departamento de la paz - jicaopen_jicareport.jica.go.jp/pdf/11677697_06.pdfnote : topographic slopes...
TRANSCRIPT
Note : Topographic slopes are decided based on the LANDSAT image.
Source : "Mapa Orografico de Bolivia", Mapa Base, Con Mosaico de Imagenes
LANDSAT, Atlas Geografico de la Republica Bolivia, I.G.M.
Low
(Flat area)
Moderate
(Mountain area)
Steep
(Mountain area)
L E G E N D
Potential Head
(Topographic Slope)
SAAVEDRA
CA
MA
CH
O
MU
ÑECA
S
LARECAJA
CA
RA
NA
VI
MU
RILLO
SUD
YU
NG
AS
NOR YUNGAS
MANCO KAPAC
LO
S A
ND
ES
INGAVI
M. P
ANDO
P A C A J E S
G. VILLARROEL
A R O M A
L O A Y Z A
I N
Q U
I S
I V
I
OMASUYOS
F R A N Z T A M A Y O
I T
U R
R A
L D
E
400
500
600
700
800
800
700
800
800
700
1000
1500
1600
1700
1800
1900
2000
2000
1900
1800
1800
1900
2000
2100
400500
600
700
1000
1500
2200
2300
2200
2100
2300
Source : "Precipitaciones Anuales Periodo 1961 - 1990",
Servicio Nacional de Meteorologia e Hidrogia,
Atlas Geografico de la Republica Bolivia, I.G.M.
N
0 10020 40 60 80
Km.
DEPARTAMENTO DE LA PAZ
TH
E S
TU
DY
ON
RU
RA
L E
LE
CT
RIF
IC
AT
IO
N
IM
PL
EM
EN
TA
TIO
N P
LA
N B
Y R
EN
EW
AB
LE
EN
ER
GY
IN
TH
E R
EP
UB
LIC
OF
BO
LIV
IA
JA
PA
N I
NT
ER
NA
TIO
NA
L C
OO
PE
RA
TIO
N A
GE
NC
Y
Note : Topographic slopes are decided based on the LANDSAT image.Source : "Mapa Orografico de Bolivia", Mapa Base, Con Mosaico de Imagenes LANDSAT, Atlas Geografico de la Republica Bolivia, I.G.M.
Low
(Flat area)
Moderate
(Mountain area)
Steep
(Mountain area)
L E G E N D
Potential Head(Topographic Slope)
200
200
300
400
300
400
500
500
500
500
500
Source : "Precipitaciones Anuales Periodo 1961 - 1990", Servicio Nacional de Meteorologia e Hidrogia, Atlas Geografico de la Republica Bolivia, I.G.M.
PAPEL PAMPA
L A D
I S L
A O
C A
B R
E R
A
A T
A H
U A
L L
A P
A
ME
JIL
LO
NE
S
A V A R O A
A V A R O A
S. P A G A D O R
S U D
C A R A N G A S
L I T
O R
A L
S A J A M A
C A R AN G A S
P O O P O
DALENCESAUCARI
C E R C A D O
NOR
CARANGAS
SAN
PEDRO
DE
TOTORA
T.
BA
RR
ON
N
0 20 40 60 80 100 Km.
