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SEPTA's 25 Hz traction power system

April 11, 2024

The Southeastern Pennsylvania Transportation Authority (SEPTA) operates a 25 Hz traction power system in the vicinity of Philadelphia, that it inherited from the Reading Company. This system is separate from, but similar to, the system built by the Pennsylvania Railroad (PRR), which is now operated by Amtrak. SEPTA's trains can run over either system because the voltage and frequency presented to the locomotive are essentially identical. However, the ex-Reading system is not electrically connected to the ex-PRR system.

SEPTA Lansdale substation.

SEPTA owns all of the substations described herein. Although SEPTA also owns former PRR substations along the Media/Wawa Line and the Chestnut Hill West Line, as well as a new substation just north of 30th Street Station, those facilities are electrically part of Amtrak's 25 Hz traction power system.

History edit

 
Electrification power infrastructure at Lansdale, Pennsylvania. 24 kV (top) feeders are directed into the substation and 12 kV feeders (bottom) return to the catenary.

The Reading Company electrified its lines between Reading Terminal in Philadelphia, Pennsylvania, and Norristown, Doylestown, Chestnut Hill, Hatboro and West Trenton in 1931. The electrification was extended to include the Fox Chase Line in September 1966. Electrification was again extended from Hatboro to Warminster in the early 1970s.[1][page needed]

The Reading's system used catenary electrified at 12 kV 25 Hz like the competing Pennsylvania Railroad's 1915 initial electrification and 1930s mainline expansion. Unlike the PRR's system, which included multiple power sources and an extensive high-voltage transmission network, the Reading's electrification was supplied solely by the rotary converter station at Wayne Junction. Although ownership and operation of the system has changed, the system has remained essentially unchanged with the exception of the replacement of the rotary converter station at Wayne Junction with a solid-state cycloconverter in 1986.

Transmission system architecture edit

The Reading electrification system was designed for suburban MU operations and did not have to support the main line passenger or through freight operations of the rival Pennsylvania Railroad. While a complex system of high-voltage transmission lines was not necessary, the system was large enough to require the use of distribution feeders from the 25 Hz power supply at Wayne Junction. The feeders were set at 24 kV, double the traction voltage. Most of the rail lines would carry one or two feeders attached to the top of the catenary support masts. These 24 kV substation feeders can be distinguished from 12 kV traction feeders by the use of four-segment insulators as opposed to three-segment ones.

 
A simple schematic of the Reading autotransformer distribution scheme.[2]

The 24 kV lines feed a network of 11 substations (12 including the Wayne Junction switchyard) located every 8 to 10 miles (13 to 16 km) along the electrified rail lines. Most branches are short enough to only require a single substation near the end of the line, but the Main and West Trenton lines are long enough to require intermediate substations. At each substation the 24 kV feeders are fed through autotransformers to be reduced to the traction voltage of 12 kV, which is then passed through circuit breakers before being fed into the overhead catenary wires.

Power is transmitted, effectively, at 36 kV because the 24 kV and 12 kV components are 180° out of phase. This design has several advantages over the PRR's more traditional transmission and distribution scheme. The highest voltage, with respect to ground, within the system is 24 kV. This is significantly less than the 69 kV seen in the PRR's system, which required much larger 80 feet (24 m) towers and larger insulators and transformers. On a small system such as the Reading's, transmission infrastructure of this scale was unnecessary. Secondly, the system uses the 12 kV catenary wire for both transmission and distribution. This dual use of the catenary wire allows performing both functions with only two wires. The PRR's system in contrast required three wires: two for the single phase 138 kV transmission component and one for the 12 kV catenary feeder. In both systems, the rail is used as a return path for traction current.

Static frequency converters edit

 
Original 1930s autotransformer equipment installed by the Reading Railroad.

All 25 Hz power on the ex-Reading system is generated at the Wayne Junction static converter plant. This plant was built between 1985 and 1990 and consists of three 15 MVA solid-state, cycloconverter-based modules. The system was built by ASEA and is similar technically to the converter later installed at Amtrak's Jericho Park converter.

The inverters replaced two ca. 1928 Westinghouse Electric motor generators that were each rated at 21.4 MVA. The capability also formerly existed to supply power from PECO Energy's Somerset Substation, which had three motor-generators normally used to supply the Pennsylvania Railroad's electrification system. This capability has been removed, as have the Somerset motor-generators. The ex-Reading system now operates completely independently from Amtrak's power system.

Wayne Junction receives 230 kV 60 Hz power from two redundant lines that connect to PECO substations at Waneeta, Tabor and Pulaski. Two 60 MVA 230/13.2 kV transformers reduce voltage for the static frequency converters. Cross-ties allow removing portions of the supply system from service for maintenance.

