3good reasons
to create an account
save
visualize
stay informed
create your account
save/visualize/stay informed create your account
Degrémont® water handbook Degrémont® water handbook
Menu
Close
search
Close
login
  • FR
  • EN
  • FR
  • EN
  • Water and generalities
    • Water: a fundamental element
    • What water should we treat ? and why ?
    • Fundamental physical-chemical engineering processes applicable to water treatment
    • Fundamental biological engineering processes applicable to water treatment
    • Water analysis and treatability
    • Aquatic organisms
    • Corrosion in metal and concrete
  • Formulas and tools
    • Formulary
  • Processes and technologies
    • Pre-treatments
    • Flocculators – settling tanks – flotation units
    • Biological processes
    • Methane fermentation
    • Filters
    • Using ion exchangers
    • Separation by membranes
    • Degasification, odour control, evaporation
    • Oxidation-disinfection
    • Liquid sludge treatment
    • Dewatered sludge treatment
    • Reagent storage and feeding
    • Instrumentation control-regulation
    • Drinking water treatment
    • Treating municipal wastewater
    • Treatment and conditioning of industrial water
    • Industrial processes and effluent treatment
  • Degrémont® technologies
    • Drinking water production
    • Desalination
    • Wastewater treatment
    • Sludge treatment
    • Air treatment
    • Cross-cutting issues, micropollutants and PFAS
  • Case studies
    • Drinking water production
    • Wastewater treatment - Reuse
    • Desalination
    • Sludge treatment
  • login
  • About us
  • Help
  • Site map
  • Legal notice
  • Contact
  • Authors
  • Youtube
  • About us
  • Help
  • Site map
  • Legal notice
  • Contact
  • Authors
  • Youtube

  • Water and generalities
  • Formulas and tools
  • Processes and technologies
  • Degrémont® technologies
  • Case studies
search Close
  • Home
  • search

search results

refine results

all contents medias
all contents
medias

filter results

cancel all filters

search results

281 results found for:
Close
Print
Click here to create your account in order to view the illustrations
Table 1. - Main sludge composting processes
Close
Print
Click here to create your account in order to view the illustrations
Thermoposting biocontainer
Figure 3. - Cross section of a Thermoposting biocontainer
Close
Print
Click here to create your account in order to view the illustrations
Figure 1. - OM evolution during composting
Close
Print
Click here to create your account in order to view the illustrations
Vomm-type indirect/direct dryer
Figure 9. - Line diagram of a Vomm-type indirect/direct combined dryer
Close
Print
Click here to create your account in order to view the illustrations
Evaporis™ LT dryer – STC dryer
Figure 8. - Evaporis™ LT dryer – dryer profil view inside of STC dryer
Close
Print
Click here to create your account in order to view the illustrations
Drum dryers – flow diagram Andritz dryer
Figure 11. - Drum dryers – Process flow diagram for Andritz dryer
Close
Print
Click here to create your account in order to view the illustrations
Thin layer dryer - Buss
Figure 10. - Thin layer dryer (Buss)
Close
Print
Click here to create your account in order to view the illustrations
Pre-granulated sludge
Photo 9. - Pre-granulated sludge (70% DM when exiting the mixer)
Close
Print
Click here to create your account in order to view the illustrations
Evaporis™ LT dryer
Figure 7. - Evaporis™ LT dryer – Diagram showing the different parts of the dryer
Close
Print
Click here to create your account in order to view the illustrations
Andritz Gouda Dryer
Photo 8. - Andritz Gouda (ex Naratherm) Dryer
Close
Print
Click here to create your account in order to view the illustrations
Granule
Photo 6. - Granule example
Close
Print
Click here to create your account in order to view the illustrations
powder
Photo 7. - Photo of powder
Close
Print
Click here to create your account in order to view the illustrations
Table 6. - NARA heat balance per kg · h–1 of water evaporated (based on a 20 % dry solids content sludge, 90 % dry)
Close
Print
Click here to create your account in order to view the illustrations
Figure 18. - Illustration of the impact of the Evaporis™ LE's 1st and 2nd levels combination on thermal consumption savings
Close
Print
Click here to create your account in order to view the illustrations
Héliantis glasshouse Reignier
Photo 16. - Héliantis glasshouse at Reignier (Upper Savoie, France), 320 t DM per year: a 120 m glasshouse, harrow raised
Close
Print
Click here to create your account in order to view the illustrations
Harrow glasshouse Sargans Switzerland
Photo 15. - Harrow operating in a glasshouse (Sargans, Switzerland)
Close
Print
Click here to create your account in order to view the illustrations
harrow Héliantis glasshouse
Figure 20. - Operating principle of the harrow in a Héliantis glasshouse
Close
Print
Click here to create your account in order to view the illustrations
Sludge granules Héliantis glasshouse
Photo 14. - Sludge granules produced in a Héliantis glasshouse
Close
Print
Click here to create your account in order to view the illustrations
Héliantis
Figure 19. - Héliantis: the principle
Close
Print
Click here to create your account in order to view the illustrations
Figure 41. - Particle size distribution of dust issued from incineration flue gases from three typical sludges
61 - 80 of 281 result(s)
  • 1
  • 2
  • 3
  • 4
  • 5
  • 6
  • 7
  • …
  • 15
Back to the top
  • About us
  • Help
  • Site map
  • Legal notice
  • Contact
  • Authors
  • cookies management
  • Youtube
Suez Suez

SUEZ's Degrémont® water handbook offers to water treatment professionals, fundamental concepts of water treatment processes and technologies as well as degremont® solutions applied to treatment line and adapted to each use of water. Designed by field men for field men, this valuable tool is essential for site managers, environmental managers, quality managers, maintenance managers, stakeholders in sustainable development, water agencies, documentation centers in universities, consultants, local authority technical departments, water management companies, etc.

Piano Analytics (Essential mode-Opt-in)

The Piano Analytics (AT Internet) audience measurement service aims to produce statistical and digital intelligence data and analyses, then to provide them via a secure web interface, or via export of this data.

When you enter to this website, the Piano Analytics (AT Internet) service is set to "essential", so that only strictly necessary information, without identifying data, can be transmitted.

When you give your consent, Piano Analytics (AT Internet) is set to "opt-in", it will process personal data.

At any time, you can choose to withdraw this consent. In this case, Piano Analytics (AT Internet) will switch back to "essential" mode.

You also have the option of activating the "opt-out" option on the legal notice page. Once in opt-out mode, no audience measurement data is collected; only a passing signal is collected by Piano Analytics (AT Internet) and returned in the "privacy - opt-out" report.

OK Prohibit
Learn more