DEPARTAMENTO DE
ORURO
THE STUDY ON RURAL ELECTRIFICATION
IMPLEMENTATION PLAN BY RENEWABLE ENERGY
IN THE REPUBLIC OF BOLIVIA
JAPAN INTERNATIONAL COOPERATION AGENCY
Low
Moderate
High
L E G E N D
Hydropower Potential
Source : JICA Study Team
SAAVEDRA
CA
MA
CH
O
MU
ÑECA
S
LARECAJA
CA
RA
NA
VI
MU
RILLO
SUD
YU
NG
AS
NOR YUNGAS
MANCO KAPAC
LOS
AN
DES
INGAVI
M. P
ANDO
P A C A J E S
G. VILLARROEL
A R O M A
L O A Y Z A
I N
Q U
I S
I V
I
OMASUYOS
F R A N Z T A M A Y O
I T
U R
R A
L D
E
RIO
MA
DRED
ED
IOS
Rio
Toro
man
as
Rio
Heath
RioM
adid
iRio
Hea
th
Rio
Asu
nta
Rio
Man
urim
iR
io
M
anup
are
Rio Huip
a
RioMadidi
RIO
BE
NIRio Emero
Rio
Undu mo
Rio Matusasay
RioEnapurera
Arroyo Mamuque
Rio TuichiRio Eslabon
RioA
lto
Ben
i
Rio
Tuichi
Rio Puina
Rio QuendequeRio Q
uiquibey
Rio
Kaka
Rio
Aten
Rio Consata
Rio Tipuani
Rio Suches
Rio
Coroica
Rio C halla
na
Rio Zongo
Rio
Boop Rio
Alto Beni
RioLa Paz
RIO DESAGUA DERORio Mauri
LAGO TITICACA
ALTURAM. 3810
M.
N
0 10020 40 60 80
Km.
DEPARTAMENTO DE LA PAZ
TH
E S
TU
DY
ON
RU
RA
L E
LE
CT
RIF
IC
AT
IO
N
IM
PL
EM
EN
TA
TIO
N P
LA
N B
Y R
EN
EW
AB
LE
EN
ER
GY
IN
TH
E R
EP
UB
LIC
OF
BO
LIV
IA
JA
PA
N I
NT
ER
NA
TIO
NA
L C
OO
PE
RA
TIO
N A
GE
NC
Y
Low
Moderate
High
L E G E N D
Hydropower Potential
Source : JICA Study Team
Rio Tomarapi
Rio Cayruta R
ioP
ichac
a
Rio Toraquiri
Rio Senkha
Rio
Toke
pap
i
RioSullom
a
Rio
Pumiri
Rio
Turco
Rio
Jaruma
Rio
C
osapa
Rio Huoycho Uma
Rio Lauca
Rio
Challh
uiri
Rio VentillaRio
Sajam
a
Salitre
Salitre
Rio Tod osSa
nto
s
Rio
Sabaya
SALAR DE COIPASA
Laguna
Coipasa
3657 A.M
3653 A.M
Rio Aroma
Rio
Khotkhot
RIO LACA JAHUIR
Rio
Khay
ma
Rio
Chicap
a
Rio
Cortadera
RioAguas Calientes
Rio
Cru
cer
Rio
Ventita
LAGO POOPO
LAGO
URU URU
3686 A.MSujeto a inundación
Salitre
Rio
Kam
pa
Rio
Par
ina
Pat
a
Qda Khara Khara
Rio
Bar
ras
Qd
o.L
inde
Jahu
ira
Rio
Kol
lpa
Jahuir
a
Rio
Barras
Rio
Caq
uiza
Rio
Corq
ue
RI
O
DESA
GU
AD
ER
O
LagunaIntermitente
Sujeto a inundación
Rio
Khatasaya
Rio
Caraco
llo
Rio
Grande
PAPEL PAMPA
L A D I S
L A O C
A B R
E R A
A T A
H U
A L L A
P AME
JIL
LO
NE
S
A V A R O A
A V A R O A
S. P A G A D O R
S U D
C A R A N G A S
L I T O R A L
S A J A M A
C A R AN G A S
P O O P O
DALENCESAUCARI
C E R C A D ONOR
CARANGAS
SAN
PEDRO
DE
TOTORA
T.
BA
RR
ON
N
0 20 40 60 80 100 Km.
