More Related Content
Similar to P3-Report-Quebec-NewEngland (20)
More from Akshay Nerurkar (7)
P3-Report-Quebec-NewEngland
- 2. &
INDEX&
1. Introduction55555555555555555555555555555555555555555555555555555555555555555555555555555"1"
2. Physical"Characteristics"55555555555555555555555555555555555555555555555555555555555555"1"
2.1 Type"
2.2 Location"
2.3 Size"(length)"
2.4 Manufacturer"
2.5 Other"Characteristics"
3. Technical"Specifications"55555555555555555555555555555555555555555555555555555555555555"3"
3.1 Volt/Amp/Power"ratings"
4. Control"Strategy/Parameters"5555555555555555555555555555555555555555555555555555555"4"
4.1 Parallel"MTDC"configuration"
4.2 Series"MTDC"configuration"
4.3 Control"Parameters"
4.4 Control"system"of"the"project"
4.5 DC"Voltage"Control"
4.6 Reactive"Power"Control"
4.7 Reactive"Power"Requirement"
4.8 Control"functions"
5. Operations"5555555555555555555555555555555555555555555555555555555555555555555555555555555"8"
5.1 Scheduling"and"Configurations"
5.2 Normal"Configurations"
5.3 Hybrid"Configurations"
5.4 Advantages"of"Hybrid"Configuration"
5.5 Reliability"and"Maintainability"
5.6 Interconnection"Issues5Contingency"Analysis:"Impact"of"Quebec5New"
England"on"PJM"Transmission"system"
5.7 Protection"of"the"HVDC"line"
5.8 Operational"Limitations:"Frequency"Coupling"
5.9 Results"and"field"measurements"
6. Economics"55555555555555555555555555555555555555555555555555555555555555555555555555555"16"
6.1 Capital"Construction"Cost"
6.2 Cost"of"Money"
6.3 Net"Benefits"
6.4 Economic"Justification"
6.5 Different"Losses"
7.""""""""Environmental"Considerations"55555555555555555555555555555555555555555555555555555"20"
""""""""7.1"Right5of5Way"Issues"
""""""""7.2"Emissions"and"other"offsets"
""""""""7.3"New"England"environmental"challenges"and"the"possible"actions"
""""""""7.4"Impact"of"Integrated"Actions"on"New"England"Goals"
""""""""7.5"Harmonics/Interferences"
- 5. ! 1!
1.#Introduction:#
!
The!project!we!have!chosen!is!“Quebec6New!England!HVDC!transmission!line”,!
which! has! a! capacity! of! 2690MW.! ! This! project! came! into! operation! in! two!
phases,! phase61! in! 1987,! phase62! in! 1992.! This! line! travels! all! the! way! from!
northern! part! of! Quebec,! Canada! passes! the! Canada6USA! border! and! finally!
reaches!the!New6England!area!ending!up!at!Sandy!Pond,!Massachusetts.!This!line!
is! a! Multi6terminal! HVDC,! which! has! three! terminals! namely! Radisson,! Nicolet!
and!Sandy!Pond!that!can!operate!in!two6terminal!mode!and!also!in!hybrid!mode.!
In!this!report!we!will!be!discussing!more!details!about!this!project!as!we!move!
forward.!
!
2.#Physical#Characteristics:#
#
2.1#Type:#
This! project! is! a! point6to6point! connected,! bipolar,! multi6terminal! HVDC! with!
metallic!return.!Each!terminal!has!two!converters,!which!makes!it!each!converter!
per! pole.! The! converter! stations! are! built! of! mercury! valves! when! it! was!
commissioned,! later! the! mercury! valves! were! replaced! by! thyristors! due! to!
advancements!in!the!technology.!Each!converter!station!has!a!126pulse!bridge!
converter,!which!is!similar!to!many!of!the!existing!projects.!
!
The!Quebec6New!England!HVDC!is!the!first!large6scale!multi6terminal!designed!
and!installed!in!the!world.!It!was!constructed!in!two!phases:!
• Phase!1:!1986!(690!MW)!
• Phase!2:!1992!(2000MW)!
In!phase61!two!terminal!stations!namely!Radisson!(Quebec,!CA)!and!Sandy!Pond!
(Massachusetts,!USA)!were!built.!In!phase62!the!power!capacity!is!increased!by!
2000MW!and!also!a!new!terminal!‘Nicolet’!came!into!existence.!
!
2.2#Location:#
#
!
Figure!2.1:!Location!
!
- 6. ! 2!
As!shown!in!the!figure!2.1,!it!can!be!seen!that!the!line!starts!at!Radisson!terminal!
in!Quebec,!Canada.!The!input!power!to!the!terminal!and!in!turn!the!line!comes!
from! the! La! Grande! 2! hydroelectric! power! station.! The! line! reaches! Nicolet!
terminal!at!the!Canada6USA!border!and!then!ends!up!at!Sandy!Pond!terminal!in!
Massachusetts,! USA.! There! were! two! other! terminals! Des! Cantons,! Comerford!
between!Nicolet!and!Sandy!Pond!but!were!decommissioned!due!to!dissatisfying!
results,!which!will!be!discussed!in!this!report!under!configurations.!
!
2.3#Size#(Length):#
!
!
Figure!2.2:!One!line!diagram!of!the!HVDC!line!
!
The!total!length!of!the!line!is!1500Km,!the!length!between!Radisson!to!Nicolet!is!
1022Km,!the!length!between!Nicolet!and!Des!Cantons!is!105Km!and!the!length!
from!Des!Cantons!to!Sandy!Pond!is!383Km.!In!the!online!diagram,!it!can!be!seen!
that!the!La!Grande!station!feeds!the!Radisson!terminal.!The!stations!Nicolet!and!
