AQCS NID? flue gas desulphurisation0 pages
AQCS PRODUCT SOLUTIONS
NID™ flue gas
desulphurisation
With more than 80 years
of experience, Alstom
is a global leader in air
quality control systems.
Our NID™ process is the
flue gas desulphurisation
system of choice for
most types of inland
power, waste-to-energy
and industrial plants.
Proven technology and best-in-class
performance
The NID™ system is Alstom’s dry flue gas desulphurisation system with
multi-pollutant control properties and zero waste water discharge.
The system comprises a hydrator/mixer, J-duct reactor and typically a fabric filter.
The NID™ can be used with electrostatic precipitators as well.
In the J-duct reactor, acid gases like SOx, HCl and HF react with the hydrated lime,
produced on-line from quick lime. Once bound to the particulate matter, the gaseous
pollutants are removed from the flue gas in a downstream particulate collection device.
To further enhance the Hg collection, PAC can be injected. The collected particles
are recycled to the mixer where freshly produced hydrated lime and water are added
to the process.
The inclusion of the patented integrated hydrator/mixer eliminates the need for slurry
handling, simplifying the operations, maintenance and power requirements of the
process. The high rates of sorbent recycling also contribute to the low costs and high
efficiency of Alstom’s NID™ process.
Customer benefits
TPWR/PRSHT/NID FGD/EN/10.13/CHE/1582
Multi-pollutant control
SO2 removal: Up to 98% with competitive
lime stoichiometries. SO3 removal to less
than 1 ppm, and filterable PM to less than
0.012 lb / MBtu or 15 mg / Nm3. Hazardous
air pollutants removal efficiencies are
higher than conventional wet flue gas
desulphurisation.
Compact footprint
Occupying less than 50% of the footprint of
a comparable spray dryer, the entire NID™
system fits within the footprint of the fabric
filter making it ideal for retrofits where
space is limited. Square modules maximise
shop fabrication and are easily transported
over-the-road or by barge.
Modular design
Independent modules and a variable reactor
width allow exact matching to process
requirements. Excellent turndown of up to
50% per module with no flue gas recirculation
required at lower loads. High reliability
achieved through installed spare module. No
scale-up issues for large applications.
Low lifecycle costs
Among competing types of desulphurisation
systems, NID™ is usually the most cost
effective solution in terms of the capital cost
and operating expenses.
Water
Zero liquid discharge. Low water consumption.
Ability to use low quality water such as
cooling tower blowdown or WFGD purge.
CAPTION_WHITE_lore_ipsum_(Optional)
© ALSTOM 2013. All rights reserved. Information contained in this document is indicative only. No representation or warranty is given or should be
relied on that it is complete or correct or will apply to any particular project. This will depend on the technical and commercial circumstances. It is
provided without liability and is subject to change without notice. Reproduction, use or disclosure to third parties, without express written authority,
is strictly prohibited. Photo credits: © ALSTOM 2013. All rights reserved. Printed on environmentally friendly paper.