In March 2015 a contract worth $4,656,321 was awarded to STV Incorporated, for the provision of architectural and engineering services for the rehabilitation of static frequency converters at Wayne Junction, with services to be performed over a period of 60 months scheduled to commence in April 2015 (per Proposal No. 14-233-JHC).[3]

Substations edit

25 Hz Power Supplies
on the ex-Reading System
 
 Doylestown
DOY
 
 Lansdale
 
 Ambler
 
 
 Hatboro
WAR
 
 
 
 Yardley
WTR
 
 
 
 
 
 
 Woodbourne
 
 
 Neshaminy Falls
 
 
 Bethayres
 
 
 
 
 
 
 
 Jenkintown-Wyncote
 
 
 
 
FOX
 
 
 Chestnut Hill East
CHE
 
 
 
 Wayne Junction
 
 
 
 
 
 
 Norristown
THO
 
 
 
 
 
 Fairmount
 
 
 
 
to Reading Terminal
 
 Girard Avenue
 
 
 
Center City Commuter Connection
 
 
Amtrak's 12 kV 25 Hz System (ex-PRR)
Legend
 
 
 Converters and Switchyard
 
 Substation
 
 Future Substation
 
 Phase break
Map all coordinates using OpenStreetMap

Download coordinates as:

Each of the former Reading Railroad substations was equipped with transformers and circuit breakers from American Brown Boveri. Most transformers are rated to supply about 2 MVA of power each (a few 4 MVA transformers exist). Each substation also contained a number of oil-filled circuit breakers to disconnect both the 12 kV and 24 kV lines under load. The larger substations also have a small equipment and maintenance building to house any control equipment or secondary transformers for generating the 100 Hz signal power.

Replacement and renewal edit

Due to the robustness and simplicity of the components, until 2010 all the SEPTA substations were equipped with their original equipment, then approaching 80 years in service.

Callowhill / Fairmount edit

Callowhill substation was the first targeted for replacement, to eliminate the need to maintain the overhead wires over the abandoned Reading Viaduct rail line as feeders to the active tracks. Its replacement, Fairmount substation, was commissioned in the 3rd quarter of 2010,[4] featuring two 12/24 kV 25 Hz, single-phase 5 MVA autotransformers as well as trolley breakers and other switchgear.[5]

Norristown edit

Norristown substation received new transformers, trolley breakers, feeders, substation switchgear, protective relaying and a structural overhaul in a stimulus project.[6]

Wayne Junction edit

In July 2012, the US Department of Transportation awarded SEPTA a $12.8 million Tiger IV grant to help refurbish Wayne Junction Substation.[7] In the words of SEPTA General Manager Joseph M. Casey, "We intend to use these resources to replace equipment that should be on display in a museum of transit history."

The grant was announced at ceremony at the substation which was attended by Transportation Secretary Ray LaHood, who said "It's not the sexiest, it's not the prettiest, but it's one of the most important projects."[8]

Renewal of Wayne Junction's three static frequency converters is expected to occur during the 2010s, in three stages in order to maintain redundancy. A fourth converter is to be added for system security.[9][S 1]

In October 2014 SEPTA requested interested contractors to submit bids for the rehabilitation of the static frequency converters at Wayne Junction.[10]

Ambler edit

In September 2014 SEPTA requested interested contractors to submit bids for the rehabilitation of Ambler substation.[11] In October 2014 SEPTA awarded a $7.99 million contract to Carr & Duff, Inc.[12] for the work.[13]

Lansdale edit

On October 31, 2016, one of the substation's two main transformers burned out, and was replaced ahead of schedule a week later with one of the new transformers already on hand for the substation renewals at both Lansdale and Ambler.[14]

Doylestown edit

In the 1990s a fire at the Doylestown substation rendered it inoperable. Until the substation was repaired in 2013, the Doylestown Branch east of Lansdale had to be powered exclusively from the Lansdale substation. This "single-end feeding" of a 10-mile (16 km) section of track limited the number of MUs that could run simultaneously on the branch and also limited their maximum speed and acceleration.

The substation received a new 12/24 kV autotransformer in April 2015.[15]

Other substations edit

With the passage of a source of dedicated transportation funding by the Commonwealth of Pennsylvania, SEPTA announced in December 2013 a capital budget plan that includes renewal or replacement of all remaining former Reading substations, in five phases. The first phase involves replacement of Jenkintown substation and the renewal of Ambler substation's active components, projects for which final design had been completed by the end of 2013.[9][16]

In November 2014 SEPTA requested interested contractors to submit bids for the rehabilitation of four substations (Lansdale, Bethayres, Chestnut Hill East and Hatboro).[17] The engineering design work is expected to take two years, and the construction a further three years.

