Dry low emission (abbreviation DLE) is a technology that reduces NOx emissions that exhausts out of gas fired turbines. [1] [2] [3] [4]
The amount of NOx produced depends on the combustion temperature. [2] When the combustion takes place at a lower temperature the NOx emissions are reduced. [2] Gas turbines with DLE technology were developed to achieve lower emissions without using water or steam to reduce combustion temperature (Wet Low Emission (WLE) technology). [1] [2] WLE technology demands cleaning of large amounts of water, is heavy, takes more space and can be difficult to install offshore. [1] A DLE combustor uses the principle of lean premixed combustion, and is similar to the SAC combustor (Single Annular Combustor) with some exceptions. [1] [2] A DLE combustor takes up more space than a SAC turbine and if the turbine is changed it can not be connected directly to existing equipment without considerable changes in the positioning of the equipment. [1] The SAC turbine has one single concentric ring where the DLE turbine has two or three rings with premixers depending on gas turbine type. [2] DLE technology demands an advanced control system with a large number of burners. [1] [2] [5] DLE results in lower NOx emissions because the process is run with less fuel and air, the temperature is lower and combustion takes place at a lower temperature. [1] [2] [5] [6]
Increased focus on environmental issues led to increased research on new and better gas turbines with water and steam cooling methods in the middle of the 1970s. [5] [7] The best technology could in 1980 reduce NOx emissions to 42 ppm and this was later reduced to 25 ppm. [5] In the 1990s ammonium and catalysators was tested and late in the 1980s the turbine producers started to develop "Dry Low Emission-technology" (DLE) to be able to get around the technology that demanded water or steam injection. [5] During the next ten years the DLE technology was developed and installed in many places leading to a reduction of NOx emissions less than 25 ppm. [4] [5] It is difficult to achieve less than 9 ppm NOx emissions with DLE turbines. [5] To achieve a reduction from 25 ppm to 9 ppm more than 6 percent air must pass through the premixer. [5] Newer generations of DLE burners have an extra injection leading to better control. [5] Additional systems like "selective catalytic reduction" (SCR) are necessary to achieve emissions lower than 2.5 ppm. [5] Technologies using water or steam (Wet Low Emission (WLE)) can achieve approximately the same level of NOx emissions (25–42 ppm) when they lower the combustion temperature. [1]
This is not a complete list, but examples of where and when DLE technology has been implemented or are planned to be implemented.
DLE turbines were introduced offshore in Norway in 1998. [1] All gas turbines installed offshore in Norway after year 2000 which uses only gas as fuel are DLE-turbines. [1] The Kårstø facilities were planned with DLE technology. [5] DLE technology is used by Statoil ASA, Hammerfest LNG. [8] The Norwegian Storting has decided that the Gina Krogh platform shall not be equipped with DLE technology due to the fact that all off Utsirahøyden will have electrical power supplies from the mainland. [9]
30 April 2012 a gas turbine generator with DLE technology was opened in Waidhaus in Bavaria in Germany. [10]
In Alberta in Canada it was in 2003 planned to use DLE technology in the power supplies. [11]
DLE is planned to be used in Australia. [12]
The Malampaya field in the Republic of the Philippines was awarded in August 1998, construction of the topside was begun in June 1999 and completed on 28 March. 2001. [13] [14] The topside was equipped with the world's first RB211 with DLE technology. [15] [16]
ISBN 82-7655-281-1[ dead link]
Opprinnelig ønsket Statoil å forsyne Gina Krog med kraft fra to lavutslipps gassturbiner. Disse skulle vært utstyrt med såkalt DLE-teknologi (Dry Low Emission), som blant annet reduserer utslipp av NOx, går det frem av et forslag som operatøren la frem i januar 2012. I mai i fjor godkjente imidlertid Stortinget at plattformen kan drives av en løsning som vil gi langt større utslipp av NOx og dårligere driftssikkerhet. ... Årsaken til at kraftforsyningen på plattformen ble endret til en løsning som gir større utslipp, var for å få plass til nødvendig utstyr for at plattformen skulle kunne ta i mot kraft fra land. Turbinløsningen ble omtalt som "midlertidig" av Statoil. ... "Konsekvensen av å endre base case er økte utslipp av NOx frem til elektrifisering", skriver Statoil i en konsekvensutredning fra 2012.
On April 30, the minister for economic affairs of Bavaria, Martin Zeil, has officially put into operation a new machine unit at the MEGAL compressor station at Waidhaus. ... Its dry low emission (DLE) combustion system ensures the currently lowest possible emission values of nitrogen oxides.
World's first use of Dry Low Emission gas turbines offshore
The topsides feature dry low emission gas generators, a world first for the RB211 units installed offshore.
Dry low emission gas generators were specified. This is a world first for RB211's installed offshore.