DEPARTAMENTO DE
ORURO
THE STUDY ON RURAL ELECTRIFICATION
IMPLEMENTATION PLAN BY RENEWABLE ENERGY
IN THE REPUBLIC OF BOLIVIA
JAPAN INTERNATIONAL COOPERATION AGENCY
SAAVEDRA
CA
MA
CH
O
MU
ÑECA
S
LARECAJA
CA
RA
NA
VI
MU
RILLO
SUD
YU
NG
AS
NOR YUNGAS
MANCO KAPAC
LOS
AN
DES
INGAVI
M. P
ANDO
P A C A J E S
G. VILLARROEL
A R O M A
L O A Y Z A
I N
Q U
I S
I V
I
OMASUYOS
F R A N Z T A M A Y O
I T
U R
R A
L D
E
RIO
MA
DRED
ED
IOS
Rio
Toro
man
as
Rio
Heath
RioM
adid
iRio
Hea
th
Rio
Asu
nta
Rio
Man
urim
iR
io
M
anup
are
Rio Huip
a
RioMadidi
RIO
BE
NIRio Emero
Rio
Undu mo
Rio Matusasay
RioEnapurera
Arroyo Mamuque
Rio TuichiRio Eslabon
RioA
lto
Ben
i
Rio
Tuichi
Rio Puina
Rio QuendequeRio Q
uiquibey
Rio
Kaka
Rio
Aten
Rio Consata
Rio Tipuani
Rio Suches
Rio
Coroica
Rio C halla
na
Rio Zongo
Rio
Boop Rio
Alto Beni
RioLa Paz
RIO DESAGUA DERORio Mauri
LAGO TITICACA
ALTURAM. 3810
M.
9. COLOPAMPA-SANTA ROSA9. COLOPAMPA-SANTA ROSA
12. CALISAYA12. CALISAYA
13. CHARIA13. CHARIA
14. PICHARI14. PICHARI
20. CENTRO TOKARONI20. CENTRO TOKARONI
26. VILLA EL CARMEN26. VILLA EL CARMEN
34. CURVA-CANLAYA.34. CURVA-CANLAYA.
36. SUCHES36. SUCHES
38. APOLO (RIO MACHARIAPU38. APOLO (RIO MACHARIAPU
42. 25 DE MAYO42. 25 DE MAYO
43. SAN MIGUEL43. SAN MIGUEL
44. SAN JOSE DE CHUPIAMONAS44. SAN JOSE DE CHUPIAMONAS
10. YANAMAYU10. YANAMAYU11. PALMAR11. PALMAR
1. PADILLA-THIYUMAYO1. PADILLA-THIYUMAYO2. HUARINILLAS-COROICO (REHAB.)2. HUARINILLAS-COROICO (REHAB.)
3. CHAIRO3. CHAIRO
4. MOCORI4. MOCORI
8. VILLA BARRIENTOS8. VILLA BARRIENTOS
19. INICUA DELICIAS19. INICUA DELICIAS
21. CALAMA21. CALAMA
22. ORO VERDE22. ORO VERDE
23. INCAHUARA23. INCAHUARA
24. NUEVA ESPERANZA24. NUEVA ESPERANZA
25. ILLIMANI25. ILLIMANI
29. POROMA29. POROMA
32. POCOMAYO32. POCOMAYO
35. ULLA ULLA35. ULLA ULLA
40. COTOSI-QUE40. COTOSI-QUEÑI
41. LLALLAGUA41. LLALLAGUA
Micro-Hidro-Power Station (Planning)Micro-Hidro-Power Station (Planning)
L E G E N D
Source : JICA Study Team (Jun, 2001)
N
0 10020 40 60 80
Km.