SEPTA also plans to build a new substation near Woodbourne station by Fall 2020, as the distance between Neshaminy Falls and Yardley substations is nearly twice the optimal 5-mile (8.0 km) distance between substations on a 12 kV 25 Hz system.[S 2]

Substations on the ex-Reading System
Name Transformers Line Served Coordinates Notes
Ambler 1 Main Line 40°09′02″N 75°13′21″W / 40.15056°N 75.22250°W / 40.15056; -75.22250 (Ambler Substation) Designed for two transformers, but only one was ever installed.
Renewal designed and funded[16] Scheduled to be renewed by Summer 2016.[S 3]
Bethayres 1 West Trenton Line 40°06′57″N 75°04′07″W / 40.11583°N 75.06861°W / 40.11583; -75.06861 (Bethayres Substation) Scheduled to be renewed by Spring 2018.[S 4]
Callowhill
(Reading Terminal)		 2 Main Line 39°57′31″N 75°09′26″W / 39.95861°N 75.15722°W / 39.95861; -75.15722 (Callowhill Substation) Replaced by Fairmount substation in 2010. Abandoned.
Chestnut Hill East 1 Chestnut Hill East Line 40°04′51″N 75°12′20″W / 40.08083°N 75.20556°W / 40.08083; -75.20556 (Chestnut Hill Substation) Originally had 2 transformers. Scheduled to be renewed by Summer 2018.[S 5]
Doylestown 1 Doylestown Branch 40°18′09″N 75°08′04″W / 40.30250°N 75.13444°W / 40.30250; -75.13444 (Doylestown Substation) Renewed Spring 2015.[S 6]
Fairmount 2 Main Line 39°57′55″N 75°09′07″W / 39.96528°N 75.15194°W / 39.96528; -75.15194 (Fairmount Substation) Built 2010, replaced Callowhill Substation.
Hatboro 1 Warminster Line 40°10′30″N 75°06′11″W / 40.17500°N 75.10306°W / 40.17500; -75.10306 (Hatboro Substation) Scheduled to be renewed by Winter 2020.[S 7]
Jenkintown 2 West Trenton and Main Lines 40°05′50″N 75°08′17″W / 40.09722°N 75.13806°W / 40.09722; -75.13806 (Jenkintown Substation) Replacement under construction; scheduled completion Fall 2016.[S 8]
Lansdale 2 Main Line 40°14′38″N 75°17′07″W / 40.24389°N 75.28528°W / 40.24389; -75.28528 (Lansdale Substation) Scheduled to be renewed by Summer 2017.[S 9]
Neshaminy Falls 2 West Trenton Line 40°08′45″N 74°57′54″W / 40.14583°N 74.96500°W / 40.14583; -74.96500 (Neshaminy Falls Substation) Scheduled to be renewed by Summer 2019.[S 10]
Norristown 2 Manayunk/Norristown Line 40°06′48″N 75°20′48″W / 40.11333°N 75.34667°W / 40.11333; -75.34667 (Norristown Substation) Feeders re-oriented 180° in 1970 for line relocation due to Dannehower Bridge (US 202) construction.
All substation components replaced 2012.
Wayne Junction 3 (step-up) All 40°01′31″N 75°09′23″W / 40.02528°N 75.15639°W / 40.02528; -75.15639 (Wayne Junction Switchyard) Design work is being undertaken to renew the electrical equipment at this site [7]
Woodbourne 2 West Trenton Line 40°11′34″N 74°53′21″W / 40.19278°N 74.88917°W / 40.19278; -74.88917 (Woodbourne Substation) New substation scheduled to be built by Fall 2020.[S 2]
Yardley 2 West Trenton Line 40°14′03″N 74°49′55″W / 40.23417°N 74.83194°W / 40.23417; -74.83194 (Yardley Substation) Scheduled to be renewed by Summer 2019.[S 11]

