COGENERATION
TVC has extensive experience developing process control systems for cogeneration plants, including:
- Complete balance of plant for 6 MW Solar co-generation plant
- Single combustion turbine generator unit with HRSG
- Coppus Murry HP/LP Steam Turbine
- Extraction steam from steam turbine used to generate hot water and chilled water hospital and district heating, process and cooling loads
- Total energy plant supervisory control and data acquisition system “SCADA” producing hot water, chilled water and 3.8 MW of electrical power
- Three Waukesha dual fueled reciprocating engine generators with HRSGs
- Waste heat from engine generators used to generate hot water and chilled water for airport loads
- All field instrumentation and automated and control valves
- Complete balance of plant control of landfill gas to energy plant producing 6 MW of electrical power
- Three Jenbacher landfill gas fueled reciprocating engine generators
- Total energy plant supervisory control and data acquisition system “SCADA” producing steam, chilled water and 2.5 MW of electrical power for university campus
- Two Cummins dual fueled reciprocating engine generators with duct fired HRSGs
- Waste heat from engine generators used to generate hot water and chilled water for campus loads
- All field instrumentation and automated and control valves
- Complete balance of plant for dual fueled 25 MW combustion turbine co-generation plant
- Two Alstom combustion turbine generator units with duct fired HRSGs
- Waste heat from combustion turbine used by steam turbine to generate electricity
- All field instrumentation and automated and control valves
- Extraction from the steam turbine used to generate hot water and chilled water for hospital’s heating and cooling loads
- Balance of plant supervisory control and data acquisition system “SCADA” for a single 13 MW combustion turbine combined heat and power plant
- All field instrumentation and automated and control valves
- Waste heat used to provide power to the plant
- Supervisory control and data acquisition system “SCADA” for a new cogeneration facility and chiller plant
- Includes a 7.5 MW combustion turbine generator coupled to a heat recovery steam generator (HRSG), one Solar 4.6 MW gas turbine, and a 1,200 ton chilled water plant
- Plant supports turbine operation on processed landfill gas
- The new facilities and UNH's existing steam plant operate in parallel with the local electric company grid
- Critical report generation data transfered to Campus Oracel Database for long term storage and advanced data analysis
- Web browser access to plant graphics
- Complete balance of plant control system for a new cogeneration facility and steam plant
- Includes a 10 MW combustion turbine generator coupled to a 100 KPPH heat recovery steam generator (HRSG), 3 – 125 KPPH boilers, a 5 MW steam turbine generator and several auxiliary systems
- All field instrumentation and automated and control valves
- Facility is expected to handle 80% of the campus electrical needs, and all of the steam heating needs
The Energy Network Hartford Hospital Plant - Hartford, CT (PDF - 239K)
Select Energy Services Bradley International Airport Total Energy Plant - Windsor, CT (PDF - 263K)
Central Connecticut State University Total Energy Center - New Britain, CT (PDF - 290K)
North Star - Medical Area Total Energy Plant (MATEP) - Boston, MA (PDF - 402K)
Select Energy - Rand Whitney Paperboard, Cogeneration Plant - Montville, CT (PDF - 259K)
EMCOR Energy – University of New Hampshire Cogeneration & Chiller Plant - Durham, NH
University of Massachusetts Central Heating Plant – Amherst, MA