Knowledge Sharing

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ROADMAP TEKNOLOGI PLN 1.PENDAHULUAN 2.METODOLOGI 3.MATRIK DAN PETA TEKNOLOGI PEMBANGKITAN 4.MATRIK DAN PETA TEKNOLOGI PEMBANGKITAN THERMAL 5.MATRIK DAN PETA TEKNOLOGI PEMBANGKITAN EBT 6.MATRIK DAN PETA TEKNOLOGI TRANSMISI DAN DISTRIBUSI 7.MATRIK DAN PETA TEKNOLOGI PENDUKUNG

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Teknologi PLN

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ROADMAP TEKNOLOGI PLNPENDAHULUANMETODOLOGIMATRIK DAN PETA TEKNOLOGI PEMBANGKITANMATRIK DAN PETA TEKNOLOGI PEMBANGKITAN THERMALMATRIK DAN PETA TEKNOLOGI PEMBANGKITAN EBTMATRIK DAN PETA TEKNOLOGI TRANSMISI DAN DISTRIBUSIMATRIK DAN PETA TEKNOLOGI PENDUKUNG

Metodologi Matrik/Peta Teknologi

impact diletakkan pada sumbu X uncertainty diposisikan pada posisi YTingkat kematangan (maturity level) teknologi:Green; teknologi masih dalam tahapan riset atau R&D.Yellow; teknologi memasuki tahapan pilot project.Blue; teknologi sudah diimplemantasikan dalam skala industri namun masih terbatas pada beberapa negara.Red; teknologi sudah terbukti beroperasi secara komersial.Grey; teknologi sudah beroperasi secara komersial dan tersebar (difusi).

Matrik Teknologi Pembangkitan EBT

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Matrik Teknologi Transmisi dan Distribusi5

Peta Teknologi Transmisi dan Distribusi6Perkembangan Teknologi Sistem Transmisi dan Gardu IndukOutlinePerkembangan Design Tower TransmisiUltra High Voltage ACHVDC dan Hybrid AC-DCFACTSHTLS ConductorPerkembangan Kabel TT termasuk Kabel LautSuper ConductorSubstation Automation SystemInsulator dan Peralatan Utama GI

General Considerations Electrical Considerations for T.L. Design:Low voltage drop Minimum power loss for high efficiency of power transmission.The line should have sufficient current carrying capacity so that the power can be transmitted without excessive voltage drop or overheating.General Considerations Electrical Considerations for T.L. Design:Low voltage drop Minimum power loss for high efficiency of power transmission.The line should have sufficient current carrying capacity so that the power can be transmitted without excessive voltage drop or overheating.800 kV HVDC

Basic Configuration of Java-Sumatera HVDC Link

200 kmKETAPANG380 kmTransmisi HVDCUnder Sea Cable HVDC, 40 km3000 MW Muara Enim AC/DC C/S3000 MW XBogor Konverter DC/AC

LahatGumawangLubuk LinggauBangkoHVDC Converter Type : 1x Bipole, 3000 MWReceiving EndOHL AC 275 kV, 120 kmOHL DC 500 kV, 490 kmOHL AC 500 kV, 200 kmMuara Enim/4x600 MW Coal P/PConceptual View of the Sumatra-Java HVDC Transmission110 kmMusi Rawas 2x600 MW Coal P/P13 40 km80 kmPeta Transmisi Sumatera Java HVDCKonsep Smart GridMotivasi dan Faktor Penunjang (EU,ASIA, USA)Teknologi dan Solusi Smart GridIntegration Of Large renewable energyMW Scale Power StorageSmart Grid TransmisiSmart Grid Distribusi Distributed Generation Perkembangan Design Tower TransmisiOutline Of TalkDRAFT OF ROAD MAP SMART GRID PLN......most still under further study, some have been implemented in a program or pilotGENERATIONTRANSMISSIONDISTRIBUTIONISOLATED SYSTEMSNow20202030Renewable Energy Integration : Large Scale and Distributed GenerationHTLS, HVDC, FACTS, PMUSubstation AutomationPre-paid Meter, AMR, AMI, AM/FM (GIS Mapping) Distribution SCADA Distribution Automation SystemDemand Side Management Smart MeterPV Plants Hybrid System Diesel PV BiomassHybrid System PV Fuel CellAdvanced USCIGCC SMRHTLS : High Temperature Low Sagging ConductorsAMI : Advance Metering Infrastructure FACTS : Flexible AC Transmission SystemAM/FM : Asset Management / Facilities ManagementPMU : Phase Monitoring UnitSMR : Small and Medium sized ReactorIGCC : Integrated Gasification Combined Cycle15

What is a smart grid?A smart grid is an electricity network that can integrate in a cost efficient manner the behaviour and actions of all users connected to it - generators, consumers and those that do both - in order to ensure economically efficient, sustainable power system with low losses and high levels of quality and security of supply and safety*

FULL LINE OF SMART GRID SOLUTIONS.....can be divided into 3 areas : Energy Efficiency, Productivity and ReliabilityApplication of smart grid technologies depend on user specific requirements, needs and circumstances.....PLN for example looks more on reliability and productivity solutions.Definition : Smart Grid is an electricity network that can integrate in a cost efficient manner the behaviour and actions of all users connected to it - generators, consumers and those that do both - in order to ensure economically efficient, sustainable power system with low losses and high levels of quality and security of supply and safety.*Sumber : *Expert Group 1 of the EU Commission Task Force for Smart Grids

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MATUR SUWUUN SMART Grid implementation is a journey and not a destination0,5 kmO/H AC

LAHAT

MMPP B

500 kV

275 kV

GUMAWANG

275 kV

275 kV

2x500 MVA500/275 kV

200 kmO/H AC

2x600 MW

X BOGOR

MMPP A

4x600 MW

384 kmO/H DC

KETAPANG

TJ PUCUT

40 kmCable DC

110 kmO/H DC

27 kmO/H AC

140 kmO/H AC

MMPP C

50 kmO/H AC

500 kV

DC +/- 500 kV

500 kV

2x600 MW