Title: PowerPoint-Pr
1 Poster Presentation Zero Emissions - Case
Study Pharmaceutical Company at Integrative
Approaches Towards Sustainability Jurmala, May
11-14, 2005, Latvia Christian Zwatz Institute
for Resource Efficient and Sustainable
Systems Graz University of Technology
2Action Plan for Case Studies
- Creating process flow charts
- Mass and heat balances and analysis of critical
points - Searching for relevant parameters
- Sankey chart
- Prevention and/or recycling of emissions and
waste - Zero Emissions Matrix and decision tree
- ZEW methods
- Closed loop engineering
- Heat integration and by - products
- Process optimisation
- List of measures
- Implementation of Zero Emissions Techniques
A Local Water Supply B Soften Water C Steam
Boiler D Ion Exchanger E Heating for
distillation holding tank F Distillation
Device G Distillation holding tank H Water
Cooler I Base of product J Cleaning of the
batching tank
K Cooling of the product L Filling M
Autoclave N End product O Canalisation P
Re-cooling / Air Condition X Mixture of water
for cooling water recirculation Z Cooling Pond
A Local Water Supply B Soften Water C Steam
Boiler D Ion Exchanger E Heating for
distillation holding tank F Distillation
Device G Distillation holding tank H Water
Cooler I Base of product J Cleaning of the
batching tank
K Cooling of the product L Filling M
Autoclave N End product O Canalisation P
Re-cooling / Air Condition X Mixture of water
for cooling water recirculation Z Cooling Pond
3Flow Chart and Critical Point
critical point
1 Tape water 2 Demineralised water 3 Steam
Recirculation 4 Steam 5 Distilled water 6
Product 7 End product 8 Effluent
C Steam Boiler D Ion Exchanger F
Distillation Device I Base of product K
Cooling of the product L Filling M Autoclave
Max. cooling water inlet temperature for
Autoclave (M), basis for closing loops
Potential for optimisation
- Max. cooling time 25 min
- Outlet Temperature 60C
- Permissible Inlet Temperature 45C
Minimize Energy Consumption
4List of Measures
External Loop Cooling Pond
External closed loop
Outflow V 14000 m³/a Tout 30C
Inflow V 14000 m³/a Tin 40 60C
Apond 300 m²
Max. cooling water inlet temperature - Figure
5 for Autoclave (M), basis for the internal
closed loop Internal closed loop Figure 3 and
4 Cooling of the autoclave M with process water
from G and H Waste water of the cleaning process
in J can be used as boiler feed water in C Using
of the complete demineralised water from D for
cooling the distillation device F Use of the
industrial heat in the surrounding area
5List of Measures
Internal closed loop Secondary use of cooling
water from the process for cooling autoclave
Water of the cleaning process can be used as
boiler feed Optimisation of the distillation
device Using cooling water for feed
6 Poster Presentation Zero Emissions - Case
Study Pharmaceutical Company at Integrative
Approaches Towards Sustainability Jurmala, May
11-14, 2005, Latvia Christian Zwatz Institute
for Resource Efficient and Sustainable
Systems Graz University of Technology