Displaying items 1 - 50 of 20652 matching components (Page 1 of 414)
This CMU identifier is the replacement of ALL001 due to changes of unit capacity and connection agreement. The connection capacity is based on historic data as per rule 3.5.3 Allington …
This CMU identifier is the replacement for BUCK01, BUCK02, FCCB01, due to the change in Connection Capacity as per rule 3.5.2 and change from "New build CMU" to "Existing CMU" …
Keadby GT3
New CMU identifier due to updated grid connection agreement and change of method to calculate the connection capacity to "Historic Output" FCC Environment Lincolnshire Ltd, 190kT Energy From Waste Plant …
This new CMU identifier is the replacement for the MER001, MERC01 and MERC02 as the CMU is operational since April 2017. The CMU capacity is 19.619 MW, reduced from 25 …
Maentwrog hydroelectric station is a 30MW plant near Blaenau Ffestiniog- Gwynedd. The plant was constructed in 1928 features two 15MW units and takes its water feed from the Llyn Trawsfynydd …
The CMU is a gas plant, capable of running in either OCGT or CCGT modes
The CMU is a Open Cycle Gas Turbine (OCGT)
Reciprocating genset
Reciprocating genset
Reciprocating genset
Reciprocating genset
Reciprocating genset
Battery energy storage unit
Containerised High Speed Gas-fired reciprocating engines with transformers, switchgear and associated control gear with a total connection capacity of 8MW.
This is an existing CHP
A generating station consisting on multiple reciprocating engines and alternators located on a single site
Grain B CCGT Unit 6 Grain B power station provides heat to the Grain LNG regasification facility.
Grain B CCGT Unit 7 Grain B power station provides heat to the Grain LNG regasification facility.
Grain B CCGT Unit 8. Grain B power station provides heat to the Grain LNG regasification facility.
Offshore wind farm
3.000MW of installed capacity of gas fuelled reciprocating engines to be installed on designated land within a manufacturing compound.
The CMU component TEES01 is one gas-fired Jenbacher CHP engine. It will be supplying heat, CO2 and power to the on-site tomato Nursery all year.
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network, as well as providing some power direct via private wire to a local hotel
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A standby diesel generator on a waste water treatment works.
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network
A gas engine CHP site providing hot water to a local district heating network, as well as a solar PV installation on site but is metered separately to the CHP
A gas engine CHP site providing hot water to a local district heating network, as well as a solar PV installation on site but is metered seperately to the CHP
Viking Link is a HVDC interconnector between GB and Danish transmission systems. Viking Link involved the construction of two converter stations, sited in GB and Denmark. At the converter stations, …
Water source heat pumps at 1748kW each
Water source heat pump at 1883kW each
A site with two gas engine CHPs, providing hot water to a local district heating network
A site with two gas engine CHPs providing hot water to a local district heating network
A site with two gas engine CHPs, providing hot water to a local district heating network as well as chilled water from an absorption chiller to a district chill network.
District heating implementation with one asset 1.013MW exporting excess capacity to distribution network. Primary fuel type = Natural Gas. All generation unit capacities are nominal and allow for site-specific variations.
District heating implementation with one asset 1.943MW exporting excess to distribution network. Primary fuel type = Natural Gas. All generation unit capacities are nominal and allow for site-specific variations.
District heating implementation with one asset 0.996MW exporting excess to distribution network, Primary fuel type = Natural Gas. All generation unit capacities are nominal and allow for site-specific variations.
District heating implementation with one asset 1MW and no auxiliary load