absolar’s infographic€¦ · 112 12 11 8 2 1 0,00 2,00 40,00 60,00 8,00 10,00 120,00 leil e 21...
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Até 2012 2013 2014 2015 2016 2017 2018 2019 01/2020
Potê
ncia
Inst
alad
a (M
W)
Geração Centralizada Geração Distribuída
Evolution of the Solar Photovoltaic Energy in Brazil
Centralized Generation
2,928.0 MW
Distributed Generation
Source: ANEEL/ABSOLAR, 2020.Source: ANEEL/ABSOLAR, 2020.
Installed Capacity (MW) (%)
State Ranking
Municipality Ranking Source: ANEEL/ABSOLAR, 2020.
Brazilian Electricity
Matrix:
Source: ANEEL/ABSOLAR, 2020
Wave Power 0.05 MW
0.00003%
Nuclear1,990 MW
1.1%
Imports 8,170 MW
4.5%
Biomass 15,116 MW
8.4%
Wind Power15,638 MW
8.7%
Mineral Coal 3,597 MW
2.0%
Natural Gas 14,947 MW
8.3%
Oil and Other Fossil9,251 MW
5.1%
What is the Solar PV Installed Capacity in Brazil?
Distributed Generation
2,836.0 MWTotal Operational Capacity
5,764.0 MW+ =
Hydropower 109,107 MW
60.4%
Installed Capacity (MW) (%)
Centralized Solar PV
2,928 MW1.6%
589(24%)
Centralized Generation (Fraction in %) Distributed Generation (Fraction in %) Total (CG + DG)
INST
ALL
ED
CA
PAC
ITY
(MW
)
Until 2012 2013 2014 2015 2016 2017 2018 2019 05/2020
Between 2012 and 2019, the
Brazilian PV sector created over 130
thousand jobs.
Solar Photovoltaic Energy in Brazil
ABSOLAR’s InfographicUpdated on June 2nd, 2020 | n. 20
4th
5th
6th
7th
8th
9th
10th
11th
12th
13th
14th
15th
16th
17th
18th
19th
20th
21st
22 23rd
24th
25th
26th
27th
nd
1,5
3,5
4,6
6,0
10,5
13,6
17,2
24,0
25,5
33,8
34,0
44,5
48,3
51,7
51,7
52,6
66,6
87,8
88,4
108,7
122,9
141,2
148,4
259,2
318,9
360,9
512,3
0,06%
0,1%
0,2%
0,2%
0,4%
0,5%
0,7%
0,9%
1,0%
1,3%
1,3%
1,7%
1,8%
2,0%
2,0%
2,0%
2,5%
3,3%
3,4%
4,1%
4,7%
5,4%
5,6%
9,8%
12,1%
13,7%
19,4%
Roraima | 27º
Acre | 26º
Amapá | 25º
Rondônia | 24º
Amazonas | 23º
Sergipe | 22º
Alagoas | 21º
Distrito Federal | 20º
Tocantins | 19º
Maranhão | 18º
Pará | 17º
Piauí | 16º
Paraíba | 15º
Pernambuco | 14º
Espírito Santo | 13º
Rio Grande do Norte | 12º
Bahia | 11º
Mato Grosso do Sul | 10º
Ceará | 9º
Rio de Janeiro | 8º
Goiás | 7º
Santa Catarina | 6º
Mato Grosso | 5º
Paraná | 4º
São Paulo | 3º
Rio Grande do Sul | 2º
Minas Gerais | 1º5,764
2,836
2,9282,474
1,817
965
191(17%)
2,054
(49%)
(51%)(55%)
(76%)
(83%)
(45%)
4,527
2,406
1,157
91402097
5000
6000
4000
3000
2000
1000
0
14,4
17,5
19,8
22,1
22,6
24,0
25,7
26,4
27,9
32,6