DEPARTAMENTO DE LA PAZ
TH
E S
TU
DY
ON
RU
RA
L E
LE
CT
RIF
ICA
TIO
N
IMP
LE
ME
NT
AT
ION
PL
AN
BY
RE
NE
WA
BL
E E
NE
RG
YIN
TH
E R
EP
UB
LIC
OF
BO
LIV
IA
JAP
AN
INT
ER
NA
TIO
NA
L C
OO
PE
RA
TIO
N A
GE
NC
Y
Rio Tomarapi
Rio Cayruta R
ioP
ichac
a
Rio Toraquiri
Rio Senkha
Rio
Toke
pap
i
RioSullom
a
Rio
Pumiri
Rio
Turco
Rio
Jaruma
Rio
C
osapa
Rio Huoycho Uma
Rio Lauca
Rio
Challh
uiri
Rio VentillaRio
Sajam
a
Salitre
Salitre
Rio Tod osSa
nto
s
Rio
Sabaya
SALAR DE COIPASA
Laguna
Coipasa
3657 A.M
3653 A.M
Rio Aroma
Rio
Khotkhot
RIO LACA JAHUIR
Rio
Khay
ma
Rio
Chicap
a
Rio
Cortadera
RioAguas Calientes
Rio
Cru
cer
Rio
Ventita
LAGO POOPO
LAGO
URU URU
3686 A.MSujeto a inundación
Salitre
Rio
Kam
pa
Rio
Par
ina
Pat
a
Qda Khara Khara
Rio
Bar
ras
Qd
o.L
inde
Jahu
ira
Rio
Kol
lpa
Jahuir
a
Rio
Barras
Rio
Caq
uiza
Rio
Corq
ue
RI
O
DESA
GU
AD
ER
O
LagunaIntermitente
Sujeto a inundación
Rio
Khatasaya
Rio
Caraco
llo
Rio
Grande
PAPEL PAMPA
L A D I S
L A O C
A B R
E R A
A T A
H U
A L L A
P AME
JIL
LO
NE
S
A V A R O A
A V A R O A
S. P A G A D O R
S U D
C A R A N G A S
L I T O R A L
S A J A M A
C A R AN G A S
P O O P O
DALENCESAUCARI
C E R C A D ONOR
CARANGAS
SAN
PEDRO
DE
TOTORA
T.
BA
RR
ON
2. SAJAMA (RIO JACHCHA-HUANCOLLO)
3. TAMBO QUEMADO
8. JURO-VILUYO (RIO PACOKHAUA)
Micro-Hidro-Power Station (Planning)Micro-Hidro-Power Station (Planning)
L E G E N D
N
0 20 40 60 80 100 Km.
DEPARTAMENTO DE
ORURO
THE STUDY ON RURAL ELECTRIFICATION
IMPLEMENTATION PLAN BY RENEWABLE ENERGY
IN THE REPUBLIC OF BOLIVIA
JAPAN INTERNATIONAL COOPERATION AGENCY
LEGEND
C Carboniferous [Carbonifero] (3.5 ~ 2.7 hundreds million years ago)
a) Gritty, limelight with thin diamictitas intercalations. (Altiplano and Oriental Mountain range)
[Areniscas, limolitas con delgadas intercalaciones de diamictitas. (Altiplano y Cordillera Oriental)]
b) Diamictitas, limelight, gritty, gritty conglome resides and diamictitas with intercalations of gritty and conglomerates in the superior part. (Subandino North)
[Diamictitas, limolitas, areniscas, areniscas conglome rádicas y diamictitas con intercalaciones de areniscas y conglomerados en la parte superior. (Subandino Norte)]
D Devonian [Devonico] (4.0 ~ 3.5 hundreds million years ago)
Shale, gritty and limelight [Lutitas, areniscas y límolítas]
Source: Centro de Investigacion y Aplicacion de Sensores Remitos Ciaser - Geobol", Estudio Integrado de Los Recursos Naturales del Departamento de La Paz, Geologia, Interpretado y Compilado por: Ing. Raul Ballon Ayllon, Apolo, (1985)
O Ordovician [Ordovicico] (4.9 ~ 4.3 hundreds million years ago) Shale, gritty and limelight [Lutitas, areniscas y límolítas]
図 5.1 アポロ周辺地質図
Proposed MHP SiteRío Macariapu
図 5.2 トゥリアプ川水位観測所およびアポロ・マチャリプ川小水力発電計画取水
地点集水区域図
Rio Turiapu WL Station (JICA Study Team) C.A. [km2] = 274 km2
Proposed MHP Site in The Rio Machariapu C.A. [km2] = 371 km2
APOLO
Apolo Airport (AASANA)
図 5.3 電化対象村落・ブロック位置図
Socio-economic Survey
Future Condition Population,Household Estimation
Demand Estimation(several cases)
AlternativePlans Formulation
Apolo: 7 casesT.Quemado: 4 cases
(1) MHP only(2) MHP + Diesel
Structure Design of MHP(for each cases)
Calc. Generation Power [kW]Cost Estimation [US$]
of MHP
O&MCost
Calc. Energy Generation [kWh]
Demand (Used) Hours [hour]
Benefit Estimation bythe Least Cost Alternative
Cost Estimationof Other Energy Source
Construction &Facilities Cost
O&MCost
Economic Evaluation
Selection of OptimumDevelopment Scale (MHP)
Field Survey (Topographi, Hydrology,Meteorology, Geology, Environmental, Socio-
economic, Demand Survey, etc.)
