Ceramic Membranes the Hot Topic
Ceramic membranes seemed to be the hot topic of this year’s AMTA/AWWA Membrane Technology Conference, with a dedicated session of presentations and several other presentations spread throughout the program. There were also at least four companies in the exhibition offering ceramic membranes or systems using ceramic membranes. The companies I saw were Metawater, Nanostone, PWN and Meiden. There may have been more, but I didn’t have a lot of time to thoroughly walk the show floor this year.
After a lot of fascination with ceramic membranes in the U.S. for at least the past 10 years the technology is finally gaining some traction with the first large-scale system (10 MGD) starting up at Parker, CO in 2015 and another large scale installation under construction at Butte, MT. Both of these systems will be using Metawater’s ceramic membrane.
Reuter-Hess Water Purification Facility, Parker, CO |
Not all Ceramic Membranes are the Same!
I also
learned at the show that not all ceramic membranes are the same and therefore
the benefits provided vary.
Metawater:
PWN Technologies:
Based in the
Netherlands, PWN sources its ceramic membranes from Metawater but rather than
putting these in individual housings, PWN combines the elements in a CeraMac®
block of up to 192 elements in a single stainless steel vessel. The vessels look
like large circular cartridge filter housings (or pressure cookers). The
membrane system has all the benefits of the Metawater ceramic element and PWN
says it has a lot smaller footprint and is more economical with the elements
all bundled on a single housing. Like Metawater, PWN is also selling complete
membrane systems. The CeraMac system certainly looks a lot different to your typical
membrane plant and I am not sure how U.S. regulatory authorities would feel
about having so many elements in a single vessel for integrity testing for
drinking water applications. I know Metawater/PWN will say that integrity
testing is not an issue because there will never be a break, but that will be a
hard one to get past the regulators.Nanostone Water:
A relatively
new player in the ceramic membrane market, Nanostone has taken a different
approach in developing a lower cost ceramic membrane, with a goal of being
closer in capital cost to polymeric membrane systems and not relying as much on
the long membrane life as Metawater and PWN for competitive 20-year or longer lifecycle
cost comparisons against polymeric membranes. Nanostone’s business model is also to just sell
their ceramic membrane modules to OEMs who build membrane systems.
Segment of a Nanostone Ceramic Membrane |
Nanostone’s
ceramic membranes are manufactured as flat sheets with multiple rows of feed
tubes. These flat sheet segments are incorporated into a PVC pressure housing,
similar to that used for polymeric hollow fiber membranes. The segments are ‘glued’
together at each end using a potting material similar to polymeric hollow fiber
membranes. The ceramic membrane module looks very similar to a polymeric hollow
fiber membrane module and Nanostone is looking at the potential to use these
modules in Universal MF/UF racks designed for polymeric hollow fiber membrane
modules.
Ceramic Segments Potted Together |
Nanostone Ceramic Membrane Module |
I can see
how this ceramic membrane will be lower cost with the manufacture of flat
sheets rather than more complex circular ceramic elements and with the use of
PVC housings rather than stainless steel. Header piping for the modules can
also be PVC or HDPE rather than stainless steel. However this lower cost comes
with some strings attached. Because of the potting of the ceramic segments and
the PVC housings, these modules cannot withstand the extreme temperatures and
chemical exposure of the Metawater/PWN elements, so probably can’t be used for
the same ‘dirty’ applications that require extreme cleanings. While the
membrane itself is ceramic and I assume will last as long at Metawater’s, will
the potting last as long as the membranes? In my initial assessment, for a
robustness ranking, I would place the Nanostone ceramic membrane above the polymeric
hollow fiber membranes but below Metawater’s. So you get what you pay for.
Nanostone is still optimizing aspects of the module design, including the potting,
so in the future they may rise further up the robustness scale. I do like the
business model of selling the modules to OEMs who will be able to build the systems
more economically than I think Metawater or PWN can.
Meiden, who
has a flat sheet ceramic membrane, was also was exhibiting at the show. These immersed
flat sheet ceramic membranes operate as outside-in membranes. The main application for these membranes is as
MBRs and they would have all the robustness advantages over flat sheet and
hollow fiber polymeric membranes used in MBR applications.
Other 2016 MTC news:
Probably
next hottest topic at MTC was Universal/Open Platform MF/UF systems where there
was also a dedicated session plus a few other presentations in the program. Since
the 2015 MTC, there have been two large scale Universal UF systems start up at
Clifton, CO (H2O Innovation) and Santa Barbara, CA (Wigen Water Technologies)
and presentations on these systems were presented by Carollo and CDM Smith the respective
design engineers.
The other
interesting development was seeing Metawater and Aqua Aerobics with a combined
booth. I wasn’t aware at the time that Metawater had acquired Aqua Aerobics
with the announcement only a few weeks before the show. Aqua Aerobics had been
promoting UF systems using BASF/Inge’s Dizzer multi-bore PESM membranes which
are likely the most robust of the polymeric membranes on the market. I don’t
know if this acquisition was for the U.S. engineering and manufacturing capabilities
and sales network of Aqua Aerobics or if Metawater is looking to be positioned
as providing the most robust of membrane systems, both ceramic and polymeric, or
both. I will be interested to see if Metawater now starts promoting membrane
systems using the Dizzer module.
As usual,
there is never a dull moment at MTC and 2016 was no exception. It will be
interesting to see what happens in the next 12 months and what the big news will
be at Long Beach, CA in 2017. Here are my predictions:
- Ceramic membranes continue to gain steam
- Reuse, Reuse and more Reuse in California as El Nino does not deliver the needed moisture (First DPR system in CA announced?)
- Some consolidation amongst membrane OEMs as larger companies try to get in on the fast growing membrane market