0,5%
0,7%
0,8%
0,8%
0,9%
0,9%
1,0%
1,0%
1,1%
1,2%
Maringá – PR | 10º Campo Grande – MS | 9º Belo Horizonte – MG | 8º
Goiânia – GO | 7º Teresina – PI | 6º Brasília – DF | 5º Cuiabá - MT | 4º
Fortaleza – CE | 3º Uberlândia – MG | 2º
Rio de Janeiro - RJ | 1º
4th
5th
6th
7th
8th
9th
10th
1,8
3,6
4,6
6,5
11,6
13,9
18,5
24,0
25,5
33,8
35,5
45,8
51,6
52,7
56,9
58,3
85,4
89,3
95,0
119,0
139,6
142,8
148,9
266,5
356,8
385,0
562,5
0,06%
0,1%
0,2%
0,2%
0,4%
0,5%
0,7%
0,8%
0,9%
1,2%
1,3%
1,6%
1,8%
1,9%
2,0%
2,1%
3,0%
3,1%
3,3%
4,2%
4,9%
5,0%
5,3%
9,4%
12,6%
13,6%
19,8%
Roraima | 27º
Acre | 26º
Amapá | 25º
Rondônia | 24º
Amazonas | 23º
Sergipe | 22º
Alagoas | 21º
Distrito Federal | 20º
Tocantins | 19º
Maranhão | 18º
Pará | 17º
Piauí | 16º
Paraíba | 15º
Pernambuco | 14º
Rio Grande do Norte | 13º
Espírito Santo | 12º
Bahia | 11º
Mato Grosso do Sul | 10º
Ceará | 9º
Rio de Janeiro | 8º
Goiás | 7º
Santa Catarina | 6º
Mato Grosso | 5º
Paraná | 4º
São Paulo | 3º
Rio Grande do Sul | 2º
Minas Gerais | 1º
1.8
3.6
4.6
6.5
11.6
13.9
18.5
24.0
25.5
33.8
35.5
45.8
51.6
52.7
56.9
58.3
85.4
89.3
95.0
119.0
139.6
142.8
148.9
266.5
356.8
385.0
562.5
0.06%
0.1%
0.2%
0.2%
0.4%
0.5%
0.7%
0.8%
0.9%
1.2%
1.3%
1.6%
1.8%
1.9%
2.0%
2.1%
3.0%
3.1%
3.3%
4.2%
4.9%
5.0%
5.3%
9.4%
12.6%
13.6%
19.8%
Roraima | 27º Acre | 26º
Amapá | 25º Rondônia | 24º
Amazonas | 23º Sergipe | 22º Alagoas | 21º
Distrito Federal | 20º Tocantins | 19º
Maranhão | 18º Pará | 17º Piauí | 16º
Paraíba | 15º Pernambuco | 14º
Rio Grande do Norte | 13º Espírito Santo | 12º
Bahia | 11º Mato Grosso do Sul | 10º
Ceará | 9º Rio de Janeiro | 8º
Goiás | 7º Santa Catarina | 6º
Mato Grosso | 5º Paraná | 4º
São Paulo | 3º Rio Grande do Sul | 2º
Minas Gerais | 1º
14.9
18.0
21.5
23.6
24.0
24.6
25.7
28.4
28.8
35.3
0.5%
0.6%
0.8%
0.8%
0.8%
0.9%
0.9%
1.0%
1.0%
1.2%
Maringá – PR | 10º Campo Grande – MS | 9º Belo Horizonte – MG | 8º
Teresina – PI | 7º Brasília – DF | 6º
Goiânia – GO | 5º Cuiabá - MT | 4º
Fortaleza – CE | 3º Uberlândia – MG | 2º
Rio de Janeiro - RJ | 1º
14.9
18.0
21.5
23.6
24.0
24.6
25.7
28.4
28.8
35.3
0.5%
0.6%
0.8%
0.8%
0.8%
0.9%
0.9%
1.0%
1.0%
1.2%
Maringá – PR | 10º Campo Grande – MS | 9º Belo Horizonte – MG | 8º
Teresina – PI | 7º Brasília – DF | 6º
Goiânia – GO | 5º Cuiabá - MT | 4º
Fortaleza – CE | 3º Uberlândia – MG | 2º
Rio de Janeiro - RJ | 1º
*The total capacity of the matrix does not include imports.
