The Palmdale Fuel Cell Project: FiveYear Review

1
The Palmdale Fuel Cell Project Five-Year Review

• SCAP Energy Management Committee Meeting
• Mark McDannel
• Los Angeles County Sanitation Districts
• July 28, 2009

2
Presentation Overview

• Facility Descriptions and Design Parameters
• Results
• Lessons Learned Conclusions

3
Antelope Valley Green Energy Program

• Parallel renewable combined heat and power
  projects using digester gas
• Similar size units at similar size plants
• 250 kW Fuel Cell Energy molten carbonate fuel
  cell at Palmdale
• 250 kW Ingersoll-Rand microturbine at Lancaster

4
Palmdale Water Reclamation Plant
STARTED NOVEMBER 1952 CAPACITY 15 MGD
CURRENT FLOW 9.2 MGD
5
Project Design Data
6
Palmdale Fuel Cell Project

• Fuel Cell Energy molten carbonate fuel cell
• Capital cost 2.4 million
• 50 of cost recovered from SGIP

7
Fuel Cell Project Team

• Quinn Power Systems Associates
• Prime contractor
• Operation and maintenance under contract to LACSD
• Fuel Cell Energy-
• Fuel cell supplier
• Subcontracted to Quinn for fuel cell OM
• SCS Energy-
• Design and installation
• Gas treatment skid om
• Facility ownership retained by LACSD

8
Fuel Cell Fuel Skid
9
Load Profiles at Palmdale
10
Results

• Plant Performance
• Economics
• Siloxane Removal
• Lessons Learned Conclusions

11
Fuel Cell Availability and Capacity
12
Fuel Cell Availability and Capacity

• Availability has increased during the program
• Capacity has decreased despite improvements in
  availability
• Capacity factor well below 90 target

13
Breakdown of Downtime
14
Palmdale Availability

• Fuel cell balance of plant equipment
• Routine repairs on water treatment system
• Multiple significant fuel skid issues
• Four electrode stack replacements
• Carbon filter media replacement

15
Stack Replacements

• Four stack replacements
• 3975 hrs - Replaced with new stack design
• 2696 hrs Stack degradation
• 5386 hrs - Sulfur poisoning excessive
  startups
• 9889 hrs - Sulfur poisoning

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Causes of Capacity Reduction at Palmdale Fuel Cell

• Frequent long time periods at reduced loads due
  to fuel cell issues
• Variations in digester gas pressure due to issues
  with the fuel skid
• Lower digester gas flows and higher methane
  content due to sewer cleaning
• Defective stack installed in 2008

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Causes of Capacity Reduction at Palmdale Fuel
Cell, ctd

• Long start up times after outages
• Parasitic Loads
• Internal fuel cell loads of 18-20 kW not counted
  against net, but cost plant when fuel cell is in
  hot standby
• Fuel skid, 25 kW (design value, not metered)
• Three sulfur poisoning events have resulted in
  reduced power output for several months

18
Net Electrical Generation per Quarter
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Other Issues at Palmdale

• Integration into plant digester gas system
  including flare and boilers was complex
• Remote monitoring and operation help minimize
  down time
• Installation of natural gas line was necessary
  for backup and controlled shutdown

20
Capital Cost
21
Facility Economics (design, assuming 90 capacity
factor)
22
Cost of Power Production
23
Net Savings per Year

• 2005 66,551
• 2006 69,452
• 2007 46,543
• 2008 2,119

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Cumulative Net Savings
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Siloxane Removal

• Carbon absorption
• Also removes Cl, S to protect fuel cell
• Requires periodic testing for breakthrough
• Short term high siloxane levels could cause
  undetected breakthrough

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Criteria Pollutant Emissions

• NOX 0.05 ppm _at_ 15 O2
• 0.0017 lb/MWh
• CO 1.2 ppm _at_ 15 O2
• 0.025 lb/MWh
• TGNMO 2.07 ppm
• 0.016 lb/MWh

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Sulfur Compounds
Note-detection limit not sensitive enough to
fully protect fuel cell
28
Trace Organic Compounds
29
Recent Operating Status

• Stack replaced in Sep 2008.
• A leak in the new stack forced reduction in
  output to 40 kW in Dec 2008
• Operated at nearly 100 availability at reduced
  load
• Fuel cell was shutdown June 11 upon discovery of
  sulfur breakthrough
• Unit will not be restarted

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Lessons Learned by LACSD

• Ambient temperature considerations
• Chiller was undersized for high summer
  temperatures
• Lower digester gas production during winter
  months
• Carbon media must be monitored and/or replaced
  periodically
• Site involvement
• Digester gas system balancing

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Lessons Learned by Fuel Cell Energy

• Natural gas must be used as a backup fuel
• A load bank should be installed to mitigate grid
  disturbances
• Ensure proper maintenance of the fuel skid

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Contracting Issues Impacting the Facility

• These were demonstration projects as such,
  providers would not provide availability
  guarantees
• The current OM contracts have no performance
  incentive or penalty down time costs the owner
  but does not cost the contractor
• Fast response not always justified by plant
  economics
• Other contracting options
• Incentives and penalties for response time and
  availability
• Power purchase agreement, unit owned by provider
  or third party
• These options are generally currently available

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Conclusions

• The Palmdale fuel cell did not meet performance
  goals
• The Palmdale fuel cell met its goal to
  demonstrate a high efficiency, low emission
  technology on digester gas
• As an early adopter, Districts allowed
  manufacturers to address and resolve design and
  operating issues

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Questions?

• Contact information
• mmcdannel_at_lacsd.org
• (562) 908-4228 x2442