See also edit

Footnotes edit

General edit

  1. ^ Kneschke et al. (1995).
  2. ^ Kneschke et al. (1995), p. 80.
  3. ^ SEPTA (March 26, 2015). "Minutes of Regular Board Meeting (March 2015)" (PDF). SEPTA Board - Meeting Minutes. Retrieved 5 August 2015.
  4. ^ (PDF). SEPTA Fiscal Year 2010 Capital Budget & Fiscal Years 2010-2021 Capital Program. SEPTA. Archived from the original (PDF) on 11 February 2013. Retrieved 5 September 2012.
  5. ^ "Fairmount Substation and 30th Street Switching Station". Gannett Fleming Transit & Rail Systems. Retrieved 5 September 2012.
  6. ^ "Norristown Power Substation Overhaul P2-2A". SEPTA Stimulus Project Information. SEPTA. Retrieved 5 September 2012.
  7. ^ a b "Wayne Junction Substation Update". www.SEPTA.org. Southeastern Pennsylvania Transportation Authority.
  8. ^ Quinn, Amy Z. (July 11, 2012). "Unsexy, but critically needed, replacement coming for Wayne Junction Substation". www.newsworks.org. Retrieved 5 August 2015.
  9. ^ a b SEPTA. "Railroad Substation Program" (PDF). Proposed Capital Plan: "Catching Up". Southeastern Pennsylvania Transportation Authority. Retrieved 31 December 2013.
  10. ^ "Bids | Page | SEPTA".
  11. ^ "Bids | Page | SEPTA".
  12. ^ "Carr and Duff, Inc". Carr & Duff.
  13. ^ http://www.septa.org/business/bid/results/detail/pdf/r14-156-JAB.pdf [bare URL PDF]
  14. ^ Almeida, John P. (November 20, 2016). "SEPTA Lansdale Parking Garage Lansdale PA November 19 2016 [6th photo and caption]". Railfan Pictures of the Week. The Philadelphia Chapter of the National Railway Historical Society. Retrieved 30 November 2016.
  15. ^ Almeida, John P. (June 21, 2015). "Out with the old: SEPTA transformer replacement Doylestown PA April 12 2015". Railfan Pictures of the Week. The Philadelphia Chapter of the National Railway Historical Society. Retrieved 29 June 2015.
  16. ^ a b "SEPTA Projects Funded Under Senate Bill 1" (PDF). PennDOT Decade of Investment. Pennsylvania Department of Transportation. Retrieved 31 December 2013.
  17. ^ SEPTA (November 2014). "A&E Services for Rehabilitation of Regional Railroad Division Substations (Proposal Number 14-268-JHC)". www.SEPTA.org. Retrieved 5 August 2015.

Rebuilding for the Future (Substation Program) edit

  1. ^ SEPTA. "Wayne Junction Static Frequency Converters (Main Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  2. ^ a b SEPTA. "Woodbourne Substation (West Trenton Line)". Rebuilding for the Future. Southeastern Pennsylvania Transportation Authority. Retrieved 29 June 2015.
  3. ^ SEPTA. "Ambler Substation (Lansdale/Doylestown Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  4. ^ SEPTA. "Bethayres Substation (West Trenton Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  5. ^ SEPTA. "Chestnut Hill East Substation (Chestnut Hill East Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  6. ^ SEPTA. "Doylestown Substation". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  7. ^ SEPTA. "Hatboro Substation (Warminster Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  8. ^ SEPTA. "Jenkintown Substation (Main Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  9. ^ SEPTA. "Lansdale Substation (Lansdale/Doylestown Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  10. ^ SEPTA. "Neshaminy Substation (West Trenton Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.
  11. ^ SEPTA. "Yardley Substation (West Trenton Regional Rail Line)". Rebuilding for the Future (Substation Program). Southeastern Pennsylvania Transportation Authority. Retrieved 5 August 2015.

References edit

  • Doub, C.L. (March 1931). "Power Supply Facilities for Reading Suburban Electrification". Transactions of the American Institute of Electrical Engineers. 50 (1). Institute of Electrical and Electronics Engineers (IEEE): 240–245. doi:10.1109/T-AIEE.1931.5055770. ISSN 0096-3860. S2CID 51646983.
  • Kneschke, Tristan A. (March 1985). "Static Frequency Converter for SEPTA's Wayne Junction Traction Substation". IEEE Transactions on Industry Applications. IA-21 (2). Institute of Electrical and Electronics Engineers (IEEE): 295–300. doi:10.1109/TIA.1985.349628. ISSN 0093-9994. S2CID 17134542.
  • Fischer, R.B. (Apr 1990). "Introduction of Static Frequency Converters on SEPTA's 25 Hz Commuter Rail System". Technical Papers Presented at the 1990 ASME/IEEE Joint Railroad Conference. Institute of Electrical and Electronics Engineers (IEEE): 149–155. doi:10.1109/RRCON.1990.171673. S2CID 111289944.
  • Kneschke, T.A.; Hong, J.P.; Naqvi, W. (Mar 1994). "Load flow study and conceptual system design of SEPTA's regional rail division traction power system". Proceedings of IEEE/ASME Joint Railroad Conference. Institute of Electrical and Electronics Engineers (IEEE). pp. 81–95. doi:10.1109/RRCON.1994.289017. ISBN 978-0-7803-1890-8. S2CID 109631300.
  • Kneschke, T.A.; Hong, J.P.; Natarajan, R.; Naqvi, W. (Apr 1995). "Impedance calculations for SEPTA's rail power distribution system". Proceedings of the 1995 IEEE/ASME Joint Railroad Conference. Institute of Electrical and Electronics Engineers (IEEE). pp. 79–85. doi:10.1109/RRCON.1995.395166. ISBN 978-0-7803-2556-2. S2CID 110918186.
  • Kneschke, T.; Naqvi, W. (Mar 1997). "Upgrade of SEPTA's regional rail power system". Proceedings of the 1997 IEEE/ASME Joint Railroad Conference. Institute of Electrical and Electronics Engineers (IEEE). pp. 35–47. doi:10.1109/RRCON.1997.581350. ISBN 978-0-7803-3854-8. S2CID 109984985.