172,574 MW*
1121211
821
0,00
20,00
40,00
60,00
80,00
100,00
120,00
Leilão PE2013
LER2014
1º LER2015
2º LER 2015
LEN A-42017
LEN A-42018
LEN-A-4 2019
LEN-A-6 2019
Título do Gráfico
Centralized Generation Price Development of Solar PV Energy in the Energy Auctions of the Regulated Electricity Market Source: CCEE/ABSOLAR, 2019.
Source: ANEEL/ABSOLAR, 2020.
Electricity Generation Records
Distributed Generation
93.9%is the share of solar PV
installed capacity in micro and minigeneration,
leading by far the distributed generation
market.
Distributed microgeneration (up to 75 kW) and minigeneration (above 75 kW up to 5 MW) solar PV systems installed at homes, commercial buildings, industries, rural properties and public buildings.
DAILY AVERAGE Dec. 16th, 2019
703.1 MW
averagewith a capacity
factor of
32.0%
DAILY MAXIMUM Mar. 28th, 2020
2,020.2 MW at 10 a.m.
with instantaneous capacity factor of
75.3%
1.0% of the electricity
supplied in Brazil was generated from solar PV energy in March 2020.
Source: ONS/MME, 2020.
Value Chain
Solar PV System (kit)
Solar PV Inverter
Tracker PV Module BatteryString Box
Source: BNDES, 2020.
2 1
$
99.8%of all micro and minigeneration
connections are from solar PV systems.
R$ 14.6 billion
in cumulative investments since
2012, distributed in all regions and states of
the country.
243,329Solar PV
systems connected to the grid.
304,427consumer units
(0.4% from the total) receiving electricity credits
through net-metering.
2,835.6 MWis the installed
capacity of solar PV energy in distributed
generation.
AV
ER
AG
E P
RIC
E (
US$
/MW
h)
Brazil needs a competitive and fair industrial policy for the solar PV sector, reducing the prices of components and equipments made in the country and creating more jobs, technology and innovation.
Number of national manufacturers from the solar PV sector registered at the BNDES FINAME financing program:
Source: ANEEL/ABSOLAR, 2020.
Installed capacity (MW) and status of the PV Power plants in the energy auctions of the regulated market per State:
103.00
100
120
80
60
20
40
0
88.0384.29
78.32
44.31
33.25
17.62 20.33
R$ 25.8 billionProjected volume of investments by 2025 related to projects already contracted in auctions.
Operational
In Construction
Construction to be Started
Total by State
Solar PV was the most
competitive energy in the
2019 auctions
4.6 GWContracted capacity in energy auctions which will come into operation by 2025.
Solar PV achieved new records of electricity generation on the SIN (National Grid System ) in Brazil:
Main Benefits of Solar PV to Brazil/ABSOLAR_Brasil
/ABSOLARBrasil
/Absolar Comunicação
/ABSOLAR
/AbsolarOficial
+55 11 [email protected] absolar.org.brAvenida Paulista 1636, 10º andar, conj. 1001, ZIP 01310-200Bela Vista, Sao Paulo, SP, Brazil
Socioeconomical
R Reduction of expenses with electricity for the population, businesses and governments, lowering costs to society.
R Leader in local quality jobs,
creating 25 to 30 jobs per MW/year. R Attraction of foreign capital
and new private investments for the country.
Environmental
R Generation of clean, renewable and sustainable electricity, free of greenhouse gas emissionss, without waste or noise.
R No water usage during
operation, reducing the pressure on water resources.
R Low environmental impact.
Strategical R Diversification of the Brazilian
electricity matrix with a renewable energy, increasing reliability of the electricity supply.
R Reduction of losses and
postponement of investments in transmission and distribution grids.
R Relief of electrical demand during
daytime, reducing costs to consumers.
PE Auction LER 1st LER 2nd LER LEN A-4 LEN A-4 LEN A-4 LEN A-6
8th PB
108.4
27.0
135.4
529.1
4th MG
218.5
8.0
755.6
5th SP
376.1
376.1
6th PE
39.0
169.9
288.9
80.0
BA
776.9
804.9
28.0
1º PI
743.0
300.0
104.4
1,147.4
CE
213.0
697.1
910.1
9th TO
5.0
5.0
112
12 11 8
7th RN
116.080.0
196.0