Data Collection(Meteo-Hydrologica, Geological, Exist. MHP
project, Cost, Environmental, etc.)
Site Slection
Planning
Runnoff Calc.Flow Duration Curve
HydrologicalAnalysis
Construction &Facilities Cost
Layout Design of MHP
Pre - F / S
% of day
Q [m3/s]
50%
Flow Duration Curve
90%
DemandCase-1
Case-2
100%
図 5.4 小水力発電計画における最適規模検討フロー
Estimated Demand for Apolo MHP (2005)[Case-7, Peak=700kW]
Midnight Day time Evening Midnight Daily Monthly Annual1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Total Total Total
0:00 1:00 2:00 3:00 4:00 5:00 6:00 7:00 8:00 9:00 10:00 #### 12:00 13:00 14:00 15:00 16:00 17:00 18:00 19:00 20:00 21:00 22:00 23:00 Energy Energy Energy~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Demand Demand Demand
1:00 2:00 3:00 4:00 5:00 6:00 7:00 8:00 9:00 10:00 11:00 #### 13:00 14:00 15:00 16:00 17:00 18:00 19:00 20:00 21:00 22:00 23:00 0:00 (kWh/D) (kWh/M) (kWh/Y)1) Domestic 0 0 0 0 0 0 30 30 30 30 30 30 30 30 30 30 30 30 175 350 350 350 175 0 1,760 52,800 642,4002) Business 3 3 3 3 3 3 7 7 7 7 7 7 7 7 7 7 7 7 73 73 73 73 3 3 400 12,000 146,0003) Industry 0 0 0 0 0 0 77 153 230 230 230 230 153 153 230 230 230 193 157 120 120 120 60 0 2,917 87,500 1,064,5834) Public 110 110 110 110 110 110 23 47 70 70 70 70 47 47 70 70 70 63 167 160 160 160 135 110 2,268 68,050 827,942
(Public Facilities) 0 0 0 0 0 0 23 47 70 70 70 70 47 47 70 70 70 63 57 50 50 50 25 0 948 28,450 346,142(Public Illumination) 110 110 110 110 110 110 0 0 0 0 0 0 0 0 0 0 0 0 110 110 110 110 110 110 1,320 39,600 481,800Total 113 113 113 113 113 113 137 237 337 337 337 337 237 237 337 337 337 294 571 703 703 703 373 113 7,345 220,350 2,680,925
Daily Demand Load Curve at Apolo (Domestic Demand)
0
100
200
300
400
500
600
700
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Hour
Pow
er D
eman
d [k
W]
Daily Demand Load Curve at Apolo (Total)
0
100
200
300
400
500
600
700
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Hour
Pow
er D
eman
d [k
W]
Daily Demand Load Curve at Apolo (Business Demand)
0
100
200
300
400
500
600
700
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Hour
Pow
er D
eman
d [k
W]
Daily Demand Load Curve at Apolo (Industrial Demand)
0
100
200
300
400
500
600
700
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Hour
Pow
er D
eman
d [k
W]
Daily Demand Load Curve at Apolo (Public Facilities)
0
100
200
300
400
500
600
700
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Hour
Pow
er D
eman
d [k
W]
Daily Demand Load Curve at Apolo (Public Illumination Demand)
0
100
200
300
400
500
600
700
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Hour
Pow
er D
eman
d [k
W]
(Case-7, Peak Demand = 700kW)
図 5.5 推定日負荷曲線(アポロ小水力発電計画)
図 5.6 アポロ小水力発電所計画施設配置図
(1/3) (Río Machariapu)
