MINISTRY OF ENERGY AND MINERAL RESOURCESDIRECTORATE GENERAL OF NEW, RENEWABLE ENERGY AND ENERGY CONSERVATION

TRANSPORT TECHNOLOGY OPTION FOR SMART CAPITAL CITY :

RENEWABLE ENERGY IMPLEMENTATION

F.X. Sutijastoto

Directore General of NREEC

Jakarta, 26 February 2020

2

INTRODUCTION

RENEWABLE ENERGY DEVELOPMENT POLICY

RE DEVELOPMENT CONCEPT FOR SMART CAPITAL CITY OF INDONESIA

I.

II.

III.

OUTLINE

3

INDONESIA’S CLIMATE CHANGE COMMITMENT

Mitigation action will be conducted through:• Shift fuel subsidy budget to productive

activities (infrastructure)• 23% renewable energy of thwe total national

primary energy mix by 2025;• Waste to energy.

4

PRIMARY ENERGY SUPPLY 2025

GOV REG 79 OF 2014 NATIONAL ENERGY POLICY

Gas

Coal Oil

NRE

Indirect Utilization

Direct Utilization

1. Geothermal PP, 7,2 GW

2. Hydro PP, 17,9 GW

3. Small Hydro PP, 3 GW

4. Bioenergy PP, 5,5 GW

5. Solar PP, 6,5 GW

6. Wind PP, 1,8 GW

7. Others, 3,1 GW

Maximize renewable energy utilization; Reduce fuel-oil consumption and refined oil import

Coal

Gas

2015

Target of RE:Policy

• Maximize Renewable Energy utilization

• Minimize Oil utilization

• Optimize gas and new energy utilization

• Utilization of coal as the main national energy supply

• Utilization of Nuclear Power Plant as the last option

5

MEMR Regulation No. 39K/20/MEM/2019 on Ratification Power Supply Business Plan of PT PLN (Persero) 2019-2028

5

NoRE Power

PlantCapacity 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 Total

1 Geothermal MW 190 151 147 455 245 415 2759 45 145 55 4,607

2 Large Hydro MW 154 326 755 - 182 1484 3047 129 466 1467 8,009

3 Mini Hydro MW 140 238 479 200 168 232 27 20 20 10 1,534

4 Solar PV MWp 63 78 219 129 160 4 250 - 2 2 908

5 Wind MW - - 30 360 260 50 150 - - 5 855

6Biomass/

Mun. WasteMW 12 139 60 357 50 103 19 5 15 35 794

7 Ocean MW - - 7 - - - - - - - 7

8 BiofuelThousand

KL520 487 291 167 151 146 154 159 166 175 2,415

Total MW 560 933 1,697 1,501 1,065 2,287 6,251 199 648 1,574 16,714

GENERAL PLAN FOR ELECTRICITY SUPPLY (RUPTL) 2019-2028

6

11,5254,1

511,8845,5

1.392,4

1.745,1

3.534,3 MW

10.33511.256

12.88714.064

15.184

17.421

24.074

0

5.000

10.000

15.000

20.000

25.000

30.000

2019 2020 2021 2022 2023 2024 2025

Hydropower Geothermal Solar PV Bioenergy Wind other RE Market TOTAL

MW

*RUPTL for eksisting power plant untuil 2018, adding project list 2019-2025, with assumption the economic growth 5,5% until 2020 and 6,5% for 2025

Market Creation

RUPTL

RE STRATEGIES IN NATIONAL ENERGY MIX BY 2025

7

SMART & GREEN ENERGY IN THE NEW CAPITAL

www.esdm.go.id Direktorat jenderal ketenagalistrikan @infogatrik Info gatrik InfoGatrik

SMART

&

GREEN

ENERGY

SOLAR

PV

ENERGY

STORAGE

SYSTEM

SMART

METER

(2 WAYS)

PUBLIC

CHARGING

STATIONS

SMART

GRID

• With Assumptions:a. Population transfer : ± 1,5 Mio*)b. Per Capita Consumption : 4,000 kWh**)c. Electricity Needs : 6,000 GWhd. Losses : 10%e. Load Factor : 63%f. Power Production : 6,600 GWh

• Peak Load : 1,196 MW

• If reserve margin is 30%, the electricity supply that needs be prepared is 1,555 MW

Electricity supply needed for the New

Capital City is: 1.55 GW

*) Bappenas

**) - Estimate kWh per capita 4,000 kWh

88

New Capital Electricity Plans: 1,550 MWRE Potential Development in North and East Kalimantan

