초록

This invention relates to a process for conducting an equilibrium limited chemical reaction in a single stage process channel. A process for conducting a water shift reaction is disclosed. A multichannel reactor with cross flow heat exchange is disclosed.

대표청구항 ▼

1. A process for conducting an equilibrium limited chemical reaction in a single stage process channel to make a desired product, the single stage process channel comprising a microchannel, the process comprising:(A) flowing reactants through a first reaction zone in the single stage process channel

1. A process for conducting an equilibrium limited chemical reaction in a single stage process channel to make a desired product, the single stage process channel comprising a microchannel, the process comprising:(A) flowing reactants through a first reaction zone in the single stage process channel under a first set of reaction conditions to produce an intermediate product, the first set of reaction conditions being suitable for producing a first theoretical equilibrium product, the intermediate product comprising the desired product; and(B) flowing reactants not reacted during step (A) and the intermediate product through a second reaction zone in the single stage process channel under a second set of reaction conditions to produce the final product, the second set reaction conditions being suitable for producing a second theoretical equilibrium product, the second theoretical equilibrium product having a higher concentration of the desired product than the first theoretical equilibrium product, the final product comprising the desired product;the chemical reaction being an exothermic reaction giving off heat or an endothermic reaction absorbing heat, the single stage process channel being cooled with added cooling when the chemical reaction is an exothermic reaction, the single stage process channel being heated with added heating when the chemical reaction is an endothermic reaction, the heat given off or absorbed as a result of the exothermic or endothermic chemical reaction in combination with the added cooling or added heating providing a first temperature in the first reaction zone and a second temperature in the second reaction zone, the first temperature and the second temperature differing by at least about 20° C.2. The process of claim 1 wherein the concentration of the desired product in the final product is higher than in the intermediate product.3. The process of claim 1 wherein subsequent to step (A) but prior to step (B) the reactants not reacted during step (A) and the intermediate product formed during step (A) flow through another reaction zone in the single stage process channel under another set of reaction conditions to produce another intermediate product, the another set of reaction conditions being suitable for producing another theoretical equilibrium product, the another theoretical equilibrium product having a higher concentration of the desired product than the first theoretical equilibrium product, the another intermediate product comprising the desired product.4. The process of claim 1 wherein the chemical reaction is an exothermic reaction, and the process channel is cooled with added cooling.5. The process of claim 4 wherein the process channel is cooled using a cooling fluid, the cooling fluid flowing through a cooling channel, the flow of cooling fluid through the cooling channel being cross current relative to the flow of the reactants through the process channel.6. The process of claim 4 wherein the process channel is cooled using a cooling fluid, the cooling fluid flowing through a cooling channel, the flow of cooling fluid through the cooling channel being cocurrent relative to the flow of the reactants through the process channel.7. The process of claim 4 wherein the process channel is cooled using a cooling fluid flowing through a microchannel.8. The process of claim 4 wherein the process channel is cooled using a cooling fluid, the cooling fluid flowing through a cooling channel, the flow of cooling fluid through the cooling channel being counter current relative to the flow of the reactants through the process channel.9. The process of claim 1 wherein the chemical reaction is an endothermic reaction, and the process channel is heated with added heating.10. The process of claim 9 wherein the process channel is heated using a heating fluid, the heating fluid flowing through a heating channel, the flow of heating fluid through the heating channel being cross current relative to the flow of the reactants through the process channel.11. The process of claim 9 wherein the process channel is heated using a heating channel, the heating fluid flowing through a heating channel, the flow of heating fluid through the heating channel being cocurrent relative to the flow of the reactants through the process channel.12. The process of claim 9 wherein the process channel is heated using a heating channel, the heating fluid flowing through a heating channel, the flow of heating fluid through the heating channel belng counter current relative to the flow of the reactants through the process channel.13. The process of claim 9 wherein the process channel is heated using heating fluid flowing through a microchannel.14. The process of claim 1 wherein the reactants contact a catalyst during step (A) and/or step (B).15. The process of claim 1 wherein the reactants contact a catalyst during steps (A) and (B), the catalyst in step (A) being the same as the catalyst in step (B).16. The process of claim 1 wherein the reactants contact a catalyst during steps (A) and (B), the catalyst in step (A) being different than the catalyst in step (B).17. The process of claim 1 wherein the process channel has an entrance, an exit and an elongated section extending between the entrance and the exit, the process channel further comprising at least one additional entrance in the elongated section, at least one additional reactant entering the process channel through the at least one additional entrance.18. The process of claim 1 wherein the chemical reaction is a water gas shift reaction.19. The process of claim 1 wherein the chemical reaction is an acetylation addition reaction, alkylation, dealkylation, hydrodealkylatlon, reductive alkylation, amination, ammonia synthesis, aromatization, arylation, autothermal reforming, carbonylation, decarbonylation, reductive carbonylation, carboxylation, reductive carboxylation, reductive coupling, condensation, cracking, hydrocracking, cyclization, cyclooligomerization, dehalogenation, dimerization, epoxidation, esterification, Fischer-Tropsch reaction, halogenation, hydrohalogenation, homologation, hydration, dehydration, hydrogenation, dehydrogenation, hydrocarboxylation, hydroformylation, hydrogenolysis, hydrometallation, hydrosilation, hydrolysis, hydrotreating, isomerization, methylation, demethylation, metathesis, methanol synthesis, nitration, oxidation, partial oxidation, polymerization, reduction, reformation, reverse water gas shift, sulfonation, telomerization, transesterification, trimerization, Sabatier reaction, carbon dioxide reforming, preferential oxidation, or preferential methanation.20. The process of claim 1 wherein a plurality of the process channels are operated in parallel.21. The process of claim 1 wherein the process is conducted in an apparatus, the apparatus, comprising:an array of single stage process microchannels arranged in rows extending parallel to each other, a catalyst being contained within each single stage process microchannel; andan array of heat exchange channels arranged in rows extending parallel to each other, the heat exchange channels extending transversely of the single stage process microchannels, the rows of heat exchange channels and the rows of single stage process microchannels being positioned in separate alternating planes.22. The process of claim 21 wherein the heat exchange channels are microchannels.23. The process of claim 21 wherein the single stage process channels and the heat exchange channels are made of steel, aluminum, titanium, nickel, copper, brass, an alloy of any of the foregoing metals, a polymer, ceramics, glass, composites, quartz, silicon, or a combination of two or more thereof.