Natural Gas Power Plant

Natural Gas is seen by many as affordable, clean and plentiful.

A combined-cycle gas turbine power plant, consisting of a single gas turbine and generator (topping cycle), is equipped with a highly efficient Heat Recovery Steam Generator (HSRG) unit designed to capture waste heat from the gas turbine exhaust. Steam produced by the HSRG unit powers a steam turbine and generator (bottoming cycle) to produce additional quantities of electric power. Use of the otherwise wasted heat in the turbine exhaust gas results in high thermal efficiency compared to other combustion based technologies. With advancements in combined-cycle technology, natural gas plants today are capable of achieving greater than 60% efficiency, compared to standard steam turbine efficiency at around 40%.

For environmental and economic reasons, a NG power plant utilizing simple-cycle gas turbines and generators is the best option for a standalone natural gas plant of the size and capacity to deliver 50 MW of baseload power to the “Repurposing the GE Taylor Street Plant” project. Multiple units of GE’s LM2500 series mobile power plants are ideally suited to supply the power and CO2 needed for the project.

Natural Gas Power Plants
Natural Gas Usage in Canada

Gas Plant Emissions

According to Environment Canada, approximately 5% (31 million megawatt hours) of all electricity generated in Canada is attributed to the combustion of natural gas, accounting for about 9,500 megawatts of capacity. Boilers account for less than 20% of this capacity whereas gas turbines account for slightly more than 75%. The remaining capacity results from the operation of internal combustion engines.  Gas turbine plants fueled by natural gas are considered one of the cleanest fossil fuel-fired options available for electric power generation. Since natural gas contains no ash and practically no sulphur or metals, emissions of these substances are virtually zero. According to the US EPA, the average emissions rates in the United States from natural gas-fired generation are: 1135 lbs per MWh (megawatt hour) of carbon dioxide, 0.1 lbs/MWh of sulfur dioxide, and 1.7 lbs/MWh of nitrogen oxides. Compared to the average air emissions from coal-fired generation, natural gas produces half as much carbon dioxide, less than a third as much nitrogen oxides, and one percent as much sulphur oxides at the power plant.


Methane, a primary component of natural gas and a harmful greenhouse gas (GHG), can also be emitted into the air when natural gas is not burned completely.

Similarly, methane can be emitted as the result of leaks and losses during transportation. Emissions of sulfur dioxide and mercury compounds from burning natural gas are negligible. The CO2 and NOX emissions from a NGCC plant, are significantly reduced compared to those produced by coal power plants with relatively the same power output. This is because of the higher heat content of natural gas, the lower carbon intensity of gas relative to coal, and the higher overall efficiency of an NGCC plant relative to a coal-fired plant. For these reasons and for economic reasons, an NGCC power plant is the best option for a standalone, utility scale, natural gas plant.

Power Plants

EXHAUST GASES composition by volume (% v/v) 

Exhaust Gas Air (Wet) Coal Firing Biomass
Petrol Fired
IC Engine
Diesel Fired
IC Engine
NGCC Human Breath
Nitrogen N2 (mw 28) 77.3 60 to 73 c.66 72 66 74 to 78 77 to 78
Oxygen O2 (mw 32) 20.7 5 to 6 c.8 0 10 14 to 14 15
Carbon Dioxide CO2 (mw 44) 0.039 11 to 12 c.10 14 12 3 to 5 4
Water Vapor H2O (mw 18) 1.0 10 to 12 c.15 13 11 5 to 6 2 to 3
Argon Ar (mw 40) 0.93 1 1 1 1 1 1
Carbon Monoxide (mw 28) 0 0 0 1 0 0 0