RE DEVELOPMENT AND ENERGY EFFICIENCY THROUGH SMART

CAPITAL CITY OF INDONESIA

Smart Green City Development Concept

Public

transportation

oriented

50% of the

capital city

for green

space

Renewable

energy and

low carbon

emission

99

RENEWABLE ENERGY POTENTIAL DEVELOPMENT FOR NEW

CAPITAL CITY (RUPTL 2019-2028)

No Province Type Power Plant Capacity (MW) Developer

1 North Kalimantan Large Hydropower Kaltara 1 90.00 PLN

2 North Kalimantan Large Hydropower Kayan 1 600.00 Potential

3 North Kalimantan Large Hydropower Kayan 2 500.00 Potential

4 North Kalimantan Large Hydropower Kayan 3 1,200.00 Potential

5 North Kalimantan Large Hydropower Kaltara 300.00 Potential

6 North Kalimantan Large Hydropower Mentarang 2 240.00 Potential

7 North Kalimantan Large Hydropower Sei Tubu 200.00 Potential

8 North Kalimantan Large Hydropower Sembakung 250.00 Potential

9 East Kalimantan Large Hydropower Kelai 55.00 PLN

10 East Kalimantan Large Hydropower Tabang 90.00 PLN

11 East Kalimantan Large Hydropower Boh 270.00 Potential

12 East Kalimantan Hydropower Long Bangun 20.00 Potential

13 East Kalimantan Large Hydropower Mentarang 1 300.00 Potential

14 East Kalimantan Large Hydropower Tabang 240.00 Potential

15 North Kalimantan Solar PV PLTS Tarakan (Kuota) Tersebar 3.00 IPP

16 East Kalimantan Solar PV PLTS Mahakam (Kuota ) Tersebar 0.70 IPP

17 North Kalimantan Solar PV Tarakan 3.00 Potential

18 East Kalimantan Solar PV Kaltim 0.70 Potential

TOTAL 4,362.40

10

KE TANJUNG / KALSEL

Ext 2LB Kuaro

2018

100%

Grogot

2018

100%

Longikis

2019

88,73%

Ext Petung

2017

100%RLB 7 Januari 2017

Ext

Kariangau arah New

Balikpapan

2019

84,27%

New Balikpapan

2019

75,50%

Industri

Upr Manggarsari

2017

100%

RLB 22 Nov 2017

Senipah

100%

Upr Karang Joang

2019

100 %

RLB 21 Des 2017

Samboja

2019

Upr Harapan Baru

2018

100%

RLB 23 Des 2017

Ext Palaran

2017

100%

RLB 21 Feb 2017

Sanga Sanga

2018

Tengkawang

Ext 2LB Embalut

2018

100%

Ext

Tenggarong

2017

100%

RLB 25 Mei 2017

Ext 2LB

Kota Bangun

2018

100%

Melak

2018

100%

KE BANGKANAI /

KALTENG New

Samarinda

2019

83,60%

Ext 2LB Sambera

2018

100%RLB 9 April 2018

ExtSambutan

100%

Ext Bontang

2017

100%

GISangatta

2017

100%RLB 29 Desember 2017

Sepaso

2019

Maloy

2019

Muara Wahau 2019

60,56%

GI Tanjung Redep

2018

100%

Tanjung Selor

2018

100%

Tidang Pale

2018

100%

Malinau

2018

100%

TalisayanTalisayan

2020

Komam

2019

90,01%

T/L (Konstruksi)

Keterangan :Pembangkit OG

GI

T/L(energize)

GI Rencana

SUTT (Rencana)

GI On Progress

MAHAKAM

SYSTEM

PLTMG/MPP Kaltim

Bontang

IPP Kaltim MT PLTU Tanjung

Selor

57,44%

PLTU Kaltim -

Teluk Balikpapan

PLTU Malinau

(2x3 MW)

72,43%

PLTMG

Tj Selor

83,95%

IPP PLTU Kaltim 4

PLTU Berau

89,66%

Sekatak

2020Juwata

2020 Tarakan

2020

Sepaku

2020

Tanjung Batu/

Derawan

2024

Simangaris

Sebuku

2020Nunukan

2020

Status perijinan :

Survey

Rencana

2018

2019

2017

2019 2017

38/50

2019

100%/46/46/46/46/462019

2024

2019

2019 2019 2019

2019

2019

2020

2020

2020

2020

45,98%/187/105/27/0/2332019

132/3142020 2020

20202020

90,01%/140/138/131/71/140

100%RLB Line 1 : 25 September 2017

RLB Line 2 : 17 November 2017

100%/147/147/147/147/147

93,07%/160/160/160/137/160

100%RLB 21 Desember 2017

PLTMG

Nunukan 2

(10 MW)

34,62%

53/479

Status konstruksi :

(progress)/(tanah bebas)/(pondasi)/(erection)/(stringing)/(jumlah

tower)