Dry low emission (abbreviation DLE) is a technology that reduces NOx emissions that exhausts out of gas fired turbines. [1] [2] [3] [4]
The amount of NOx produced depends on the combustion temperature. [2] When the combustion takes place at a lower temperature the NOx emissions are reduced. [2] Gas turbines with DLE technology were developed to achieve lower emissions without using water or steam to reduce combustion temperature (Wet Low Emission (WLE) technology). [1] [2] WLE technology demands cleaning of large amounts of water, is heavy, takes more space and can be difficult to install offshore. [1] A DLE combustor uses the principle of lean premixed combustion, and is similar to the SAC combustor (Single Annular Combustor) with some exceptions. [1] [2] A DLE combustor takes up more space than a SAC turbine and if the turbine is changed it can not be connected directly to existing equipment without considerable changes in the positioning of the equipment. [1] The SAC turbine has one single concentric ring where the DLE turbine has two or three rings with premixers depending on gas turbine type. [2] DLE technology demands an advanced control system with a large number of burners. [1] [2] [5] DLE results in lower NOx emissions because the process is run with less fuel and air, the temperature is lower and combustion takes place at a lower temperature. [1] [2] [5] [6]
Increased focus on environmental issues led to increased research on new and better gas turbines with water and steam cooling methods in the middle of the 1970s. [5] [7] The best technology could in 1980 reduce NOx emissions to 42 ppm and this was later reduced to 25 ppm. [5] In the 1990s ammonium and catalysators was tested and late in the 1980s the turbine producers started to develop "Dry Low Emission-technology" (DLE) to be able to get around the technology that demanded water or steam injection. [5] During the next ten years the DLE technology was developed and installed in many places leading to a reduction of NOx emissions less than 25 ppm. [4] [5] It is difficult to achieve less than 9 ppm NOx emissions with DLE turbines. [5] To achieve a reduction from 25 ppm to 9 ppm more than 6 percent air must pass through the premixer. [5] Newer generations of DLE burners have an extra injection leading to better control. [5] Additional systems like "selective catalytic reduction" (SCR) are necessary to achieve emissions lower than 2.5 ppm. [5] Technologies using water or steam (Wet Low Emission (WLE)) can achieve approximately the same level of NOx emissions (25–42 ppm) when they lower the combustion temperature. [1]
This is not a complete list, but examples of where and when DLE technology has been implemented or are planned to be implemented.
DLE turbines were introduced offshore in Norway in 1998. [1] All gas turbines installed offshore in Norway after year 2000 which uses only gas as fuel are DLE-turbines. [1] The Kårstø facilities were planned with DLE technology. [5] DLE technology is used by Statoil ASA, Hammerfest LNG. [8] The Norwegian Storting has decided that the Gina Krogh platform shall not be equipped with DLE technology due to the fact that all off Utsirahøyden will have electrical power supplies from the mainland. [9]
30 April 2012 a gas turbine generator with DLE technology was opened in Waidhaus in Bavaria in Germany. [10]
In Alberta in Canada it was in 2003 planned to use DLE technology in the power supplies. [11]
DLE is planned to be used in Australia. [12]
The Malampaya field in the Republic of the Philippines was awarded in August 1998, construction of the topside was begun in June 1999 and completed on 28 March. 2001. [13] [14] The topside was equipped with the world's first RB211 with DLE technology. [15] [16]
ISBN 82-7655-281-1[ dead link]
Opprinnelig ønsket Statoil å forsyne Gina Krog med kraft fra to lavutslipps gassturbiner. Disse skulle vært utstyrt med såkalt DLE-teknologi (Dry Low Emission), som blant annet reduserer utslipp av NOx, går det frem av et forslag som operatøren la frem i januar 2012. I mai i fjor godkjente imidlertid Stortinget at plattformen kan drives av en løsning som vil gi langt større utslipp av NOx og dårligere driftssikkerhet. ... Årsaken til at kraftforsyningen på plattformen ble endret til en løsning som gir større utslipp, var for å få plass til nødvendig utstyr for at plattformen skulle kunne ta i mot kraft fra land. Turbinløsningen ble omtalt som "midlertidig" av Statoil. ... "Konsekvensen av å endre base case er økte utslipp av NOx frem til elektrifisering", skriver Statoil i en konsekvensutredning fra 2012.
On April 30, the minister for economic affairs of Bavaria, Martin Zeil, has officially put into operation a new machine unit at the MEGAL compressor station at Waidhaus. ... Its dry low emission (DLE) combustion system ensures the currently lowest possible emission values of nitrogen oxides.
World's first use of Dry Low Emission gas turbines offshore
The topsides feature dry low emission gas generators, a world first for the RB211 units installed offshore.
Dry low emission gas generators were specified. This is a world first for RB211's installed offshore.