Repowering is the process of replacing older power stations with newer ones that either have a greater nameplate capacity or more efficiency which results in a net increase of power generated. [1] Repowering can happen in several different ways. It can be as small as switching out and replacing a boiler, to as large as replacing the entire system to create a more powerful system entirely. There are many upsides to repowering.
The simple act of refurbishing the old with the new is in itself beneficial alongside the cost reduction for keeping the plant running. With less costs and a higher energy output, the process is excessively beneficial. [2]
Repowering a wind farm means replacing older, generally smaller, wind turbines with newer, generally larger, and more efficient designs. New innovations in wind power technology have dramatically increased the power output of new turbines compared with older designs. By repowering old wind turbines with new upgrades, the increased size and efficiency of the new turbines will increase the amount of energy that can be generated from a given wind farm. In the United States in 2017, 2131 MW of wind plant repowering was completed. [3]
According to a study in California [4] the potential benefits of repowering wind plants by replacing old turbines are:
Countries like Germany and Denmark that have a large number of wind turbines installed relative to their total land size have resorted to repowering older turbines in order to increase wind power capacity and generation. [5] The power as well as use of wind farms has grown since the 1990s.
California has many aging wind turbines that would be effective to repower, but there seems to be a lack of economic incentive to repower many sites. Many smaller turbines in California were built in the 1980s with a nameplate capacity of 50-100 kW, which is 10-40x smaller than the nameplate capacity of an average modern wind turbine. [4] Although many barriers continue to hinder rapid wind‐project repowering, a primary barrier is simply that many existing, aging wind facilities are more profitable, in the near term, in continued operations than they might be if they pursue repowering with new wind turbines. [6] By 2007, California had repowered 365 MW of wind plants, which is only 20% of the potential 1,640 MW wind capacity that could be upgraded. [4]
With new environmental regulation in the United States, coal-fired power plants are becoming obsolete. As many as three-fourths of coal-fired power plants are being shut down.[ citation needed ] Short-term options include retiring the plant or quick conversion to direct firing of the boiler with natural gas. Repowering these old coal burning power plants into gas burning boilers. It's estimated that as much as 30 gigawatts (GW) of existing U.S. power generation capacity could be lost through plant closings due to new U.S. Environmental Protection Agency (EPA) regulations. There could be a saving of 20 percent of the capital cost instead of building brand new power plants founded by EPRI studied.
The configuration of these plants involves replacing the old coal boiler with gas-fired turbine (GT). The gas-fired outputs exhaust heat to a heat recovery steam generator (HRSG). From the output of the heat recovery steam generator it is run into a steam turbine which increases electricity production and the overall efficiency of the plant. The gas-fired turbine (GT) and the heat recovery steam generator (HRSG) technology has been in utilize in many repowering projects over the past 20 years in the United States alone. With increasing environmental regulations of the United States Government and the lower fuel prices made the usage of GT/HRSG an option in utilizing to renew many old coal heating power plants. This modern gas turbines operate with higher efficiencies and adding a heat recovery steam generator (HRSG) raises overall plant efficiency to 40 percent to 50 percent (HHV) above the range of most coal-fired plants, reducing fuel consumption and lowering plant emissions. Siemens Corporation are also using this technology by combining the gas turbine (GT) in conjunction with the heat recovery steam generator (HRSG) with the steam turbine (ST) and the combined cycle power plants to produce the most efficient power generation facilities. Existing direct-fired plants can utilize this advanced cycle concept by adding a GT and a HRSG. This so-called repowering scheme makes the existing power generation facility equally efficient as modern combined cycle power plant.
Siemens Corporation developed two ways in powering these old coal plants. The first one is called a Full Powering and the second is called Parallel Powering. Full Powering is only used with old plants because the boilers has reached the life of its usage. Full powering replaces the original boiler and gas-turbine (GT) and heat recovery steam generator are added (HRSG). While compared to the full repowering concept, this repowering scheme achieves slightly lower efficiency. Due to the two independent steam sources for the steam turbine, this concept provides a higher fuel flexibility and also greater flexibility in respect to load variations. [7] [8] An example of a repowering project is of Fluor updating the Seward plant. The plant was a 521-MW coal-fired power plant. The plant burns waste coal. The project was to take three existing pulverized coal-fired boilers out and install two new Clean Coal Technology CFB boilers with major changes such as installing two Alstom CFB boilers along with an Alstom steam turbine generator. This plant is now the largest waste coal generator in the world with a capacity of 521-MW of capacity. It runs on 11,000 tons of waste coal per day.
Electricity generation is the process of generating electric power from sources of primary energy. For utilities in the electric power industry, it is the stage prior to its delivery to end users or its storage, using for example, the pumped-storage method.
A boiler is a closed vessel in which fluid is heated. The fluid does not necessarily boil. The heated or vaporized fluid exits the boiler for use in various processes or heating applications, including water heating, central heating, boiler-based power generation, cooking, and sanitation.
A power station, also referred to as a power plant and sometimes generating station or generating plant, is an industrial facility for the generation of electric power. Power stations are generally connected to an electrical grid.