図 5.6 アポロ小水力発電所計画施設配置図
(2/3)(Río Machariapu)
図 5.6 アポロ小水力発電所計画施設配置図
(3/3)(Río Machariapu)
Year 1st year 2nd year 3rd year 4th year
Work Item Month 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12
Season Rainy Season Dry Season Rainy Season Dry Season Rainy Season Dry Season Rainy Dry Season Rainy
Tot.mon. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
1. Design
1.1 Review of Pre F/S 1.0
1.2 Survey Investigation 1.5
1.3 Basic Design 2.0
1.4 Detailed Design 3.0
1.5 Preparation of Tender Document 2.0
2. Stage-1 Construction
2.1 Tendering 1.0
2.2 Evaluation of Tender 0.5
2.3 Contracting 0.5
2.4 Construction Work 24.0
1) Preparation Works 3.0
2) Access Road 9.0
3) Intake 5.0
4) Headrace Tunnel 6.0
5) Head Tank & Spilway 5.0
6) Penstock 2.0
7) Power House 2.0
8) Tailrace 0.5
9) Installation of Turbine & Generator 1.0
10) Transmission Line 18.0
11) Distribution Line 13.0
12) Other 2.0
2.5 Test and Commissioning 2.0
2.6 Completing
3. Stage-2 Construction
3.1 Tendering 1.0
3.2 Evaluation of Tender 0.5
3.3 Contracting 0.5
3.4 Construction Work 12.0
1) Preparation Works 1.0
2) Installation of Turbine & Generator 1.0
3) Transmission Line 9.0
4) Distribution Line 10.0
5) Other 2.0
3.5 Test and Commissioning 1.0
3.6 Completing
4. Environmental Study
4.1 EIA 10.0
4.2 Environmentral MoniteringJICA Study Team Note: Construction Stage-1 : Preparation works, Construction of Access road, Intake weir, Intake, Headrace Tunnel, Headtank, Penstock, Spillway, Powerhouse, Tailrace, Maintenance Survice Road, etc.
Installation of Turbine & Generator (350kW x 1 set), Electric facilities, Transmission & Distribusion Line (Site ==> Block "A"(Apolo town) and Block "B")Construction Stage-2 Installation of additional Tubine & Generator (350kW x 1 set), Transmission & Distribusion Line (Block "C", "D", "E", "F"& "G")
図図図図 5.7 アポロ小水力発電計画実施スケジュールアポロ小水力発電計画実施スケジュールアポロ小水力発電計画実施スケジュールアポロ小水力発電計画実施スケジュール
1
2
3
2
1
30
1
12
2
1
10
to be continue
1
図 5.8 アポロ小水力発電計画プロジェクト実施組織(案)
⑥Guidance for rural electrification development
⑤Application for finance ⑦Evaluation and approval of the project plan
④Preparation of a project plan
③Technical support⑧Commission of project management
1) organization of REC2) bidding
②Application of a rural 3) contractelectrification project 4) supervision
⑨Construction / Supervision
⑩Installation ⑪Training of Operation and Maintenancefor Cooperative / REC
Provision of labor forces Participation of training
①Organizing Cooperative or Rural Electrification Committee (REC)under a guidance of municipality and/or consultants/NGO
Source: JICA Study Team
DUF
ApoloMunicipality
VMEH
Consultants / NGO
Cooperative / REC (Users or Beneficiaries)
Prefecture
Consultants / NGO
Consultants / NGO
Contractor