April 11, 2024
septa, traction, power, system, southeastern, pennsylvania, transportation, authority, septa, operates, traction, power, system, vicinity, philadelphia, that, inherited, from, reading, company, this, system, separate, from, similar, system, built, pennsylvania. The Southeastern Pennsylvania Transportation Authority SEPTA operates a 25 Hz traction power system in the vicinity of Philadelphia that it inherited from the Reading Company This system is separate from but similar to the system built by the Pennsylvania Railroad PRR which is now operated by Amtrak SEPTA s trains can run over either system because the voltage and frequency presented to the locomotive are essentially identical However the ex Reading system is not electrically connected to the ex PRR system SEPTA Lansdale substation SEPTA owns all of the substations described herein Although SEPTA also owns former PRR substations along the Media Wawa Line and the Chestnut Hill West Line as well as a new substation just north of 30th Street Station those facilities are electrically part of Amtrak s 25 Hz traction power system Contents 1 History 2 Transmission system architecture 3 Static frequency converters 4 Substations 4 1 Replacement and renewal 4 1 1 Callowhill Fairmount 4 1 2 Norristown 4 1 3 Wayne Junction 4 1 4 Ambler 4 1 5 Lansdale 4 1 6 Doylestown 4 1 7 Other substations 5 See also 6 Footnotes 6 1 General 6 2 Rebuilding for the Future Substation Program 7 ReferencesHistory edit nbsp Electrification power infrastructure at Lansdale Pennsylvania 24 kV top feeders are directed into the substation and 12 kV feeders bottom return to the catenary The Reading Company electrified its lines between Reading Terminal in Philadelphia Pennsylvania and Norristown Doylestown Chestnut Hill Hatboro and West Trenton in 1931 The electrification was extended to include the Fox Chase Line in September 1966 Electrification was again extended from Hatboro to Warminster in the early 1970s 1 page needed The Reading s system used catenary electrified at 12 kV 25 Hz like the competing Pennsylvania Railroad s 1915 initial electrification and 1930s mainline expansion Unlike the PRR s system which included multiple power sources and an extensive high voltage transmission network the Reading s electrification was supplied solely by the rotary converter station at Wayne Junction Although ownership and operation of the system has changed the system has remained essentially unchanged with the exception of the replacement of the rotary converter station at Wayne Junction with a solid state cycloconverter in 1986 Transmission system architecture editThe Reading electrification system was designed for suburban MU operations and did not have to support the main line passenger or through freight operations of the rival Pennsylvania Railroad While a complex system of high voltage transmission lines was not necessary the system was large enough to require the use of distribution feeders from the 25 Hz power supply at Wayne Junction The feeders were set at 24 kV double the traction voltage Most of the rail lines would carry one or two feeders attached to the top of the catenary support masts These 24 kV substation feeders can be distinguished from 12 kV traction feeders by the use of four segment insulators as opposed to three segment ones nbsp A simple schematic of the Reading autotransformer distribution scheme 2 The 24 kV lines feed a network of 11 substations 12 including the Wayne Junction switchyard located every 8 to 10 miles 13 to 16 km along the electrified rail lines Most branches are short enough to only require a single substation near the end of the line but the Main and West Trenton lines are long enough to require intermediate substations At each substation the 24 kV feeders are fed through autotransformers to be reduced to the traction voltage of 12 kV which is then passed through circuit breakers before being fed into the overhead catenary wires Power is transmitted effectively at 36 kV because the 24 kV and 12 kV components are 180 out of phase This design has several advantages over the PRR s more traditional transmission and distribution scheme The highest voltage with respect to ground within the system is 24 kV This is significantly less than the 69 kV seen in the PRR s system which required much larger 80 feet 24 m towers and larger insulators and transformers On a small system such as the Reading s transmission infrastructure of this scale was unnecessary Secondly the system uses the 12 kV catenary wire for both transmission and distribution This dual use of the catenary wire allows performing both functions with only two wires The PRR s system in contrast required three wires two for the single phase 138 kV transmission component and one for