw methanol distillation. Normally the heat is supplied by steam and since there is no excess steam available in a typical green methanol plant, this steam has to be generated by electricity (if CO2 emissions should be minimized) or alternatively burning fuel to generate the steam.
By changing to a high pressure distillation step the overhead duty obtained from the overhead stream (1) in the concentration column can be used as reboiler duty in the CO2 stripping process (in carbon capture unit) and alternatively also in the stabilizer column inside the methanol distillation or supplied to district heating. Preferably, the operating pressure at the concentration column is higher than or approximately 2 barg.
The present invention has as main advantage the overall reduced energy consumption, i.e., approximately the same amount of heat sent to the concentration column can be reused in the CO2 reboiler.
Energy consumption in CO2 stripper and methanol distillation
By using the method, system and plant of the present invention, the total steam consumption is therefore significantly reduced, in this particular case by approximately 39%, in relation to the standard solution.
| Number | Date | Country | Kind |
|---|---|---|---|
| 21151426.0 | Jan 2021 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2022/050541 | 1/12/2022 | WO |
