Difference between revisions of "Drying"
| [checked revision] | [checked revision] |
Lars Krause (talk | contribs) |
Aylin Özgen (talk | contribs) m (Proofreading- some little adjustments) |
||
| Line 14: | Line 14: | ||
=== Air drying === | === Air drying === | ||
Process that involves the evaporation of liquids under an oxygen atmosphere. The exchange of oxygen with low humidity accelerates this process but may lead to an (unwanted) oxidation of the product. | Process that involves the evaporation of liquids under an oxygen atmosphere. The exchange of oxygen with low humidity accelerates this process, but may lead to an (unwanted) oxidation of the product. | ||
=== Nitrogen drying === | === Nitrogen drying === | ||
Process that involves the evaporation of liquids under an nitrogen atmosphere. The exchange of nitrogen accelerates this process. Since nitrogen is an inert gas unwanted reactions such as oxidation of the product are avoided. | Process that involves the evaporation of liquids under an nitrogen atmosphere. The exchange of nitrogen accelerates this process. Since nitrogen is an inert gas, unwanted reactions such as oxidation of the product are avoided. | ||
=== Freeze drying === | === Freeze drying === | ||
| Line 23: | Line 23: | ||
=== Thermal drying === | === Thermal drying === | ||
Process that involves the vaporisation/evaporation of liquids through the application of heat under different atmospheres. With increasing application of heat the process can be accelerated. Very high temperatures may lead to unwanted reactions of the product. Examples for thermal drying technologies are flash (pneumatic) drying, radiative drying, solar drying, drum drying, and supercritical drying. | Process that involves the vaporisation/evaporation of liquids through the application of heat under different atmospheres. With increasing application of heat, the process can be accelerated. Very high temperatures may lead to unwanted reactions of the product. Examples for thermal drying technologies are flash (pneumatic) drying, radiative drying, solar drying, drum drying, and supercritical drying. | ||
=== Vacuum drying === | === Vacuum drying === | ||
Process that involves the evaporation of | Process that involves the evaporation of liquids under a vacuum atmosphere. The vacuum atmosphere allows the evaporation of liquids at lower temperatures than under atmospheric pressure. | ||
== Product == | == Product == | ||
Revision as of 10:56, 1 February 2022
| Technology | |
| |
| Technology details | |
| Name: | Drying |
| Category: | |
| Feedstock: | Biowaste including liquids |
| Product: | Dry biomass |
Drying technologies are based on the vaporisation/evaporation or sublimation of different liquids or solids under different gas atmospheres and physical conditions resulting in dry products or products with a desired humidity.
Feedstock
Origin and composition
Pre-treatment
Process and technologies
Air drying
Process that involves the evaporation of liquids under an oxygen atmosphere. The exchange of oxygen with low humidity accelerates this process, but may lead to an (unwanted) oxidation of the product.
Nitrogen drying
Process that involves the evaporation of liquids under an nitrogen atmosphere. The exchange of nitrogen accelerates this process. Since nitrogen is an inert gas, unwanted reactions such as oxidation of the product are avoided.
Freeze drying
Also known as lyophilisation. The technology represents a low temperature and pressure dehydration process that involves freezing the product, lowering pressure ("vacuum"), then removing the ice by sublimation and condensing.
Thermal drying
Process that involves the vaporisation/evaporation of liquids through the application of heat under different atmospheres. With increasing application of heat, the process can be accelerated. Very high temperatures may lead to unwanted reactions of the product. Examples for thermal drying technologies are flash (pneumatic) drying, radiative drying, solar drying, drum drying, and supercritical drying.
Vacuum drying
Process that involves the evaporation of liquids under a vacuum atmosphere. The vacuum atmosphere allows the evaporation of liquids at lower temperatures than under atmospheric pressure.
Product
Post-treatment
Technology providers
| Company name | Country | City | Technology category | Technology name | TRL | Capacity [kg/h] | Processable volume [L] | Processable mass [kg] | Temperature [°C] | Pressure [Bar] | Feedstock: Food waste | Feedstock: Garden & park waste |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Company 1 | Germany | Cologne | Freeze drying | Powerdry 5000 | 9 | 0.00138 | 100 | 1 | -20 | 0.0004 | ● | ● |
| Company 2 | France | Paris | Nitrogen drying | Nitrodry | 9 | 0.003 | 0.5 | 0.5 | 20 | 1 | ● | ● |
Company 1
| General information | |||
| Company: |
| ||
| Country: | |||
| Contact: | |||
| Webpage: | |||
| Technology and process details | |||
| Technology name: | Technology category: | Pre-processing (Separation technologies), Post-processing (Separation technologies) | |
| TRL: | Capacity: | kg·h-1 | |
| Atmosphere: | Evaporable substances: | ||
| Pressure: | bar | Processable mass: | kg |
| Processable volume: | L | Temperature: | °C |
| Other: | |||
| Feedstock and product details | |||
| Feedstock: | Product: | ||
Description of company 1
Mastershred GmbH
Description of company 2
Open access pilot and demo facility providers
Pilots4U Database (Evaporation)
Patents
Currently no patents have been identified.