Comerford!were!decommissioned!as!discussed!before.!!
!
2.4#Manufacturer:!
!
The! works! of! this! project! were! carried! out! by! ABB! group.! This! project! was!
world’s! first! Multi6terminal! HVDC! system.! After! this! project! ABB! has! installed!
and!operated!many!MTDC!systems!through!out!the!world.!ABB!and!National!Grid!
celebrated!25!years!for!the!project!on!November!3rd,!2015.!ABB!has!planned!to!
make! its! impact! through! its! new! protective! system! scheme! namely! MACH! –!
Modular!Advanced!Control!for!HVDC!at!the!Sandy!Pond!terminal!in!2013.!ABB!
- 7. ! 3!
has!pioneered!and!is!a!leader!in!HVDC!technology!for!the!last!60!years.!ABB!has!
done!over!100!HVDC!projects!and!is!planning!to!setup!Ultra6HVDC!in!its!future!
projects.!
!
2.5#Other#Characteristics:#
!
The! line! also! crosses! the! Saint! Lawrence! River! between! Grondines! and!
Lotbiniere,!Quebec,!Canada.!This!power!line!crossing!initially!was!an!overhead!
crossing!and!then!later!they!replaced!it!by!a!cable!tunnel.!The!negative!visual!
impact! of! the! large! towers! of! the! overhead! lines! was! the! reason! behind! the!
change.!The!length!of!the!cable!tunnel!is!3954!meters.!
!
!
3.#Technical#Specifications:!
!
3.1#Volt/Amp/Power#ratings:!
!
The! HVDC! line! is! operated! at!±450!"!through! out! its! length.! Coming! to! the!
individual!terminal!ratings,!it!can!be!tabulated!as!follows:!
!
Terminal! Power!rating! Voltage!rating!
Radisson! 2250!MW! ±500!"!
Nicolet! 2138!MW! ±475!"!
Sandy!Pond! 2000!MW! ±450!"!
Table!3.1:!Volt/Amp/Power!ratings!
!
The!calculated!DC!current!at!±450!"!transferring!a!power!of!1500!MW!will!be!
around!1670!Amperes.!The!line!is!rated!at!2690!MW!but!it!is!always!operated!at!
some!stable!value!satisfying!the!contingency!specifications!of!the!New!England!
region.!This!will!be!further!discussed!under!operations!of!the!line!in!this!report.!
!
The!AC!substation!voltages!connected!to!these!terminals!are!rated!as!follows:!
!
Terminal! Voltage!ratings!
Radisson! 735kV/315kV!
Nicolet! 735kV/230!kV!
Sandy!Pond! 345!kV!
Table!3.2:!AC!substation!ratings!
!
!
!
- 8. ! 4!
4.#Control#Strategy/Parameters:#
!
The! converter! stations! are! operated! in! CSC6Current! source! converter! mode,!
which!is!also!the!Line!commutated!converter!mode.!The!converter!switches!were!
initially!mercury!valve!based!but!recently!they!have!changed!valves!to!thyristor6
based!converters.!!
!
A!multi!terminal!HVDC!can!be!connected!either!in!series!or!parallel!way,!both!
have!their!advantages!in!various!aspects.!
!
4.1#Parallel#MTDC#Configuration:#
!
!
Figure!4.1!Parallel!MTDC!configurations!
!
The! parallel! configuration! allows! DC! terminals! to! operate! around! a! common!
rated!voltage!Vdc.!If!parallel!configurations!is!used!in!an!MTDC!system!based!on!
CSC,!because!of!voltage!source!nature!of!CSCs!in!the!DC6side,!a!precise!voltage!
balancing! between! converters! are! required! through! a! special! and! complicated!
switching.! This! even! gets! worse! when! the! CSCs! are! far! away! from! each! other!
since! fast! communication! channels! are! also! required.! Therefore,! thee! control!
technique!that!should!be!adopted!in!a!parallel6CSC6MTDC!system!will!be!tough!
and!complicated!task.!This!is!why!it!is!practically!impossible!to!form!a!parallel6
CSC6MTDC!system!with!more!than!5!terminals.!The!Hydro!Quebec6New!England!
MTDC!system!was!initially!planned!to!construct!a!five!terminal!MTDC!system.!
However! due! to! the! performance! problems! predicted! to! happen! they! stop!
installing!the!other!two!stations!which!was!intended!to!connect!Des!Cantons!to!
Comerford.!
!
!
- 9. ! 5!
4.2#Series#MTDC#configurations:!
!
!
Figure!4.2:!series!MTDC!configurations!
!
In!the!series!connection!where!one!of!the!converter!controls!the!current!around!
a! common! rated! current! and! the! rest! of! converters! controls! the! power.! This!
configuration!is!well!suited!for!CSC!MTDC!systems!since!CSCs!in!the!DC!side!are!
functioning!as!a!voltage!source,!which!can!be!connected!in!series!without!need!
for! special! switching.! However! this! configuration! has! several! drawbacks! as!
compared! to! other! configuration! such! as! higher! losses,! more! complicated!
insulation.! Most! importantly,! if! one! of! the! DC! lines! is! disconnected! due! to! the!
fault! occupance! the! current! in! the! entire! DC! grid! will! be! cut! off.! Due! to!
aforementioned!disadvantages,!series!configuration!is!not!recommended!to!be!
used!and!hence!in!practice!only!parallel!configuration!has!been!considered.!But#
for# the# Hydro# QuebecONew# England# project# series# configuration# is#
implemented# since# there# were# disadvantages# like# special# switching,# fast#
communications#in#parallel#operation.!