Status tanah :

(tanah bebas)/(jumlah tapak tower)

Ijin

PrinsipSKTR Ijin

Lingk

IPPKH

On Going

Selesai

Tidak perlu

0/248

79/368

2020

2019

20202019

Kembang Janggut

2019

GIS Balikpapan

2020

2020

2020

GIS Samarinda

2020

2020

2021

2020

3/3

2019

PLTU

Kaltim 5 (IPP)

IPP PLTU Kaltim FTP 2

IPP PLTGU

Senipah

Kalimantan Utara

29,70%/100/62/0/0/1002019

36,75%/46/40/0/0/6817,65%/27/15/0/0/42

SINGLE LINE DIAGRAM TRANSMISSION SYSTEM FOR EAST KALIMANTAN

1117

MICRO GRID

PASSIVE DESIGN

1

2

Community based Micro Grid with Distributed energy resource

• Micro grid centered by escaped house and public facilities -- Evacuationcenters

• Distributed energy resource introduction as land mark – Energy supply during disaster

Hydro Power for main supply, Roof PV for public facilities /Mega solar /Bladeless wind energy system

• Environmental load reduction within community base

Waste management /water management

Passive design-prioritized building conservation guideline• Green Public buildings

Passive design/Facility with high efficiency equipment/Energy management

• Residential

Passive design/Eco Lifestyle

SMART AND GREEN ENERGY CITY CONCEPT

12

Hydropower development as the

main energy source

Natural / rural area:

Integrated with natural landscapes:

• Forest

• PUPR Dam Reservoir

A P E C L C M T : B a n d a A c e h – F i n a l W o r k s h o p 1 2 0 1 9

NO PROVINCE POWER PLANTCAPACITY

(MW) DEVELOPER COD

1 North Kalimantan Kaltara 1 90 PLN 2025

2 East Kalimantan Kelai 55 PLN 2025

3 East Kalimantan Tabang 90 PLN 2025

4 North Kalimantan Kayan 1 600 Potential

5 North Kalimantan Kayan 2 500 Potential

6 North Kalimantan Kayan 3 1,200 Potential

7 North Kalimantan Kaltara 300 Potential

8 North Kalimantan Mentarang 2 240 Potential

9 North Kalimantan Sei Tubu 200 Potential

10 North Kalimantan Sembakung 250 Potential

11 East Kalimantan Boh 270 Potential

12 East Kalimantan Long Bangun 20 Potential

13 East Kalimantan Mentarang 1 300 Potential

14 East Kalimantan Tabang 240 Potential

TOTAL 4,355

Potential:1. East Kalimantan : 975 MW2. North Kalimantan : 3.380 MW

HYDROPOWER DEVELOPMENT FOR SMART CAPITAL CITY

OF INDONESIA

Hydropower Potential

13

Solar PV Potential Development is

integrated according to

environmental characteristics and

topology

Natural / rural area

Integrated with natural landscapes:

• Forest

• Open Space

• Ex-mining land, dsb

Urban area

• PV Rooftop

• Solar PV for public street lighting

• Public Facilities

A P E C L C M T : B a n d a A c e h – F i n a l W o r k s h o p 1 2 0 1 9

SOLAR PV DEVELOPMENT FOR SMART CAPITAL CITY OF

INDONESIA

NO PROVINCE POWER PLANTCAPACITY

(MW) DEVELOPER

1North Kalimantan

PLTS Tarakan (Kuota) Tersebar

3 IPP

2East Kalimantan

PLTS Mahakam (Kuota ) Tersebar

0.7 IPP

3North Kalimantan

Tarakan 3 Potential

4East Kalimantan

Kaltim 0.7 Potential

TOTAL 7.4

Solar PV Potential (RUPTL 2019-2028):1. East Kalimantan : 1.4 MW2. North Kalimantan : 6 MW

14

Integration of the use of mass public

transportation with functions and spatial

patterns to create efficient urban movements.

INTELLIGENT TRANSPORTATION

SYSTEM

Encourage the use of public

transportation for daily

Electricity based transportation

o LRT, MRT, commuter

o Electric tram

o Electric bus

TRANSPORTATION CONCEPT FOR SMART CAPITAL CITY OF

INDONESIA

Electrical TramElectric Bus

MRT, LRT

Solar PV for street lighting and

traffic light

15A P E C L C M T : B a n d a A c e h – F i n a l W o r k s h o p 1 2 0 1 9

Transit Oriented Development (pedestrian-friendly network) in public transportation area

TRANSPORTATION CONCEPT FOR SMART CAPITAL CITY

OF INDONESIA

Solar PV Charging station forelectric vehicles

Electric car and electric motorcycle for private vehicle

16

Thank You