Revised Application technology mash cooling in the Food & Beverages sector

Mash cooling with gas

The use of CO2 snows provides a good solution to prevent unwanted microbiological activity during mash cooling.

MESSER SOLUTION

The grapes can be mixed with dry ice snow via cooling lances after being crushed in the mash tank, or dry ice pellets are added to the tank manually. Thus, the mash is cooled from the inside and is kept at the desired temperature. By cooling with carbon dioxide, yeasts are hindered in their activity. Moreover, the liberated carbon dioxide gas displaces ambient oxygen and prevents further oxidation.

Mash cooling with dry ice offers in particular the following advantages:

  • By deliberately influencing maceration times, more of the desired contents, such as fruit and color materials, are extracted from the grape skin and the fruit pulp
  • Very gentle treatment of the mash
  • Sulphurisation can be kept to a minimum
  • Efficient and rapid cooling
  • Displacement of ambient oxygen
  • Maximum removal of dissolved oxygen
  • User-friendly operation
  • Low space and personnel requirements
  • Low maintenance costs
  • Favorable operating costs

Messer will assist in the selection of the process and the provision of the necessary technical equipment as well as the required carbon dioxide.

Revised Customer process mash cooling in the Food & Beverages sector

Mash cooling with gas

Optimizing the temperature of grapes in the mash tank

Contact form for every page

Contact us

select action

Form

Basic form with Pardot

Došlo je do pogreške u obradi registracije. Molimo vas da dvaput provjerite unesene informacije.
By clicking I accept the GDPR policy of the Messer Group. This agreement can be revoked at any time

Contact form for every page

Contact us

select action

Form

Basic form with Pardot

Došlo je do pogreške u obradi registracije. Molimo vas da dvaput provjerite unesene informacije.
By clicking I accept the GDPR policy of the Messer Group. This agreement can be revoked at any time