Displaying items 251 - 300 of 543 matching components (Page 6 of 11)
21 MW power plant comprising 11 gas reciprocating engines. Power plant will be connected to the local distribution network and local gas network.
16 MW power plant comprising 8 x 2MW gas reciprocating engines. Power plant will be connected to the local distribution network and local gas network.
16 MW power plant comprising 8 x 2MW gas reciprocating engines. Power plant will be connected to the local distribution network and local gas network.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
Killingholme Module 1 converted to open cycle operation please see letter uploaded in metering section that explains determination of three highest HH periods
Killingholme Module 2 converted to open cycle operation please see letter uploaded to metering section that explains determination of three highest HH
16 MW power plant comprising 8 x 2MW gas reciprocating engines. Power plant will be connected to the local distribution network and local gas network.
New Build power station consisting of multiple reciprocating engines
New build power station comprised of multiple reciprocating engines.
New Build 20MW Gas fired facility, metered on the distribution network boundary using a COP2 meter with no auxilliary load on site
New 20MW gas-fired facility, metered on the distrbution network boundary using a COP2 meter with no auxilliary load on site
16 MW power plant comprising 8 x 2MW gas reciprocating engines. Power plant will be connected to the Local distribution network and local gas network.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
Containerised High Speed Gas-fired reciprocating engines with transformers, switchgear and associated control gear
20 MW power plant comprising 8 x 2.5MW gas reciprocating engines. Power plant will be connected to the local distribution network and local gas network.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
20 MW power plant comprising 10 x 2MW gas reciprocating engines. The power plant will be connected to the local electricity distribution network and local gas network.
16 MW power plant comprising 8 x 2MW gas reciprocating engines.The Power plant is connected to the WPD distribution network and WWU gas network.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
Centrica Peterborough Power Station (PPS) is an Open Cycle Gas Turbine (OCGT) electricity generating station.
New build power station comprised of multiple reciprocating engines.
The CMU component comprises of three 2MW Reciprocating Gas Engines
Reciprocating gas engines running on natural gas
A generating Station consisting of multiple reciprocating engines and alternators located on a single site. Voltage to be transformed where appropriate, to export.
CMU consists of gas-powered reciprocating engines connected to the SPEN distribution network at 11kV. The size will be16MW, consisting of a number of gas generating sets.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
New build power station comprised of multiple reciprocating engines.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.
The CMU will be formed of multiple individual generating units controlled centrally and exporting to the distribution system.