Decaffeination of raw coffee by means of compressed nitrous oxide
Compressed gases are increasingly used as solvents in food processing. The applicability of these dense supercritical gases essentially depends on their solvent power. With respect to decaffeination the solubility of caffeine in nitrous oxide has been determined as a function of temperature and pressure. In nitrous oxide, saturated with water, about 600 ppm of caffeine is dissolved at 100 grade centigrade and 30 MPa. Most of the increase in solubility occurs in the pressure range from 10 to 20 MPa. On the basis of these results an investigation of the decaffeination of raw coffee was initiated, comprising the essential process steps of extraction and recovering the caffeine. For the experiments a commercially available apparatus with 4000 cm3 extraction volume was modified for our purposes. All the investigations were accompanied by sensorial tests. The solvent ratio (mass flow of gas/quantity of coffee beans) proved to be most important. High solvent ratios (in the range of 100) at the beginning of the extraction favour the decaffeination, while they are relatively ineffective during the second half of the decaffeination process. Since the diffusion of the caffeine in the coffee bean determines mass transport, an increasing solvent ratio results in a decreasing concentration of caffeine in the nitrous oxide solvent. The mean concentration of caffeine in the gas at constant solvent ratio proved independent on the ratio of height to diameter of the bed of coffee beans within a range of 0.6 < h/f < 3.1. As expected, decaffeination was accelerated by higher pressures and higher temperatures. The caffeine was recovered from the gas by absorption with water at a somewhat lower pressure than the extraction pressure
Na minha lista:
| Principais autores: | , , |
|---|---|
| Formato: | biblioteca |
| Publicado em: |
París (Francia)
1988
|
| Assuntos: | CAFE, DESCAFEINIZACION, GASES SUPERCRITICOS, SOLVENTE, SEPARACION, CAFEINA, |
| Tags: |
Adicionar Tag
Sem tags, seja o primeiro a adicionar uma tag!
|
| id |
KOHA-OAI-BVE:81760 |
|---|---|
| record_format |
koha |
| spelling |
KOHA-OAI-BVE:817602020-02-03T21:49:05ZDecaffeination of raw coffee by means of compressed nitrous oxide 51573 Brunner, G. 3180 Association Scientifique Internationale du Café, París (Francia) 32077 12. International Scientific Colloquium on Coffee Montreal (Canadá) 29 Jun - 3 Jul 1987 París (Francia)1988Compressed gases are increasingly used as solvents in food processing. The applicability of these dense supercritical gases essentially depends on their solvent power. With respect to decaffeination the solubility of caffeine in nitrous oxide has been determined as a function of temperature and pressure. In nitrous oxide, saturated with water, about 600 ppm of caffeine is dissolved at 100 grade centigrade and 30 MPa. Most of the increase in solubility occurs in the pressure range from 10 to 20 MPa. On the basis of these results an investigation of the decaffeination of raw coffee was initiated, comprising the essential process steps of extraction and recovering the caffeine. For the experiments a commercially available apparatus with 4000 cm3 extraction volume was modified for our purposes. All the investigations were accompanied by sensorial tests. The solvent ratio (mass flow of gas/quantity of coffee beans) proved to be most important. High solvent ratios (in the range of 100) at the beginning of the extraction favour the decaffeination, while they are relatively ineffective during the second half of the decaffeination process. Since the diffusion of the caffeine in the coffee bean determines mass transport, an increasing solvent ratio results in a decreasing concentration of caffeine in the nitrous oxide solvent. The mean concentration of caffeine in the gas at constant solvent ratio proved independent on the ratio of height to diameter of the bed of coffee beans within a range of 0.6 < h/f < 3.1. As expected, decaffeination was accelerated by higher pressures and higher temperatures. The caffeine was recovered from the gas by absorption with water at a somewhat lower pressure than the extraction pressureCompressed gases are increasingly used as solvents in food processing. The applicability of these dense supercritical gases essentially depends on their solvent power. With respect to decaffeination the solubility of caffeine in nitrous oxide has been determined as a function of temperature and pressure. In nitrous oxide, saturated with water, about 600 ppm of caffeine is dissolved at 100 grade centigrade and 30 MPa. Most of the increase in solubility occurs in the pressure range from 10 to 20 MPa. On the basis of these results an investigation of the decaffeination of raw coffee was initiated, comprising the essential process steps of extraction and recovering the caffeine. For the experiments a commercially available apparatus with 4000 cm3 extraction volume was modified for our purposes. All the investigations were