!
!
4.3#Control#Parameters:!
!
The!different!parameters!that!are!responsible!for!the!control!of!this!line!are!as!
follows:!
!
1. Voltage!control:!Tap!Changer!control!(on!AC!side),!Converter!control!on!
Inverter!side!(for!DC!voltage)!
2. Current!control:!Converter!control!on!Rectifier!side!
3. Reactive!power!control:!AC!Voltage!limitation!control,!AC!Filters!
4. Firing! angle! control:! Fixed! firing! angle! with! trigger! set! and! with! or!
without!PI!controller!
5. Extinction!angle!control!
!
!
!
!
!
!
- 11. ! 7!
180! degrees.! The! direction! of! current! is! changed! if! the! voltage! polarity! of! the!
converters!is!changed.!!
!
4.6# Reactive# Power# controlODC# Voltage# limit# control# through# different#
controls:!
!
!
Figure!4.6!DC!Voltage!limit!control!–!Reactive!power!control!
!
This!control!is!used!for!the!Reactive!power!control!through!Voltage!limitation,!
the! Alpha! is! also! varied! through! the! PI! controller! and! the! trigger! set! on! both!
inverter!and!rectifier!side.!The!trigger!set!controls!current!on!the!rectifier!side!
and!controls!voltage!on!the!inverter!side.!!The!extinction!angle!is!also!controlled!
here!on!the!inverter!side.!
!
4.7#Reactive#power#requirement:!
!!
The! general! reactive! power! requirement! in! this! HVDC! line! is! 50660%! of! the!
active! power! flow.! This! can! be! achieved! through! shunt! capacitances! and!
harmonic!filter!banks.!
!
Figure!4.7:!Reactive!Power!requirement!
- 12. ! 8!
4.8#Control#Functions:!
!
Control!functions!at!the!rectifier:!
1. DC!current!Control!(main!control!mode)!
2. DC!Voltage!limitation!control!(backup!control!mode)!
Control!functions!at!the!inverter:!
1. DC!Voltage!control!(main!control!mode)!
2. DC!current!control!(backup!control!mode)!
3. Extinction!Angle!control!(backup!control!mode)!
!
!
5.#Operations:!
!
5.1#Scheduling#and#Configuration:!
!
The! Radisson,! Nicolet! and! Sandy! Pond! terminals! have! two! converters! each,!
therefore! we! have! six! converters! in! total,! one! operating! for! each! pole.! Each!
terminal! has! three! modes! of! operation! the! rectifier,! inverter! and! the! no!
operation!mode.!Therefore!the!total!possible!outcomes!for!configuration!would!
be!3×3×3 = 27.!Out!of!which!eight#configurations!are!used!prominently:!
!
1. Two!three6terminal!MTDC!configurations!
2. Four!two6terminal!configurations!
3. Two!hybrid!configurations!(one!Radisson!or!Sandy!Pond!pole!out)!
!
The!different!configurations!can!be!shown!as!follows:!
!
!
Figure!5.1:!Different!configurations!of!the!Hydro!Quebec6New!England!operation!
!
- 13. ! 9!
5.2#Normal#Configurations:#
#
The!Configurations!1,!4,!16,!22!are!the!two!terminal!mode!operations,!while!the!
9,! 25! are! the! Multi! terminal! operation! and! the! 964,! 25622! are! the! hybrid!
configurations.! Let! us! analyze! the! configuration! 1,! the! Radisson! operates! as!
rectifier! while! the! Sandy! Pond! operates! in! Inverter! mode! and! the! Nicolet!
terminal!is!in!no!operation!mode.!Here!the!power!is!generated!in!La!Grande!and!
then!transferred!from!Radisson!to!the!loads!near!Sandy!Pond!terminal.!Also!the!
terminals!can!operate!either!in!monopole!or!bipolar!mode.!
!
Let! us! analyze! a! multi! terminal! mode! 9,! in! this! configuration! Radisson! and!
Nicolet!act!as!Rectifiers!while!the!Sandy!Pond!act!as!inverter!sucking!power!from!
the!other!two!stations.#
!
Figure!5.2:!Normal!Configurations!
!
5.3#Hybrid#Configurations:#
#
The!hybrid!configuration!is!a!combination!of!two!normal!configurations!where!
Power!is!transferred!in!two!ways,!involving!all!three!terminals!and!also!one!of!
the! terminals! operating! in! monopole! mode.! In! configuration! 469! (or! 964),! the!
Radisson!terminal!has!one!pole!in!rectifier!operation!while!the!other!pole!being!
off!for!various!other!reasons!like!schedule!maintenance,!outage.!The!terminals!
Nicolet! and! Sandy! Pond! work! in! bipolar! inverter! mode! getting! power! from!
monopole!Radisson!terminal.!!
#
!
Figure!5.3:!Hybrid!Configurations!
!
- 14. ! 10!
5.4#Advantages#of#Hybrid#Configurations:#
!
There! are! various! advantages! of! the! hybrid! configurations! in! this! HVDC!
transmission,!which!are!beneficial!in!many!aspects.!Hybrid!Configurations!in!this!
project! are! characterizes! by! the! multi! terminal! Radisson6Nicolet6Sandy! Pond!
operation!of!five!converters,!three!on!the!first!pole!and!two!on!the!second.!More!
flexibility! is! attained! in! the! case! of! unavailability! of! one! pole! for! planned!
maintenance!or!outage!at!Radisson!or!Sandy!Pond.!No!hybrid!configuration!has!
been!developed!yet!for!outage!of!one!pole!at!Nicolet.!In!this!hybrid!configuration,!
one! line! section! is! operated! bipolar! while! the! other! section! is! monopole! with!
metallic!return.!