the 12 kV catenary feeder In both systems the rail is used as a return path for traction current Static frequency converters edit nbsp Original 1930s autotransformer equipment installed by the Reading Railroad All 25 Hz power on the ex Reading system is generated at the Wayne Junction static converter plant This plant was built between 1985 and 1990 and consists of three 15 MVA solid state cycloconverter based modules The system was built by ASEA and is similar technically to the converter later installed at Amtrak s Jericho Park converter The inverters replaced two ca 1928 Westinghouse Electric motor generators that were each rated at 21 4 MVA The capability also formerly existed to supply power from PECO Energy s Somerset Substation which had three motor generators normally used to supply the Pennsylvania Railroad s electrification system This capability has been removed as have the Somerset motor generators The ex Reading system now operates completely independently from Amtrak s power system Wayne Junction receives 230 kV 60 Hz power from two redundant lines that connect to PECO substations at Waneeta Tabor and Pulaski Two 60 MVA 230 13 2 kV transformers reduce voltage for the static frequency converters Cross ties allow removing portions of the supply system from service for maintenance In March 2015 a contract worth 4 656 321 was awarded to STV Incorporated for the provision of architectural and engineering services for the rehabilitation of static frequency converters at Wayne Junction with services to be performed over a period of 60 months scheduled to commence in April 2015 per Proposal No 14 233 JHC 3 Substations editvte25 Hz Power Supplieson the ex Reading System nbsp Doylestown DOY nbsp Lansdale nbsp Ambler nbsp nbsp Hatboro WAR nbsp nbsp nbsp Yardley WTR nbsp nbsp nbsp nbsp nbsp nbsp Woodbourne nbsp nbsp Neshaminy Falls nbsp nbsp Bethayres nbsp nbsp nbsp nbsp nbsp nbsp nbsp Jenkintown Wyncote nbsp nbsp nbsp nbsp FOX nbsp nbsp Chestnut Hill East CHE nbsp nbsp nbsp Wayne Junction nbsp nbsp nbsp nbsp nbsp nbsp Norristown THO nbsp nbsp nbsp nbsp nbsp Fairmount nbsp nbsp nbsp nbsp to Reading Terminal nbsp Girard Avenue nbsp nbsp nbsp Center City Commuter Connection nbsp nbsp Amtrak s 12 kV 25 Hz System ex PRR Legend nbsp nbsp Converters and Switchyard nbsp Substation nbsp Future Substation nbsp Phase breakMap all coordinates using OpenStreetMap Download coordinates as KML GPX all coordinates GPX primary coordinates GPX secondary coordinates Each of the former Reading Railroad substations was equipped with transformers and circuit breakers from American Brown Boveri Most transformers are rated to supply about 2 MVA of power each a few 4 MVA transformers exist Each substation also contained a number of oil filled circuit breakers to disconnect both the 12 kV and 24 kV lines under load The larger substations also have a small equipment and maintenance building to house any control equipment or secondary transformers for generating the 100 Hz signal power Replacement and renewal edit Due to the robustness and simplicity of the components until 2010 all the SEPTA substations were equipped with their original equipment then approaching 80 years in service Callowhill Fairmount edit Callowhill substation was the first targeted for replacement to eliminate the need to maintain the overhead wires over the abandoned Reading Viaduct rail line as feeders to the active tracks Its replacement Fairmount substation was commissioned in the 3rd quarter of 2010 4 featuring two 12 24 kV 25 Hz single phase 5 MVA autotransformers as well as trolley breakers and other switchgear 5 Norristown edit Norristown substation received new transformers trolley breakers feeders substation switchgear protective relaying and a structural overhaul in a stimulus project 6 Wayne Junction edit In July 2012 the US Department of Transportation awarded SEPTA a 12 8 million Tiger IV grant to help refurbish Wayne Junction Substation 7 In the words of SEPTA General Manager Joseph M Casey We intend to use these resources to replace equipment that should be on display in a museum of transit history The grant was announced at ceremony at the substation which was attended by Transportation Secretary Ray LaHood who said It s not the sexiest it s not the prettiest but it s one of the most important projects 8 Renewal of Wayne Junction s three static frequency converters is expected to occur during the 2010s in three stages in order to maintain redundancy A fourth converter is to be added for system security 9 S 1 In October 2014 SEPTA requested interested contractors to submit bids for the rehabilitation of the static frequency converters at Wayne Junction 10 Ambler edit In September 2014 SEPTA requested interested contractors to submit bids for the