accompanied by sensorial tests. The solvent ratio (mass flow of gas/quantity of coffee beans) proved to be most important. High solvent ratios (in the range of 100) at the beginning of the extraction favour the decaffeination, while they are relatively ineffective during the second half of the decaffeination process. Since the diffusion of the caffeine in the coffee bean determines mass transport, an increasing solvent ratio results in a decreasing concentration of caffeine in the nitrous oxide solvent. The mean concentration of caffeine in the gas at constant solvent ratio proved independent on the ratio of height to diameter of the bed of coffee beans within a range of 0.6 < h/f < 3.1. As expected, decaffeination was accelerated by higher pressures and higher temperatures. The caffeine was recovered from the gas by absorption with water at a somewhat lower pressure than the extraction pressureCAFEDESCAFEINIZACIONGASES SUPERCRITICOSSOLVENTESEPARACIONCAFEINA |
| institution |
IICA |
| collection |
Koha |
| country |
Costa Rica |
| countrycode |
CR |
| component |
Bibliográfico |
| access |
En linea |
| databasecode |
cat-sibiica |
| tag |
biblioteca |
| region |
America Central |
| libraryname |
Sistema de Bibliotecas IICA/CATIE |
| topic |
CAFE DESCAFEINIZACION GASES SUPERCRITICOS SOLVENTE SEPARACION CAFEINA CAFE DESCAFEINIZACION GASES SUPERCRITICOS SOLVENTE SEPARACION CAFEINA |
| spellingShingle |
CAFE DESCAFEINIZACION GASES SUPERCRITICOS SOLVENTE SEPARACION CAFEINA CAFE DESCAFEINIZACION GASES SUPERCRITICOS SOLVENTE SEPARACION CAFEINA 51573 Brunner, G. 3180 Association Scientifique Internationale du Café, París (Francia) 32077 12. International Scientific Colloquium on Coffee Montreal (Canadá) 29 Jun - 3 Jul 1987 Decaffeination of raw coffee by means of compressed nitrous oxide |
| description |
Compressed gases are increasingly used as solvents in food processing. The applicability of these dense supercritical gases essentially depends on their solvent power. With respect to decaffeination the solubility of caffeine in nitrous oxide has been determined as a function of temperature and pressure. In nitrous oxide, saturated with water, about 600 ppm of caffeine is dissolved at 100 grade centigrade and 30 MPa. Most of the increase in solubility occurs in the pressure range from 10 to 20 MPa. On the basis of these results an investigation of the decaffeination of raw coffee was initiated, comprising the essential process steps of extraction and recovering the caffeine. For the experiments a commercially available apparatus with 4000 cm3 extraction volume was modified for our purposes. All the investigations were accompanied by sensorial tests. The solvent ratio (mass flow of gas/quantity of coffee beans) proved to be most important. High solvent ratios (in the range of 100) at the beginning of the extraction favour the decaffeination, while they are relatively ineffective during the second half of the decaffeination process. Since the diffusion of the caffeine in the coffee bean determines mass transport, an increasing solvent ratio results in a decreasing concentration of caffeine in the nitrous oxide solvent. The mean concentration of caffeine in the gas at constant solvent ratio proved independent on the ratio of height to diameter of the bed of coffee beans within a range of 0.6 < h/f < 3.1. As expected, decaffeination was accelerated by higher pressures and higher temperatures. The caffeine was recovered from the gas by absorption with water at a somewhat lower pressure than the extraction pressure |
| format |
|
| topic_facet |
CAFE DESCAFEINIZACION GASES SUPERCRITICOS SOLVENTE SEPARACION CAFEINA |
| author |
51573 Brunner, G. 3180 Association Scientifique Internationale du Café, París (Francia) 32077 12. International Scientific Colloquium on Coffee Montreal (Canadá) 29 Jun - 3 Jul 1987 |
| author_facet |
51573 Brunner, G. 3180 Association Scientifique Internationale du Café, París (Francia) 32077 12. International Scientific Colloquium on Coffee Montreal (Canadá) 29 Jun - 3 Jul 1987 |
| author_sort |
51573 Brunner, G. |
| title |
Decaffeination of raw coffee by means of compressed nitrous oxide |
| title_short |
Decaffeination of raw coffee by means of compressed nitrous oxide |
| title_full |
Decaffeination of raw coffee by means of compressed nitrous oxide |
| title_fullStr |
Decaffeination of raw coffee by means of compressed nitrous oxide |
| title_full_unstemmed |
Decaffeination of raw coffee by means of compressed nitrous oxide |
| title_sort |
decaffeination of raw coffee by means of compressed nitrous oxide |
| publisher |
París (Francia) |
| publishDate |
1988 |
| work_keys_str_mv |
AT 51573brunnerg decaffeinationofrawcoffeebymeansofcompressednitrousoxide AT 3180associationscientifiqueinternationaleducafeparisfrancia decaffeinationofrawcoffeebymeansofcompressednitrousoxide AT 3207712internationalscientificcolloquiumoncoffeemontrealcanada29jun3jul1987 decaffeinationofrawcoffeebymeansofcompressednitrousoxide |
| _version_ |
1756058914330247168 |