The availability of CO2 for bottling plants is of utmost importance which is the reason why numerous bottling plants decide in favour of an onsite CO2 Recovery or CO2 Production System.
CO2 Stack Gas Recovery Plant (SGR)
The CO2 Stack Gas Recovery plant enables to recover CO2 from flue gas production of boilers or other flue gas sources.
The flue gas is separated from sulphur compound in a CO2 washer (scrubber) before it is transported into the absorber where it is absorbed by the specially formulated ASCOSORB solvent. This ASCOSORB solvent is heated by the steam-controlled reboiler in order to separate the CO2 gas again.
CO2 By-Product Recovery Plant (BPR)
Be it from an alcoholic fermentation process, other industrial sources (e.g. ammonia or ethylene oxide production) or natural sources, ASCO finds your individual CO2 recovery solution.
The high-purity source with a CO2 concentration of > 95 % is the base for a high-economical CO2 production. Depending on this source the CO2 requires certain types of purification, before it is compressed and liquefied to become ISBT quality and is then stored in a designated tank.
CO2 gas is usually produced in large plants and from a variety of sources and is delivered via an internal logistics network to the enduser. Power efficiency, reliability, quality and last but not least economical feasibility are of greatest importance, which ASCO meets with its wide range of products in regards to CO2 Production and Recovery Plants.
CO2 By-Product Recovery Plant (BPR)
Be it from an alcoholic fermentation process, other industrial sources (e.g. ammonia or ethylene oxide production) or natural sources, ASCO finds your individual CO2 recovery solution.
The high-purity source with a CO2 concentration of > 95 % is the base for a high-economical CO2 production. Depending on this source the CO2 requires certain types of purification, before it is compressed and liquefied to become ISBT quality and is then stored in a designated tank.
CO2 Stack Gas Recovery Plant (SGR)
The CO2 Stack Gas Recovery Plant enables to recover CO2 from flue gas production of boilers or other flue gas sources.
The flue gas is separated from sulphur compound in a CO2 washer (scrubber) before it is transported into the absorber where it is absorbed by the specially formulated ASCOSORB solvent. This ASCOSORB solvent is heated by the steam-controlled reboiler in order to separate the CO2 gas again.
CO2 Revert Recovery Systems for Dry Ice Machines (RRSi)
When dry ice is produced the conversion rate from liquid CO2 to dry ice is approx. 40-45 %. This means 55-60 % is lost to the atmosphere. This conversion rate is a physical fact and therefore, unfortunately, not to change. With a CO2 Revert Recovery System, however, most of the CO2 can be recovered which leads to a final conversion rate of approx. 90-95 %. This way, the dry ice production costs are reduced up to 50 %.
Most CO2 sources arise from a reaction to form a by-product of another process. With these sources and the availability of large amounts of raw CO2 gas the chemical and industrial gas industries can look to recover, process and liquefy CO2 for their own use or marketing purposes.
ASCO offers various possibilties of recovering CO2 from chemical and thermal processes as well as from burning processes.
Our experts will be pleased to provide advice in choosing the most economical solution.
CO2 By-Product Recovery Plant (BPR)
Be it from an alcoholic fermentation process, other industrial sources (e.g. ammonia or ethylene oxide production) or natural sources, ASCO finds your individual CO2 recovery solution.
The high-purity source with a CO2 concentration of > 95 % is the base for a high-economical CO2 production. Depending on this source the CO2 requires certain types of purification, before it is compressed and liquefied to become ISBT quality and is then stored in a designated tank.
CO2 Stack Gas Recovery Plant (SGR)
The CO2 stack gas recovery plant enables to recover CO2 from flue gas production of boilers or other flue gas sources.
The flue gas is separated from sulphur compound in a CO2 washer (scrubber) before it is transported into the absorber where it is absorbed by the specially formulated ASCOSORB solvent. This ASCOSORB solvent is heated by the steam-controlled reboiler in order to separate the CO2 gas again.
The desalination of seawater is the only possibility to generate drinking water for many regions of the world. Thereby, the water's PH regulation is of utmost importance which is why an on-site CO2 Production or Recovery System becomes useful especially for these applications.
CO2 Stack Gas Recovery Plant (SGR)
The CO2 stack gas recovery plant enables to recover CO2 from flue gas production of boilers or other flue gas sources.
The flue gas is separated from sulphur compound in a CO2 washer (scrubber) before it is transported into the absorber where it is absorbed by the specially formulated ASCOSORB solvent. This ASCOSORB solvent is heated by the steam-controlled reboiler in order to separate the CO2 gas again.
When dry ice is produced the conversion rate from liquid CO2 to dry ice is approx. 40-45 %. This means 55-60 % of the total amount of liquid CO2 is lost or vented to the atmosphere. Therefore, CO2 Recovery Systems for Dry Ice Machines offer the ideal possibilty to recover this normally lost CO2 gas.
CO2 Recovery System for Dry Ice Machines (RRSi)
When dry ice is produced the conversion rate from liquid CO2 to dry ice is approx. 40-45 %. This means 55-60 % is lost to the atmosphere. This conversion rate is a physical fact and therefore, unfortunately, not to change. With a CO2 Revert Recovery System, however, most of the CO2 can be recovered which leads to a final conversion rate of approx. 90-95 %. This way, the dry ice production costs are reduced up to 50 %.