rehabilitation of Ambler substation 11 In October 2014 SEPTA awarded a 7 99 million contract to Carr amp Duff Inc 12 for the work 13 Lansdale edit On October 31 2016 one of the substation s two main transformers burned out and was replaced ahead of schedule a week later with one of the new transformers already on hand for the substation renewals at both Lansdale and Ambler 14 Doylestown edit In the 1990s a fire at the Doylestown substation rendered it inoperable Until the substation was repaired in 2013 the Doylestown Branch east of Lansdale had to be powered exclusively from the Lansdale substation This single end feeding of a 10 mile 16 km section of track limited the number of MUs that could run simultaneously on the branch and also limited their maximum speed and acceleration The substation received a new 12 24 kV autotransformer in April 2015 15 Other substations edit With the passage of a source of dedicated transportation funding by the Commonwealth of Pennsylvania SEPTA announced in December 2013 a capital budget plan that includes renewal or replacement of all remaining former Reading substations in five phases The first phase involves replacement of Jenkintown substation and the renewal of Ambler substation s active components projects for which final design had been completed by the end of 2013 9 16 In November 2014 SEPTA requested interested contractors to submit bids for the rehabilitation of four substations Lansdale Bethayres Chestnut Hill East and Hatboro 17 The engineering design work is expected to take two years and the construction a further three years SEPTA also plans to build a new substation near Woodbourne station by Fall 2020 as the distance between Neshaminy Falls and Yardley substations is nearly twice the optimal 5 mile 8 0 km distance between substations on a 12 kV 25 Hz system S 2 Substations on the ex Reading System Name Transformers Line Served Coordinates NotesAmbler 1 Main Line 40 09 02 N 75 13 21 W 40 15056 N 75 22250 W 40 15056 75 22250 Ambler Substation Designed for two transformers but only one was ever installed Renewal designed and funded 16 Scheduled to be renewed by Summer 2016 S 3 Bethayres 1 West Trenton Line 40 06 57 N 75 04 07 W 40 11583 N 75 06861 W 40 11583 75 06861 Bethayres Substation Scheduled to be renewed by Spring 2018 S 4 Callowhill Reading Terminal 2 Main Line 39 57 31 N 75 09 26 W 39 95861 N 75 15722 W 39 95861 75 15722 Callowhill Substation Replaced by Fairmount substation in 2010 Abandoned Chestnut Hill East 1 Chestnut Hill East Line 40 04 51 N 75 12 20 W 40 08083 N 75 20556 W 40 08083 75 20556 Chestnut Hill Substation Originally had 2 transformers Scheduled to be renewed by Summer 2018 S 5 Doylestown 1 Doylestown Branch 40 18 09 N 75 08 04 W 40 30250 N 75 13444 W 40 30250 75 13444 Doylestown Substation Renewed Spring 2015 S 6 Fairmount 2 Main Line 39 57 55 N 75 09 07 W 39 96528 N 75 15194 W 39 96528 75 15194 Fairmount Substation Built 2010 replaced Callowhill Substation Hatboro 1 Warminster Line 40 10 30 N 75 06 11 W 40 17500 N 75 10306 W 40 17500 75 10306 Hatboro Substation Scheduled to be renewed by Winter 2020 S 7 Jenkintown 2 West Trenton and Main Lines 40 05 50 N 75 08 17 W 40 09722 N 75 13806 W 40 09722 75 13806 Jenkintown Substation Replacement under construction scheduled completion Fall 2016 S 8 Lansdale 2 Main Line 40 14 38 N 75 17 07 W 40 24389 N 75 28528 W 40 24389 75 28528 Lansdale Substation Scheduled to be renewed by Summer 2017 S 9 Neshaminy Falls 2 West Trenton Line 40 08 45 N 74 57 54 W 40 14583 N 74 96500 W 40 14583 74 96500 Neshaminy Falls Substation Scheduled to be renewed by Summer 2019 S 10 Norristown 2 Manayunk Norristown Line 40 06 48 N 75 20 48 W 40 11333 N 75 34667 W 40 11333 75 34667 Norristown Substation Feeders re oriented 180 in 1970 for line relocation due to Dannehower Bridge US 202 construction All substation components replaced 2012 Wayne Junction 3 step up All 40 01 31 N 75 09 23 W 40 02528 N 75 15639 W 40 02528 75 15639 Wayne Junction Switchyard Design work is being undertaken to renew the electrical equipment at this site 7 Woodbourne 2 West Trenton Line 40 11 34 N 74 53 21 W 40 19278 N 74 88917 W 40 19278 74 88917 Woodbourne Substation New substation scheduled to be built by Fall 2020 S 2 Yardley 2 West Trenton Line 40 14 03 N 74 49 55 W 40 23417 N 74 83194 W 40 23417 74 83194 Yardley Substation Scheduled to be renewed by Summer 2019 S 11 See also editRailway electrification system Amtrak s 25 Hz traction power systemFootnotes editGeneral edit Kneschke et al 1995 Kneschke et al 1995 p 80 SEPTA March 26 2015 Minutes of Regular Board Meeting March 2015 PDF SEPTA Board Meeting Minutes Retrieved 5 August 2015 Regional Rail Substation Improvements PDF SEPTA Fiscal Year 2010 Capital Budget amp Fiscal Years 2010 