!
5.5#Reliability#and#Maintainability:#
5.5.1#Open#Access#Transmission#Tariff#(OATT):##
Section! II! of! the!ISO! New! England! Inc.! Transmission,! Markets,! and! Services!
Tariff!(ISO!Tariff)!is!known!as!the!Open!Access!Transmission!Tariff!(OATT).!The!
OATT:!
• Helps! ensure! that! all! transmission! owners! and! transmission! customers!
have!fair!and!open!access!to!transmission!service!in!New!England!
• Details! the! rights! and! responsibilities! of!transmission! owners! and!
transmission!customers!as!well!as!the!procedures!they!must!follow!and!the!fees!
transmission!customers!must!pay!to!access!the!transmission!system!
• Sets!out!the!transmission!system!planning!process!for!the!region!
• Sets! out! the! cost! recovery! and! allocation! mechanisms! for! transmission!
and!ancillary!services!in!the!region!!
Total#Transfer#Capability#(TTC):#
The!amount!of!electric!power!that!can!be!moved!or!transferred!reliably!from!one!
area!to!another!area!of!the!interconnected!transmission!systems!by!way!of!all!
transmission! lines! (or! paths)! between! those! areas! under! specified! system!
conditions.!The!Total!Transfer!Capability!for!the!New!England!(on!11/24/2015)!
system!has!been!obtained!as!follows:#
!
Figure!5.4:!Total!Transfer!capability!for!the!New6England!on!11/24/2015!
- 15. ! 11!
Available#Transfer#Capability#(ATC):!
a) Capacity#Benefit#Market#(CBM):##
!!!!!The!use!of!Capacity!Benefit!Margin!(CBM)!on!Phase!I/II!HVDC6TF!is!governed!
by! the! overall! ISO! New! England! approach! to! capacity! planning! requirements.!
Load!Serving!Entities!(LSEs)!operating!in!the!New!England!Balancing!Authority!
Area!are!required!to!arrange!their!Installed!Capability!requirements!prior!to!the!
beginning! of! any! given! month! in! accordance! with! New! England! Wholesale!
market!rules.!As!such,!CBM!on!Phase!I/II!HVDC6TF!for!use!in!ATC!calculations!is!
zero!and!will!not!be!included!in!the!calculations!of!ATC.!As!long!as!this!market!
design!is!in!place!in!New!England!the!CBM!is!set!to!zero.!
b) Transmission#Reliability#Margin#(TRM):#
The!Transmission!Reliability!Margin!(TRM)!is!the!portion!of!TTC!that!cannot!be!
used!for!reservation!of!Firm!Transmission!Service!because!of!uncertainties!in!
system!operation.!These!calculated!TRM!values!shall!not!be!applied!to!non6firm!
transmission!service.!
!
Phase!I/II!Import!TRM!=!TTC!–!1200!MW!
!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!Phase!I/II!Export!TRM!=!TTC!–!500!MW!
!
c) Existing#Transmission#Commitment#(ETC):#
!!!!!A! Transmission! Provider’s! existing! transmission! capacity! obligations! which!
may! include! grandfathered! transmission! contracts,! Tariff! transmission!
reservations!(including!rollover!rights!for!extensions)!and!other!obligations!that!
impact!firm!ATC.!
!
Calculation#of#Firm#ATC:#
#
a) Firm#ATC:#
!
Firm!Available!Transfer!Capability!(Firm!ATC)!for!an!interface!is!the!capability!
for!Firm!transmission!reservations!that!remain!after!allowing!for!CBM!and!Firm!
Existing!Transmission!Commitments!(ETC).!Firm!Transmission!Service!over!the!
Phase! I/II! HVDC6TF! that! is! available! in! the! Planning! Horizon! (PH)! includes:!
Yearly,! Monthly,! Weekly,! and! Daily.! Phase! I/II! HVDC6TF! transmission!
reservations!with!any!other!status!are!not!included!in!this!Firm!ATC!calculation.!
Netting!of!Phase!I/II!HVDC6TF!transmission!reservations!is!not!considered!in!the!
ATC! calculation.! Mathematically,! Firm! ATC! in! the! PH! is! calculated! using! the!
equation:!
Firm!ATC!=!TTC!–CBM!–Firm!ETC!
!
b) NonOFirm#ATC:#
Non6Firm! ATC! in! the! PH! for! an! interface! is! the! capability! for! N6n6Firm!
transmission!reservations!that!remain!after!allowing!for!CBM,!TRM!and!Firm!and!
Non6Firm! ETCs.! As! discussed! above,! the! CBM! for! Phase! I/II! HVDC6TF! is! zero.!
Non6Firm!ATC!over!the!Phase!I/II!HVDC6TF!that!is!available!in!the!PH!includes:!
Monthly,!Weekly,!Daily!and!Hourly.!Firm!and!Non6Firm!Phase!I/II!HVDC6TF!ETCs!
- 16. ! 12!
are! only! those! Firm! and! Non6Firm! transmission! reservations! with! a! status! of!
Confirmed.!Phase!I/II!HVDC6TF!transmission!reservations!with!any!other!status!
are!not!included!in!this!Non6Firm!ATC!calculation.!Netting!Phase!I/II!HVDC6TF!
transmission!reservations!is!not!considered!in!this!calculation.!Mathematically,!
Non6Firm!ATC!in!the!PH!is!calculated!using!the!equation:!!
