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IVOC‑X brings you forward sustainably

 

IVOC‑X® CX10: Additive Manufacturing (AM)

  • Cus­to­mer: Ernst Abbe Uni­ver­sity of App­lied Sci­en­ces Jena (EAH)
  • 3D prin­ter RAISE 3D Pro2, Fila­ment ABS
  • Max. 200 μg/​min from extru­sion process

IVOC‑X® CX10 as retrofit with mobile base cabinet

  • Incre­ase of the print qua­lity through instal­la­tion space heating
  • Reduc­tion of the volume flow to max. 10 m³/​h
  • Reduc­tion of pol­lut­ants >99% → addi­tio­nal clea­ning of the ambi­ent air incl. ultra-fine par­ti­cle filter
  • Energy con­sump­tion during ope­ra­tion 0.3 kWh
  • Opti­mi­zed addi­tive manu­fac­tu­red airflow
  • No odour deve­lo­p­ment, com­pli­ance with all limit values, com­plete dest­ruc­tion of car­ci­no­ge­nic pol­lut­ants e.g. 1,3‑butadiene
  • Print per­ma­nently and secu­rely without fur­ther measures…

 

  • 200 m³/​h fan with dust filter
  • VOC Pol­lutant decom­po­si­tion 0% → Con­cen­tra­tion in the pres­sure and working chamber
  • strong odour, irri­ta­tion of the mucous membranes
  • Exten­sive for­ced ven­ti­la­tion of the working area necessary
  • Direct con­tact of the pro­ces­sor with the pol­lut­ants (respi­ra­tion)
IVOC-X_CX10 Transp

IVOC‑X® CX100: Laser cutting

  • Cus­to­mer: Ernst Abbe Uni­ver­sity of App­lied Sci­en­ces Jena (EAH)
  • 2D laser cut­ting of PMMA (Ple­xi­glas) 8 mm thick, CO2 laser Rofin 200W, 8m/​min
  • Max. flow of pol­lut­ants 120 g/​h pyro­ly­sis gases

as retrofit

  • Reduc­tion of the volume flow to 35 m³/​h (approx. 1/​60) → 3,000 mg/​m³
  • Reduc­tion of pol­lut­ants 99.9% to 3 mg/​m³ → 3 mg/​m³ con­cen­tra­tion ambi­ent air
  • Energy con­sump­tion during ope­ra­tion 0.3 kWh
    Opti­mi­zed addi­tive local suc­tion at the laser head
  • No odour deve­lo­p­ment and com­pli­ance with all limit values
  • Print per­ma­nently and secu­rely without fur­ther measures…
  • 2.000 m³/​h acti­va­ted car­bon → Dilu­tion to 60 mg/​m³
  • Pol­lutant decom­po­si­tion 50% to 30 mg/​m³ → 60 g/​h pol­lutant not converted!
  • Energy con­sump­tion during ope­ra­tion 2.2 kWh
  • strong odor, release of car­ci­no­ge­nic substances
  • Excee­dance of the occup­a­tio­nal expo­sure limit values, addi­tio­nal for­ced ventilation
  • High con­sump­tion of acti­va­ted car­bon, standstill due to change
IVOC-X_CX100 Transp

IVOC‑X® CX12.500: Packaging printing

  • Cus­to­mer: In development
  • Off­set prin­ting machine 400m/​min and 8m width full sur­face and full colour printing
  • Max. Max. pol­lutant flow 100 kg/​h Sol­vent from paint drying
  • Reduc­tion of the volume flow to 12,500 m³/​h
  • Energy con­sump­tion during ope­ra­tion 45 kWh (electri­city)
  • Dry­ing regis­ter from the prin­ting press is no lon­ger necessary due to inte­gra­ted heat recirculation
  • Almost com­plete uti­liz­a­tion of the heat of oxi­da­tion of the sol­vents for drying
  • No com­bus­tion of fos­sil raw mate­ri­als
    2300t CO2 savings per year and com­pli­ance with all limits
  • Fur­ther app­li­ca­ti­ons Methane, Syn­the­ses, SCR, Pharma, Chemical
  • Print per­ma­nently and secu­rely without fur­ther measures…

 

  • 20.000 m³/​h TNV
  • Heat reco­very 40% → 60% of energy is lost!
  • Energy con­sump­tion during ope­ra­tion 1,730 kWh
  • For­ma­tion of methane and form­alde­hyde from com­bus­tion of natu­ral gas (950*C)
  • Thick insu­la­tion for TNV sys­tem as well as for exhaust pipe
  • Indi­vi­du­ally desi­gned, inflexible
IVOC-X_CX2500 Transp
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Gefördert durch den Freistaat Thüringen aus Mitteln des Europäischen Sozialfonds.