2021 Capital Program SEPTA Archived from the original PDF on 11 February 2013 Retrieved 5 September 2012 Fairmount Substation and 30th Street Switching Station Gannett Fleming Transit amp Rail Systems Retrieved 5 September 2012 Norristown Power Substation Overhaul P2 2A SEPTA Stimulus Project Information SEPTA Retrieved 5 September 2012 a b Wayne Junction Substation Update www SEPTA org Southeastern Pennsylvania Transportation Authority Quinn Amy Z July 11 2012 Unsexy but critically needed replacement coming for Wayne Junction Substation www newsworks org Retrieved 5 August 2015 a b SEPTA Railroad Substation Program PDF Proposed Capital Plan Catching Up Southeastern Pennsylvania Transportation Authority Retrieved 31 December 2013 Bids Page SEPTA Bids Page SEPTA Carr and Duff Inc Carr amp Duff http www septa org business bid results detail pdf r14 156 JAB pdf bare URL PDF Almeida John P November 20 2016 SEPTA Lansdale Parking Garage Lansdale PA November 19 2016 6th photo and caption Railfan Pictures of the Week The Philadelphia Chapter of the National Railway Historical Society Retrieved 30 November 2016 Almeida John P June 21 2015 Out with the old SEPTA transformer replacement Doylestown PA April 12 2015 Railfan Pictures of the Week The Philadelphia Chapter of the National Railway Historical Society Retrieved 29 June 2015 a b SEPTA Projects Funded Under Senate Bill 1 PDF PennDOT Decade of Investment Pennsylvania Department of Transportation Retrieved 31 December 2013 SEPTA November 2014 A amp E Services for Rehabilitation of Regional Railroad Division Substations Proposal Number 14 268 JHC www SEPTA org Retrieved 5 August 2015 Rebuilding for the Future Substation Program edit SEPTA Wayne Junction Static Frequency Converters Main Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 a b SEPTA Woodbourne Substation West Trenton Line Rebuilding for the Future Southeastern Pennsylvania Transportation Authority Retrieved 29 June 2015 SEPTA Ambler Substation Lansdale Doylestown Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Bethayres Substation West Trenton Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Chestnut Hill East Substation Chestnut Hill East Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Doylestown Substation Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Hatboro Substation Warminster Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Jenkintown Substation Main Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Lansdale Substation Lansdale Doylestown Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Neshaminy Substation West Trenton Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 SEPTA Yardley Substation West Trenton Regional Rail Line Rebuilding for the Future Substation Program Southeastern Pennsylvania Transportation Authority Retrieved 5 August 2015 References editDoub C L March 1931 Power Supply Facilities for Reading Suburban Electrification Transactions of the American Institute of Electrical Engineers 50 1 Institute of Electrical and Electronics Engineers IEEE 240 245 doi 10 1109 T AIEE 1931 5055770 ISSN 0096 3860 S2CID 51646983 Kneschke Tristan A March 1985 Static Frequency Converter for SEPTA s Wayne Junction Traction Substation IEEE Transactions on Industry Applications IA 21 2 Institute of Electrical and Electronics Engineers IEEE 295 300 doi 10 1109 TIA 1985 349628 ISSN 0093 9994 S2CID 17134542 Fischer R B Apr 1990 Introduction of Static Frequency Converters on SEPTA s 25 Hz Commuter Rail System Technical Papers Presented at the 1990 ASME IEEE Joint Railroad Conference Institute of Electrical and Electronics Engineers IEEE 149 155 doi 10 1109 RRCON 1990 171673 S2CID 111289944 Kneschke T A Hong J P Naqvi W Mar 1994 Load flow study and conceptual system design of SEPTA s regional rail division traction power system Proceedings of IEEE ASME Joint Railroad Conference Institute of Electrical and Electronics Engineers IEEE pp 81 95 doi 10 1109 RRCON 1994 289017 ISBN 978 0 7803 1890 8 S2CID 109631300 Kneschke T A Hong J P Natarajan R Naqvi W Apr 1995 Impedance calculations for SEPTA s rail power distribution system Proceedings of the 1995 IEEE ASME Joint Railroad Conference Institute of Electrical and Electronics Engineers IEEE pp 79 85 doi 10 1109 RRCON 1995 395166 ISBN 978 0 7803 2556 2 S2CID 110918186 Kneschke T Naqvi W Mar 1997 Upgrade of SEPTA s regional rail power system Proceedings of the 1997 IEEE ASME Joint Railroad Conference Institute of Electrical and Electronics Engineers IEEE pp 35 47 doi 10 1109 RRCON 1997 581350 ISBN 978 0 7803 3854 8 S2CID 109984985 Retrieved from https en wikipedia org w index php title SEPTA 27s 25 Hz traction power system amp oldid 1196397135, wikipedia, wiki, book, books, library,

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