Hot Gas APC Markets, Decision Groups and SMUEs
The Hot Gas webinar on November 8 provided a good forum to discuss the impact of
IIoT on the hot gas air pollution control market. This included the role of
subject matter experts and groups to provide the needed Industrial Internet of
Wisdom (IIoW) to empower IIoT. The subject matter expert interacts with a
focused group to then become a subject matter ultra-expert (SMUE). The specific
example was the dry scrubbing systems as two NAES plants.
Bob McIlvaine provided a market forecast for hot gas air pollution control the
second speaker was Peter Spinney who made some important points relative to
combustion optimization software based on decades of experience and as a founder
of NEUCO which is now part of GE. These systems can achieve:
. Boiler efficiency increase of 0.5-0.75%
. CO controlled to desired limit
. Better ramping and load-following performance
. Reduced opacity excursions
. Avoided tail-chasing behavior
. Better adherence to fan and mill amp limits
. Improved situational awareness and process insight
NOx control optimization software can:
. Reduce Reagent Usage
. Lengthen Maintenance Intervals
. Avoid Ammonia Slip
. Reduce risk of Ammonium Bisulfate & Sulfur Trioxide deposits
. Control "Blue-Plume" Opacity Excursions
. Tighter, condition-based gas temperature control
. Better Manage System Interactions
Peter is by all criteria a subject matter expert on solid fuel combustion
optimization. If an international decisions group on this subject is formed and
Peter is an active participant, he will become a subject matter ultra-expert.
Another individual of equal stature in the webinar Wednesday was Richard
Thompson of FERCo. In McIlvaine Coal-fired Decisions, there are 28 articles
covering FERCo presentations including several on In Situ Determination of
Catalyst Activity, which will be an important tool in remote monitoring and
participation by the catalyst suppliers.
Relative to combustion optimization FERCo
• Has demonstrated the MIC One, a microwave system that obtains on-line
assessment and balancing of the coal flow distribution between burner lines of a
pulverizer.
• Fabricated a multipoint NO, O2, and CO instrument with continuously updated
contour plots.
• Developed a new analyzer for rapid determination of coal ash LOI.
So if both Peter and Richard participate in the group designated CD 15 below,
they would both contribute and receive insights.
Jeff DeNigris of Malvern discussed the use of their Insitec particle analyzer
system to determine the sorbent size after grinding. It is economical to buy
granular trona and then to mill it on site. The particle size is critical to SO2
capture. The online analyzer provides key information to the remote O&M
operator. Other uses include activated carbon for mercury capture.
He also briefly discussed automated measurement of charge neutralization
potential for flocculation in scrubber wastewater treatment. So Malvern is
involved in both the slurry measurement (M2) and free flowing solids measurement
(M3).
Crane Fluid Handling was also a participant. Two webinar blogs were excerpted to
show insights on slurry valves and pumps. Jake Spence of Crane analyzed designs.
"Another important part of a slurry pump is its casing, which handles all of the
pressure. Slurry pump casings should have larger gaps between the impeller and
the cutwater tongue to reduce wear and to prevent large solid particles from
getting stuck. Because of the additional space, there is more recirculation
inside a slurry pump casing under various operating conditions. Again, this
accelerates wear compared to a typical water pump."
Blogs should be interconnected to groups. In this case it would be a slurry pump
group CD 17. This would also include input from the mining and dredging
industries. McIlvaine has recent TCO comparisons of slurry pumps used in
dredging and mining because larger slower impellers are more expensive but have
less abrasion. Alternatively thicker casings mean longer life.
The final speaker was Stewart Nicholson of Primex. He discussed the need to
separate process decisions from operation and maintenance. In an organization
operating a number of dry scrubbers such as NAES, the decoupling of process
decisions and the utilization of Primex experts to coordinate them allows NAES
to move its operation and maintenance personnel from plant to plant depending on
demand and the price of fuels. One of two coal-fired power plants may be down
but the gas turbine plant operating 24/7 if the gas price is low. Primex is
working toward becoming the process management supplier for the range of
processes within both solid fuel and gas-fired power plants.
Relative to dry scrubbers, Primex has become an SMUE by founding a group of dry
scrubber users (DSUA) and then continuing to participate in this group. NAES has
achieved large reductions in operating costs with the following activities from
Primex and the remote monitoring system based on OSIsoft software. The big
feature of the process management is facilitating action and achieving results.
Primex provides weekly, monthly, and quarterly interactions with the plants.