!
Non6Firm!ATC!=!TTC!–!CBM!–!TRM!–!Firm!and!Non6Firm!ETCs!
#
5.6# Interconnection# IssuesOContingency# Analysis:# Impact# of# QuebecONew#
England#on#PJM#Transmission#System##
Phase!2!interface!has!been!in!service!since!1991!with!a!nominal!transfer!capability!
of!2000!MW!in!both!directions.!!Due!to!the!large!transfer!capability!of!this!interface!
and!the!geographic!location!of!the!New!England!Control!Area!with!respect!to!the!
rest! of! the! Eastern! Interconnection,! the! loss! of! this! facility! can! have! a! substantial!
impact! on! the! New! York! and! Pennsylvania,! New! Jersey! and! Maryland! (“PJM”)!
transmission!systems.!The!impact!of!the!loss!of!this!interface!on!the!New!York!and!
PJM!transmission!systems!is!dependent!upon!the!simultaneous!loading!on!critical!
internal!interfaces!in!both!of!these!external!transmission!systems!at!the!time!of!the!
contingency.!The!unique!geographic!location!of!the!New!England!Control!Area!with!
respect!to!the!rest!of!the!Eastern!Interconnection!bounds!the!amount!of!energy!that!
can!flow!between!New!England!and!Hydro!Quebec!over!Phase!2.!!
!
Predefined! procedures! and! the! exchange! and! coordination! of! real6time! data!
between! the! three! affected! Reliability! Coordinators! is! required! to! allow! Hydro!
Quebec! to! New! England! real6time! flows! to! be! greater! than! 1200! MW,! which! is!
referred!to!as!the!“largest!source!contingency!limit”.!There!are!instances!where!real6
time!system!conditions!exist!per!the!established!procedures!that!allow!the!flow!from!
Hydro!Quebec!to!New!England!to!reach!the!facility!rating!of!2000!MW.!Therefore!the!
import! TTC! (Hydro! Quebec! to! New! England)! is! 2000! MW.! The! export! TTC! (New!
England!to!Hydro!Quebec)!has!been!limited!to!1200!MW!since!the!facility!went!into!
service.!Comparable!procedures!would!have!to!be!developed!and!approved!by!the!
affected! Reliability! Coordinators! before! the! flow! from! New! England! to! Hydro!
Quebec!can!exceed!1200!MW;!to!date,!there!has!not!been!a!request!to!consider!the!
development!of!such!procedures.!!
!
Figure!5.5:!The!magnitude!of!power!flow!on!an!hourly!basis!for!a!three!year!period!
is!indicated!as!per!the!figure!shown!above.!
- 17. ! 13!
!
5.7#Protection#of#the#HVDC#line:#
For!High!Voltage!Direct!Current!(HVDC)!applications,!the!control!and!protection!
system! plays! an! essential! role! in! the! overall! performance! of! the! transmission!
system.!The!control!and!protection!system!adopted!by!ABB!Power!Systems!uses!
the!latest!technology!from!the!fields!of!electronics!and!microprocessors.!MACH!is!
a!fully!computerized!control!and!protection!system.!The!main!characteristics!of!
the! MACH! are! the! high! degree! of! functional! integration! and! the! open! systems!
interface!approach.!
The! open! systems! strategy! is! reflected! both! in! the! use! of! industrial! standard!
serial! and! parallel! communication! buses,! as! well! as! in! the! use! of! standard!
formats!for!all!collected!data!(such!as!events,!alarms!and!disturbance!data).!This!
makes! it! possible! to! take! advantage! of! the! latest! achievements! in! electronic!
engineering,!thus!ensuring!timely!development!of!more!advanced!functions!and!
enhancement!of!performance!for!a!long!time!to!come.!Integrated!with!the!MACH!
control!and!protection!equipment!is!the!Station!Control!and!Monitoring!(SCM)!
system.! Work! stations! (PCs)! are! interconnected! by! an! Ethernet! local! area!
network.!A!field!bus!network!builds!up!the!distributed!system!for!remote!I/O,!for!
control!as!well!as!for!process!interfacing!with!the!SCM!system.!
Each!pole!control!and!protection!cubicle!includes,!in!one!framework,!all!controls;!
from!the!interstation!telecommunication!system!and!operator!control!interface!
to!the!converter!firing!control.!A!second!framework!houses!a!double!set!of!DC!
protections.! The! system! is! built! using! state6of6the6art! microprocessors! and!
digital! signal! processors! (DSPs),! connected! by! high! performance! industry!
standard!buses!and!fiber!optic!communication!links.!!
The! principle! of! the! workflow! is! shown! in! Fig.! 5.6! In! the! DPS! (Dynamic!
Performance!Study)!the!pole!control!functions!are!tested!against!an!analogue!or!
a!real6time!digital!HVDC!simulator.!The!software!released!for!the!DPS!is!identical!
with!the!software!in!the!system!design!stage,!and!revision!orders!are!used!from!
the! start! of! the! DPS.! Functional! tests! or! bench! tests! are! made! for! control! and!
protection!functions!using!simplified!simulators.!The!debugging!is!done!at!this!
stage.!
The!schematic!representation!of!the!HVDC!protection!system!is!shown!below:!
!
Figure!5.6:!MACH!protection!system!
!
Integrated! with! the! MACH! control! and! protection! equipment! is! the! Station!
Control! and! Monitoring! (SCM)! system,! a! fully! computerized! and! redundant!
system.!The!solution!with!operator!workstations!in!local!area!networks!(LAN)!is!
very! cost6effective,! and! is! also! in! perfect! agreement! with! the! open! systems!
interface! strategy.! Very! high! performance! is! achieved! mainly! because! all! data!
