Armenia imports about 60% of its primary energy needs, mainly natural
gas, and suffers from obsolete power generation infrastructure. Hydropower
stations, which provide about 1/3 of the electricity in Armenia, are the only
source of domestic renewable energy resources. However, the large hydro-power
plants do not meet international technical, economic, or environmental
performance standards. Despite its favorable topography and hydrology, Armenia
suffers from underinvestment in hydro-power generation capacity. The government
has launched an initiative to promote private sector investment in the
country's energy infrastructure, including hydro-power. As a result, numerous
small hydro power plans have been built during recent years.
The Sevan-Hrazdan Hydro Power Plant (HPP) Cascade is the largest hydro-power generating facility in Armenia and supplies about 10% of the
country’s electricity. The system was built between 1930 and 1962 and has a
significant role in supporting the balance of the electric grid, and also
provides more affordable energy than thermal power plants. The system consists
of seven small to medium size run-of-the-river hydro-power stations located
along Hrazadan River and its tributaries between the Lake Sevan and Yerevan.
The Cascade is approximately 70 km long and the seven power generation plants
are: Sevan, Hrazdan, Argel, Arzni, Kanaker, Yerevan-1, and Yerevan-3. Total
installed capacity of the Sevan-Hrazdan Cascade is 560 megawatts (MW) and mean
annual output is around 500 million kilowatt hours (kWt/h). Table presents
sizes of these seven stations.
Sevan–Hrazdan
Cascade Hydro-power System
Power Plant
|
Year
of Commissioning
|
No.
of Units
|
Original
Installed Capacity (MW)
|
Available
Capacity (MW)
|
Unavailable
Capacity (MW)
|
Argel
|
1953
|
4
|
224.0
|
168.0
|
56.0
|
Arzni
|
1956
|
3
|
70.6
|
70.6
|
0.0
|
Hrazdan
|
1959
|
2
|
81.6
|
81.6
|
0.0
|
Kanaker
|
1936
|
6
|
100.0
|
87.5
|
12.5
|
Sevan
|
1949
|
2
|
34.2
|
24.0
|
10.2
|
Yerevan 1
|
1962
|
2
|
44.0
|
22.0
|
22.0
|
Yerevan 3
|
1960
|
1
|
5.0
|
5.0
|
0.0
|
Total
|
20
|
559.4
|
458.7
|
100.7
|
Five
stations are operational year-round and the remaining two stations work only
during the irrigation season when additional water from Lake Sevan is released
into the system. In order to maintain and control water level in the Sevan, the
amount of water supply from the lake each year is based on water availability
in the lake and irrigation requirement as determined by the government. Because
agriculture is a priority sector in the country and water availability from the
Lake Sevan is limited, the operation of the cascade is completely dependent on
the country’s strategy for irrigation. Usually 150 million cubic meters of
water is annually released from Lake Sevan.
The Sevan-Hrazdan HPP Cascade
comprises of open diversion canals and tunnels which transports water from the
Lake Sevan to the HPPs. Most of the canals were built in the middle of the last
century and they are in very poor condition and require major rehabilitation.
Another major issue is illegal connections to the canals.
International Energy Corporation
(IEC) owns and operates the Sevan–Hrazdan Cascade Hydro-power System. IEC was
incorporated in the Republic of Armenia in May 2003. IEC took ownership of the
system in July of 2003 and obtained a license for generation of electric power
in September of 2003. The initial owner of IEC was Inter RAO Company, a Russian
state-owned company. In 2010, Hydro-invest (a subsidiary of RusHydro) acquired
Inter RAO's ownership in IEC and currently RusHydro (through HydroInvest) holds
the majority of the shares (90%) and controls IEC. In 2003 the Government of
Armenia gave Sevan-Hrazdan Cascade to Inter RAO Company for $25 million as
partial payment toward $40 million debt that Armenia had to Russia from
importing fuel for generating nuclear energy.
RusHydro, was incorporated in 2004
in the Russia as part of the state program for power sector reform and creating
a competitive industry. RusHydro is 67% state owned and its remaining shares
are publicly traded on the Moscow and London stock exchanges. RusHydro is the
Russia’s largest hydro-power generation company and the leader in renewable energy
using water currents, sea tides, wind, and geothermal energy. The company owns
61 hydro power generation facilities with 35 gigawatt (GW) of electricity
generating capacity.
Rehabilitation Project
The system requires significant
rehabilitation to extend its working life and reduce the risk of major
failures. Aside from the
rehabilitation of the hydro-power plants, some of the channels and tunnels also
need to be reconstructed to eliminate leaks and loss of water. IEC has
committed to undertake the rehabilitation of the Cascade. The estimated
investment required for the complete rehabilitation is approximately $66
million. IEC will be financing this investment through both internal sources
($16 million) and external debt financing ($50 million). Asian Development Bank
(ADB) and European Bank for Reconstruction and Development (EBRD) have agreed
to provide $25 million loan maturing in 2029 to IEC for the rehabilitation of
the seven hydro-power plants of the Sevan-Hrazdan Cascade. Both ADB and EBRD
have been financing different projects in Armenia since the country’s
independence. As of early 2013, EBRD has invested over $850 million in Armenia.
Investing in green energy generation is one of the EBRD’s key priorities in
Armenia. The planned rehabilitation will be completed in 2017. The project aims
to restore the capacity of the hydro-power plants by 44.7 MW, improve their
reliability and safety, as well as reduce operational and maintenance expenses.
The following are the major components of this rehabilitation project:
·
The project will restore part of the currently unavailable
old power generation capacity, and make it available for generating additional
electricity.
·
The project will enhance operational efficiency,
reliability, and safety of the system and help avoid major outage and
associated impacts on the populace.
·
The project will contribute to more efficient use of water
resources by reducing water leakage from the system.
After repair of the diversion
channels, it is estimated that water leakage will decrease by 50 million to 85
million cubic meters annually. This amount of water can generate additional of
18 to 30 gigawatt hours (GWh) of electricity and used for irrigation. The
rehabilitation of the hydro-power plants will raise the technical standards in
line with best international practices and restore the lost capacity while
avoiding further deterioration. This will ensure the continued stability and
security of the country’s domestic electricity supply while improving overall
generation efficiency and carbon emissions.
The main environmental impacts and
risks from the system operations and proposed rehabilitation are related to
reservoir management; management of oils and lubricants for turbines,
transformers, and support infrastructure; management of lead/acid batteries,
material, and waste management; as well as occupational and community health,
safety and security. Some environmental impacts are expected from the proposed
dredging of Yerevan-1 dam mainly on the biological environment downstream from
Yerevan-1 dam due to increased turbidity. The negative socio-economic impacts
are mostly related to construction works and transportation of equipment and
materials including air emissions and noise, which are expected to be localized
and short term. All work items are planned within the existing footprint and
the planned rehabilitation does not consider expansion of the existing
facilities or installation of new facilities.
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