Weekly
. Interprets Data to assess Critical System Parameters
. Provide "First Layer" Diagnosis & Troubleshooting
Monthly
. Report & Interpret Key Performance Indicators
. Identify Safety/Reliability/Efficiency Opportunities
. Recommend & Facilitate Actions
Quarterly
. Facilitate Onsite Team Meeting
. Brainstorm & Discuss New Opportunities
. Update Strategy & Action Plan
The achievement by Primex is noteworthy. Two days of presentations by end users
at the DSUA conference provided convincing testimony to the program value. The
question is now to duplicate this on a large scale.
A decisions group on dry scrubbing can work with DSUA and provide an
international presence. If the group also creates a decision system and conducts
regular webinars, it will be valuable to dry scrubber user 10,000 miles away as
well as to one within easy travel distance.
IIoW is going to require significant expenditure and innovative thinking to be
fully successful. IIoW also will require investment and innovation. It is
unclear who should fund the groups and how the groups should be organized.
There will be a large number of groups needed to create IIoW. Here are just some
of the ones relevant to dry scrubbing. The names in red represent speakers or
contributors to the discussion. The numbers in green represent subject areas
where decision groups and subject matter ultra- experts are needed.
Interconnection of Organizations, SMUEs and
Decision Groups - Dry Scrubbing example
Process SMUE Primex
Dave Jankura
Emerson Ams
Data
Analytics XlMR CD 12 Process Management CD
13 Combustion
Optimization Spinney
CD14 CD15 Ferco
Control Rockwell
Dry Scrubbers SD
1
ID 1 ID
2 ID
3 ID
4
Systems
GE, B&W SD 2
Spray Drier
GE, B&W CD
1 Fabric filter
GE, B&W CD
5 Flow
Bete CD9 CD10 CD11
Nozzles Spraying
Systems CD
2 Bags
FLS CD
6 Fans Pumps Valves
Atomizer GEA CD
3 CD16
Howden CD17
Crane Fujikin
Crane
Samson
Media
Lydall CD
7 Measure Weir CD 18
Lime Lhoist CD
4 M1 M2 M3
Novinda Fibers
Evonik CD
8 Promecon Malvern Malvern
FERco
Subject matter experts become subject matter ultra-experts (SMUEs) based on
maximum utilization of the decision insights created by the group. There are
100s of subject areas which warrant decision groups and SMUES. They all should
interconnect with each other.
Decision Groups and Subject Matter Ultra-Experts
Title Description Title Description
CD 1 Spray driers, DSI, CFB CD12 Data analytics
CD2 Slurry nozzles CD13 Process Management systems
CD3 Atomizers for food, environmental CD14 System control components
CD4 Calcium reagent decisions CD15 Combustion optimization systems
CD5 Hot gas fabric filters (RA, pulse jet) CD16 Hot gas fans
CD6 Hot gas filter bags CD17 Slurry Pumps
CD7 Hot gas filter media CD18 Slurry valves
CD8 High temperature fibers /resins ID1 Coal fired power plant decisions
CD 9 Hot gas fans Id2 Waste to energy plant Decisions
CD10 Surry pumps ID3 Biomass boiler Decisions
CD11 Surry valves ID4 Coke Manufacturing Decisions
SD1 Dry Scrubber systems SD2 Hot gas APC systems
M1 Hot Gas measurement and control M2 Surry Liquid measurement and control
M3 Free Flowing Solids Measurement
The process SMUEs (ID 1-4) will need to extract the wisdom from all the decision
groups. So the solution to the valve sticking problems in dry scrubber systems
in coke manufacturing plants created by groups M1 and CD18 needs to be
communicated to the process SMUE in group ID4.
We look forward to your comments and suggestions in this unique effort.
You can view the webinar at: https://youtu.be/qMPMyXWgO98
The full set of power points will be included in:
44I Coal Fired Power Plant Decisions
N031 Industrial IOT and Remote O&M
42EI Utility Tracking System
Surry Valves can be one of many valve decision guides
One of the decision groups is for slurry valves. Fujikin lime slurry valves have
been a concern and focus for improved maintenance. The SMUE is working with the
component suppliers for better valve and bag designs. Primex has redesigned bags
due to unique process problems and then licensed the design to FLS, a major bag
supplier.