- 18. ! 14!
collection! and! ordering! are! implemented! in! software! functions! in! distributed!
control! units! (DCUs)! integrated! into! the! control! and! protection! system.! These!
DCUs!are!single!board!computers!from!the!MACH!family.!
5.8#Operational#Limitations:#Frequency#coupling#of#HVDC#and#HVAC#system#
in#the#Hydro#QuebecONew#England#system:#
!
An! HVDC! line! running! in! parallel! with! an! HVAC! line! will! be! exposed! to! a!
fundamental! frequency! coupling.! The! coupling! effects,! if! strong! enough,! have!
been! recognized! as! an! important! subject! concerning! the! performance! and! the!
design! of! an! HVDC! system.! Equipment! both! on! the! AC! and! DC! sides! of! the!
converter! station! can! be! affected! by! this! phenomenon.! Induced! fundamental!
frequency!current!can!lead!to!saturation!of!the!converter!transformer!core!due!
to!unsymmetrical!magnetization.!Saturation!leads!to!an!increased!noise!level!and!
increased!heating!in!the!transformer.!The!commutation!in!the!converter!and!the!
saturation!of!the!transformer!may!also!generate!higher!order!harmonic!currents!
in!the!AC!and!DC!networks,!which!will!influence!the!filter!design.!
!
The! superimposed! AC! current! on! an! HVDC! transmission! line! is! based! on! two!
effects:!
!
• The!coupling!between!AC!and!DC!lines!
• The! dynamic! characteristic! of! the! HVDC! converter! with! its! terminating!
impedance,!responding!to!the!fundamental!frequency!current!on!the!DC!line.!!
!
These! two! effects! must! be! added,! thus! complicating! the! calculation! and!
evaluation!of!the!actual!coupling!to!the!DC!line.!The!analysis!must!therefore!be!
performed!both!with!and!without!the!converters!in!operation!
!
The!field!measurements!were!carried!out!on!the!northern!part!of!the!Quebec6
New!England!Phase!II!multi6terminal!HVDC!system.!This!part!of!the!system!is!a!
bipolar! 450! kV! overhead! transmission! line.! It! is! spanning! from! the! Radisson!
converter! station! (2,250! MW),! in! the! James! Bay! area,! to! the! Des! Cantons!
converter!station!(690!MW)!near!the!US!border.!The!length!is!1120!km.!A!third!
converter! station,! Nicolet! (2,138! MW),! is! located! between! the! two! previously!
mentioned! stations,! 90! km! north! of! Des! Cantons.! At! the! time! of! the! field!
measurements,! all! converter! terminals! and! their! associated! equipment! were!
disconnected.!Hence,!the!transmission!line!was!passive!and!measurements!were!
not!amplified!by!resonances!with!the!line!terminating!impedances.!
!
Three!sections!of!the!HVDC!line!were!exposed!to!AC!line!couplings,!as!shown!in!
Fig.!1!and!detailed!in!Table!1.!
• Section!I:!Radisson!6!Némiscau!
• Section!II:!Trenche/La!Tuque!6!Trois!Rivières/Des!Hêtres!
• Section!III:!Bécancour6!Nicolet!
!
- 22. ! 18!
List#of#Facilities#
a) Tax!
!
b) Book!
!
c) Normalized!
!
15!years!for!personal!property!
18!years!for!real!property!
10!years!for!DC!Line!and!Converter!
30!years!for!AC!Lines!
10!years!for!DC!Line!and!Converter!
30!years!for!AC!Lines!
Tax#Income#
a) Federal!Income!
b) Massachusetts!Income!
c) New!Hampshire!Income!
d) Investment!Tax!Credit!
!
46.0%!
6.5%!(70%!subject!to!Income!Tax)!
9.03%!(30%!subject!to!Income!Tax)!
10%!deferred!and!amortized!over!book!life!
Depreciation#
a) Book:!
b) Tax:!
!
Straight!Line!
Rate!Set!by!Accelerated!Cost!Recovery!
System!Tax!Laws!
In!Service!Date! December!1990!
Table!6.2:!Cost!of!money!
!
6.3#Net#Benefits:#
#
Fossil#Fuel#Prices# Gross#Savings# Project#Costs# Net#
Benefits#
Capital#Costs# Cumulative#
Present#Worth#
!
660%!
!
886!
+25%!
Base!
625%!
1119!
897!
675!
6233!
611!
211!
!
625%!
!
1369!
+25%!
Base!
625%!
1119!
897!
675!
250!
472!
694!
!
Base!
!
1729!
+25%!
Base!
625%!
1119!
897!
675!
610!
832!
1054!
!
+25%!
!
2069!
+25%!
Base!
625%!
1119!
897!
675!
950!
1172!
1394!
Table!6.3:!Net!benefits!
- 24. ! 20!
The! figure! 6.2! resembles! the! different! losses! in! this! project,! the! transformer!
losses!being!the!highest!of!losses!accounting!for!57%,!the!next!being!thyristor!
losses! of! 24%.! The! other! losses! are! from! filters,! smoothing! reactors! and! line!
losses.!
#
7.#Environmental#Considerations:#
#
7.1#RightOofOWay#Issues:!
As! necessary,! transmission! line! rights6of6way! would! be! cleared! of! trees! to!
facilitate!(1)!staking,!access,!assembly,!and!erection!of!structures;!(2)!installation!
of!conductors;!and!(3)!maintenance.!This!would!also!provide!adequate!clearance!
for!energized!lines.!The!clearing!program!would!be!planned!and!implemented!to!
stabilize! the! rights6of6way! against! erosion! and! provide! for! natural! vegetation!
control.!