A combined cycle power plant is an assembly of heat engines that work in tandem from the same source of heat, converting it into mechanical energy. On land, when used to make electricity the most common type is called a combined cycle gas turbine (CCGT) plant, which is a kind of gas-fired power plant. The same principle is also used for marine propulsion, where it is called a combined gas and steam (COGAS) plant. Combining two or more thermodynamic cycles improves overall efficiency, which reduces fuel costs.
Cogeneration or combined heat and power (CHP) is the use of a heat engine or power station to generate electricity and useful heat at the same time.
A fossil fuel power station is a thermal power station which burns a fossil fuel, such as coal or natural gas, to produce electricity. Fossil fuel power stations have machinery to convert the heat energy of combustion into mechanical energy, which then operates an electrical generator. The prime mover may be a steam turbine, a gas turbine or, in small plants, a reciprocating gas engine. All plants use the energy extracted from the expansion of a hot gas, either steam or combustion gases. Although different energy conversion methods exist, all thermal power station conversion methods have their efficiency limited by the Carnot efficiency and therefore produce waste heat.
Peaking power plants, also known as peaker plants, and occasionally just "peakers", are power plants that generally run only when there is a high demand, known as peak demand, for electricity. Because they supply power only occasionally, the power supplied commands a much higher price per kilowatt hour than base load power. Peak load power plants are dispatched in combination with base load power plants, which supply a dependable and consistent amount of electricity, to meet the minimum demand.
A heat recovery steam generator (HRSG) is an energy recovery heat exchanger that recovers heat from a hot gas stream, such as a combustion turbine or other waste gas stream. It produces steam that can be used in a process (cogeneration) or used to drive a steam turbine.
A thermal power station is a type of power station in which heat energy is converted to electrical energy. In a steam-generating cycle heat is used to boil water in a large pressure vessel to produce high-pressure steam, which drives a steam turbine connected to an electrical generator. The low-pressure exhaust from the turbine enters a steam condenser where it is cooled to produce hot condensate which is recycled to the heating process to generate more high pressure steam. This is known as a Rankine cycle.
The Hub Power Company Limited, colloquially known as HUBCO, is the first and largest Independent Power Producer (IPP) in Pakistan, with a combined installed power generation capacity of 3,581 MW.
Peterhead Power Station is a multi-unit station owned and operated by SSE plc, with a capacity of 2,177 MW. It is located near Boddam and the A90, just south of Peterhead, in Aberdeenshire, in the northeast of Scotland. It stands next to Sandford Lodge, a circa-1800-built structure. Initially operating as an oil-fired power station and later transitioning to fossil gas, the plant has also served as a site for experimental hydrogen generation capacity.
The Westinghouse Combustion Turbine Systems Division (CTSD), part of Westinghouse Electric Corporation's Westinghouse Power Generation group, was originally located, along with the Steam Turbine Division (STD), in a major industrial manufacturing complex, referred to as the South Philadelphia Works, in Lester, Pennsylvania near to the Philadelphia International Airport.
A gas-fired power plant, sometimes referred to as gas-fired power station, natural gas power plant, or methane gas power plant, is a thermal power station that burns natural gas to generate electricity. Gas-fired power plants generate almost a quarter of world electricity and are significant sources of greenhouse gas emissions. However, they can provide seasonal, dispatchable energy generation to compensate for variable renewable energy deficits, where hydropower or interconnectors are not available. In the early 2020s batteries became competitive with gas peaker plants.
Damhead Creek power station is a 792 MWe gas-fired power station in Kent, England, on the Hoo Peninsula, It is near the site of the decommissioned Kingsnorth power station. The plant entered service in February 2001.
Edwardsport Power Station is a 618 MW Integrated gasification combined cycle (IGCC) coal based power plant in Vigo Township, Knox County, near the town of Edwardsport, Indiana. The integrated gasification combined cycle power plant construction started in June 2008 by Duke Energy near the site of an older 160 MW coal-fired electrical power plant, which was decommissioned in 2010.
Kilroot power station is a fossil fuel power plant on the north shore of Belfast Lough at Kilroot near Carrickfergus in County Antrim, Northern Ireland. The plant currently has a 141 megawatt (MW) capacity from four standby Gas Turbines and a 10 MW battery energy storage capacity from the Kilroot Advancion Energy Storage Array.
Keadby Power Stations are a pair of natural gas-fired power stations near Scunthorpe in North Lincolnshire, built on the site of an older coal power station. The site lies near the B1392 and the River Trent, and the Scunthorpe-Grimsby railway. Also nearby is the Stainforth and Keadby Canal, which is part of the Sheffield and South Yorkshire Navigation. The current stations are operated by SSE Thermal.
Little Barford Power Station is a gas-fired power station just north of the village of Little Barford in Bedfordshire, England. It lies just south of the A428 St Neots bypass and east of the Wyboston Leisure Park. The River Great Ouse runs alongside. It was formerly the site of two coal-fired power stations, now demolished. The station is operated by RWE.
Carrington Power Station is a combined cycle gas turbine power station, which was completed in Autumn 2016 and began commercial operation on 18 September 2016. It is located on the site of a former coal-fired power station, close to the villages of Carrington and Partington in the Greater Manchester Area and 12 km (7.5 mi) southwest of Manchester City Centre. The Manchester Ship Canal and the River Mersey run alongside the site, in Trafford, Greater Manchester, in North West England.
The Glenarm Power Plant is a power plant in Pasadena, California that began operating on July 4, 1907.