Mcilvaine contends that the system is flawed when the SMUE has to redesign a
component. (We have an interview with Shell on this subject in our Valve
Insights) The better answer is a decision group on bags and one on slurry
valves. Valve suppliers already have experience with lime and limestone slurries
in other industries besides power. Here is a Crane flow sheet on limestone
slurries in a nickel plant.
A decision group benefiting from the range of slurry experience would be the
best approach to the spray drier lime slurry valve problem.
High Performance Valves Role in IIoT and Remote Monitoring
If general purpose valves are the foot soldiers of IIoT then high performance
valves belong in the armoured division. Their performance is much more critical
to the outcome of the battle to improve plant performance. IIoT promises to
revolutionize industry but only if it is accompanied by IIoW (Industrial
Internet of Wisdom). Decisive classification of high performance valve
applications, valve designs, and materials is critical to IIoT success. High
performance valves are defined and the program is explained at High Performance
Valve Classification Program
Background articles and presentations are found in the Mcilvaine Global Decision
Orchard under High Performance Valve. If you prefer to view by company,
application or process click on Full Display
Specific Initiatives
Four Severe Service Valve Decisive Classification Analyses are presently being
assembled. We invite contributions for any of them. Please send your comments to
Bob Mcilvaine at rmcilvaine@mcilvainecompany.com
Choke Valves in Oil and Gas
The choke valve market ranges between $250 million and $400 million per year
depending on the definition and where we are in the oil and gas cycle. A
significant portion of choke valve sales are to oil and gas companies. The
definition also has a major effect on the revenue determination. The terms
choke, control and axial are used in different ways. With some definitions, the
market is much larger than with others. Here are some ways the term is defined:
• Flow path: Angle most important - if it is axial it is control, if it is angle
it is choke.
• Trim: If one type of trim is used it is most suitable for choke, if another it
is for control.
• Location: If it is extraction it is choke, if it is other applications it is
control.
• Valve type: For some valve suppliers "choke" is just one of a number of
applications and not a type of valve.
With remote monitoring and IIoT evaluation of choke valve performance it is
important that the relevant decisive classification of applications, valve
types, and materials be clarified. This is an ongoing project. To view the
questions and present status click on: Choke Valve Decision Guide
Power Industry Steam Valves
There are similarities and differences in the steam cycle valve requirements for
nuclear, ultra-supercritical coal, supercritical coal, and gas turbine combined
cycle plants. What sizes are required? What valve types are recommended for each
application What is the appropriate support (trunnion, floating or a unique
design)? What materials are best for base load and rapid cycling applications?
Power Industry Steam Valves
Oil and Gas Gate Valves for greater than 5000 psi service
Subsea and shale applications are where one finds most of the gate valves with
requirements for greater than 5000 psi service. What are the specific
applications, gate valve designs, and materials which are best for each specific
application? This analysis is in the early stages. We have identified some
suppliers and their products and are asking them for comments. We welcome input
from all sources. Oil and Gas Gate Valves Greater than 5000 psi Decision Guide
Rising Stem Ball Valves
Rising stem ball valves are used in the oil and gas industry as well as in
petrochemical plants. This analysis initially only has details on valves used
more switching molecular sievers. At this time there is only a partial analysis
suppliers. We need your input relative to additional applications, additional
suppliers, and input on valve sizes and cost. Rising Stem Ball Valves
Molecular Sieve Switching Valves
Many valves have been used on this service but few are performing as might be
wished. Three valve designs are usually found in molecular sieve unit switching
valve service: (1) metal-seated ball valves; (2) metal-seated, triple off-set
butterfly valves; and (3) metal-seated, non-contacting, rising stem ball valves.
Some rotary valve options such as the triple offset butterfly valves are
relatively inexpensive to purchase and may perform adequately in the near term.
Operators, however, have generally found them to be deficient in sealing
capability, expected service life and total cost of ownership. Process
disruption, high MRO expense and the inability to deliver a minimum of five
years of continuous service between planned shutdowns have all been persistent
negatives.
Historicallythe rising stem ball valve (RSBV) has been used in this application.
But the selection is complicated and depends to some extent on the severe
conditions existing. Zero-leakage carbide coated metal seated ball valves can be
a preferred option in particularly severe service.
With remote monitoring and IIOT evaluation of valve performance it is important
that the relevant decisive classification of applications, valve types, and
materials be clarified. This is an ongoing project. To view the questions and
present status click on:
http://www.mcilvainecompany.com/Decision_Tree/subscriber/Severe_Service_Valve_04_14_16.pdf