• Access#and#Maintenance#Roads#
To! the! extent! possible,! existing! roads! would! be! used! to! gain! access! to!
project!sites.!Some!new!access!roads!would!be!required!both!within!the!
rights6of6way! and! from! existing! roads! to! the! rights6of6way! .! Off6road!
access!may!be!pursued!in!special!cases.!
• Support#Structure#Installation,#Framing,#and#Stringing#
In! upland! area! setting! for! the! support! structure! might! include! a!
foundation! with! steel! pole! angle! support! structure! for! instance! would!
either! require! concrete! cylindrical! caisson! foundations,! concrete!
cylindrical!caisson!foundations,!spread6footing!foundation,!steel!grillage!
foundation!structure.!
In!Wetland!areas!the!method!for!placement!would!be!wetlands.!(1)!Direct!
embedment! within! an! excavation.! (2)! Drive! piles! into! underlying! firm!
ground! and! attach! the! structures! to! the! piles.! (3)! Install! a! concrete!
foundation!and!set!the!structure!on!the!foundation.!
• Converter#Terminal#
Construct!ion!of!the!proposed!converter!terminal!would!include!(1)!site!
preparation,! (2)! foundation! work,! (3)! erection! of! buildings! and!
structures,! (4)! installation! of! power! equipment,! and! (5)! testing! and!
commissioning.!
• Expansion#of#the#Ground#Electrode#
The!Ground!electrode!for!the!phase!II!will!be!an!extension!of!the!phase!I!
ground! electrode! it! would! necessitate! the! improvement! of! the! existing!
logging!road.!Additionally,!a!short,!1!56m!(506ft)!wide!corridor!would!be!
cleared!for!the!proposed!ground!electrode!feeder!connector.!
#
7.2#Emissions#and#other#offsets#
• Air#Quality6No!serious!air6quality!impacts!are!anticipated!if!the!project!is!
implemented.!
• Land#Features,#Hydrology,#Water#Quality,#and#Water#Use6!Despite!the!
use!of!mitigate!measures!to!control!erosion,!some!unavoidable!increases!
of!soil!erosion!and!sedimentation!within!creeks!and!rivers!would!result!
from!construction!activities,!particularly!during!the!thunderstorm!season.!
- 25. ! 21!
Construction!activities!would!result!in!temporarily!increased!suspended!
solids!and!turbidity!in!surface!water!bodies!of!the!project!area.!
• Land# Features# and# Use6Impacts! related! to! unstable! slopes! would! be!
mitigated! through! the! use! of! careful! siting! of! structures! and! use! of!
thoroughly!supervised!construction!practices.!Judicious!siting!of!project!
facilities! would! be! employed! to! minimize! the! impacts! associated! with!
geological! instability,! such! as! landslides,! slumping,! mass! wasting,! and!
earthquakes.!
• Ecology6! About! 147! ha! (364! acres)! of! forest! habitat! at! the! proposed!
converter! station,! ground! electrode! site,! and! along! the! proposed! route!
would!be!cleared,!but!it!is!not!anticipated!that!this!would!result!in!serious!
effects! upon! local! wildlife! populations.! Indeed,! some! species! would!
benefit!from!the!clearing!of!the!wooded!habitat.!Disturbance!of!aquatic!
and! wetland! habitats! and! their! associated! biota! would! be! an!
environmental!impact!of!the!proposed!project!and!would!primarily!occur!
during!construction!activities.!
• Socioeconomics# and# Cultural# Resources6! No! unavoidable! adverse!
effects!to!socioeconomics!and!cultural!resources!currently!are!identified.!
• Health# and# Safety6! A! conservative! interpretation! of! the! available! data!
leads!to!the!conclusion!that!electrostatic!fields!and!air!ion!concentration!s!
in!the!right6of6way!have!the!potential!in!very!infrequent!circumstances!of!
inducing! insignificant! and! transient! physiological! and! psychological!
alterations!in!persons!frequenting!this!area!.!
• Historical#Structures6!Al!though!prehistoric!sites!may!contain!structures!
and!historic!sites!may!lack!them!,!historic!structures!may!be!considered!
separately! because! the! methods! employed! for! inventory! and! impact!
assessment!differ!from!those!applied!to!other!cultural!resources!.!
• Electric#and#Magnetic#environment6!Due!to!the!presence!of!AC!and!DC!
lines!there!will!be!electric!and!magnetic!field!in!the!surrounding!and!it!
will!be!maximum!near!the!conductors!but!as!the!clearance!height!of!the!
conductor!is!high!it!would!not!affect!the!surrounding!environment.!
7.3#New#England#environment#challenges#and#the#possible#actions#
!
- 27. ! 23!
Phase! 1! HVDC! system! was! affected! by! transformer! saturation! and!
harmonic!voltage!distortion!due!to!geomagnetic!induced!current!(GIC).!
!
7.6#Ground#Electrode#
• The!ground!electrode!would!correct!for!current!imbalance!between!the!
positive! and! negative! halves! of! the! HVDC! interconnection! and!
accommodate!abnormal!operating!conditions.!
• During! normal! operation! of! the! proposed! DC! line,! approximately! 20!
amperes! of! electricity! at! less! than! 500! volts! would! flow! over! the!
electrode!feeder!and!through!the!ground!electrode.!
• In! cases! of! abnormal! operating! conditions,! the! maximum! voltage! to!
ground! would! not! exceed! 15! kV! at! a! current! of! 2450! amperes.! The!
ground!electrode!is!designed!to!operate!at!this!level!for!15!minutes.!The!
ground! electrode! is! expected! to! be! used! for! abnormal! operating!
conditions!20!to!30!times!per!year.!
8.#Contractual#and#Policy#Considerations.#
Quebec! segment! ownership! by! HQ6TransEnergie! and! US! segment! ownership!
jointly!between!NU!and!NSTAR.!
Relevant!Considerations!
• Project!is!not!a!merchant!project!
• Project!is!participant!funded,!with!cost6based!rates!
• Transmission!Service!Agreement!to!be!filed!with!FERC!for!approval!
• Power!Purchase!Agreement!to!be!approved!by!state!regulators!
• Project!to!be!vetted!through!ISO6NE!planning!process!
• Project!to!be!turned!over!to!ISO6NE!for!operation!
• Project!is!subject!to!state!siting!requirements!
!
1. Joint#Development#Agreement#
• NU! and! HQ6Trans! Energie! for! the! design! and! construction! of! the!
HVDC!line!
• Des!Cantons!is!the!expected!northern!terminus!
• Southern!terminus!has!several!viable!alternatives!identified!
2. Transmission#Services#Agreement#
• Firm!transmission!services!for!HQ6US!under!this!bilateral!agreement!
• HQ!will!pay!for!the!HVDC!line!–participant!funded!
• Negotiated,!cost!based!rates!with!FERC!filing!for!approval!
• Not!merchant!and!no!market6based!pricing!
3. Purchase#Power#Agreement#
• Available!to!NU,!NSTAR!and!other!qualified!New!England!buyers!
• No!less!than!20!year!term!
• All6in!priced!power!(including!the!costs!of!the!transmission!line)!
• State!regulators!will!have!approval!for!the!power!purchase!by!their!
respective!utilities!
- 28. ! 24!
9.#Future#Scope#and#Proposed#Changes#for#the#Project:#
• ABB!will!now!replace!the!206yearold!control!and!protection!systems!with!
the! newest! modular! advanced! control! systems! (MACH)! for! HVDC!
equipment.!
• The! project! scope! also! includes! refurbishment! of! two! cable! transition!
stations!and!a!control!and!protection!system!replica!for!a!test!center!in!
Canada,! which! will! be! operational! by! 2016.! Apart! from! the! Protection!
system!the!Automatic!reclosure!system!is!going!to!be!replaced.!
10.##Conclusions,#Unique#Features#and#Project#Benefits:#
• Only! MTDC! System! in! North! America! and! also! links! two! asynchronous!
Systems.!
• CO2! Emissions:! Injecting! 1,200! MW! of! new! hydro! power! would! reduce!
CO2emissions!by!up!to!6!million!tons!representing!30%!of!the!2025!“gap!
to!target”!
• Other! environmental! benefits:! Power! will! displace! marginal! fossil!
generation! and! associated! environmental! impacts! –frees! up! enough!
natural!gas!to!heat!1!million!homes!
• Fuel! Diversity:! Increase! in! hydro! power! to! New! England! significantly!
increases!the!region’s!fuel!diversity,!reducing!the!dependence!on!oil!and!
gas!
• Market!Power!Prices:!The!scale!of!the!project!is!expected!to!lower!market!
prices!for!power!for!all!customers!
• PPA!benefits:!A!pricing!structure!that!will!be!competitive!with!the!market!
• Participant! Funded:! The! required! investment! in! HVDC! facilities! will! be!
borne!by!the!parties!without!regional!cost!allocation!
!
11.#System#Modelling:#
The MATLAB modelling of Mode 1 Configuration as discussed under 5.1 section of
the Quebec – New England HVDC Project is as shown below:#
!
!
Figure!11.1:!Matlab!system!model!for!mode!1!configuration!
- 30. ! 26!
12.#References:#
!
1.!"Phase!I/II!HVDC6TF!TTC,!CBM,!TRM!and!ATC!METHODOLOGY"!
2.! "Proposed! economic! study! to! assess! potential! regional! benefits! for! increased!
operating!limit!on!New!England/Quebec!Interconnector"!
3.!"ISO!New!England!Available!Transfer!Capability!Implementation!Document!
!!!!!Version!1.0"!
4."ISO!NEW!ENGLAND!OPEN!ACCESS!TRANSMISSION!TARIFF"!
5.! "Environment! Impact! Statement! 6! New! England/Hydro6Quebec! ±! 450! kv!
Transmission!Line!Interconnection66!Phase!II"!
6."Fundamental!frequency!coupling!between!HVAC!and!HVDC!lines!in!the!Quebec6!
!!!!New!England!multi!terminal!system!6!Comparison!between!field!measurements!
!!!!and!EMTDC!simulations"!
7.!"MODERN!CONTROL!AND!PROTECTION!SYSTEM!FOR!HVDC"!
8.!Environmental!impact!statement6!US!department!of!Energy!(publication)!
9.! NU! /! NSTAR! Proposed! HVDC! Transmission! Line6! Allen! W.! Schindler! NPCC! 2009!
General!Meeting!Cambridge,!MA!September!23,!2009!
10.!Interconnection!and!operators!agreement!2012!(publication)!
11.! ! “Feedback! on! the! Quebec6New! England! MTDC! line! 20! years! of! operation”! by!
Danielle!McNabb,!Hydro!Quebec!TransEngergie!
12.! “Planning! HVDC! and! FACTS! in! New! England”! by! Michael! I.Henderson,! Director,!
Regional!Planning!&!Coordination,!ISO!New!England!
!
!
