Sevan–Hrazdan Cascade: Difference between revisions

Browse history interactively ← Previous edit Next edit →Content deleted Content addedVisual WikitextInline

Revision as of 19:00, 9 March 2016 editBeagel (talk \| contribs)Autopatrolled, Extended confirmed users, Pending changes reviewers, Rollbackers90,411 edits →System details and structure: coordinates← Previous edit		Revision as of 18:24, 24 June 2016 edit undoBeagel (talk \| contribs)Autopatrolled, Extended confirmed users, Pending changes reviewers, Rollbackers90,411 edits Merged from Atarbekyan Hydro Power Plant, Gyumush Hydroelectric Power Station, Arzni Hydro Power Plant,Tag: nowiki addedNext edit →
Line 1:		Line 1:
			{\| class="infobox" style="width:22em"
	{{Infobox dam
			\|-
			! colspan=2 style="text-align:center" \| {{Infobox dam\|embed=yes
	\| name = Sevan–Hrazdan Cascade		\| name = Sevan–Hrazdan Cascade
	\| name_official = ~~Սևան-Հրազդան Կասկադ~~		\| name_official =
	\| image = ~~KanakerHPP~~ ~~13.JPG~~		\| image = {{Location map+\|Armenia
	\| ~~image_size~~ =		\|caption =
	\| ~~image_caption~~ = ~~Kanaker HPP 13~~		\|float = right
	\| ~~image_alt~~ =		\|places =
	\| ~~location_map~~ = Armenia		{{Location map~\|Armenia
	\| ~~location_map_size~~ =		\|label = Sevan
			\|position = right
	\| location_map_caption =
			\|lat_deg=40\|lat_min=33\|lat_sec=17
	\| location_map_alt =
			\|lon_deg=44\|lon_min=57\|lon_sec=55
	\| lat_d = 40
	\| ~~lat_m~~ = 30		\|type = landmark
	\| ~~lat_s~~ = 28		\|region = AM
	\| ~~lat_NS~~ = N		\|name = Sevan
			}}
	\| long_d = 44
			{{Location map~\|Armenia
	\| long_m = 45
	\| ~~long_s~~ = 38		\|label = Hrazdan
	\| ~~long_EW~~ = E		\|position = top
			\|lat_deg=40\|lat_min=30\|lat_sec=29
	\| coordinates_type = type:landmark
			\|lon_deg=44\|lon_min=45\|lon_sec=39
	\| coordinates_display = inline,title
			\|type = landmark
			\|region = AM
			\|name = Hrazdan
			}}
			{{Location map~\|Armenia
			\|label = Argel
			\|position = left
			\|lat_deg=40\|lat_min=22\|lat_sec=44
			\|lon_deg=44\|lon_min=36\|lon_sec=29
			\|type = landmark
			\|region = AM
			\|name = Argel
			}}
			{{Location map~\|Armenia
			\|label = Arzni
			\|position = right
			\|lat_deg=40\|lat_min=17\|lat_sec=49
			\|lon_deg=44\|lon_min=35\|lon_sec=19
			\|type = landmark
			\|region = AM
			\|name = Arzni
			}}
			{{Location map~\|Armenia
			\|label = Kanaker
			\|position = left
			\|lat_deg=40\|lat_min=13\|lat_sec=14
			\|lon_deg=44\|lon_min=31\|lon_sec=06
			\|type = landmark
			\|region = AM
			\|name = Kanaker
			}}
			{{Location map~\|Armenia
			\|label = Yerevan-1
			\|position = right
			\|lat_deg=40\|lat_min=11\|lat_sec=22
			\|lon_deg=44\|lon_min=29\|lon_sec=56
			\|type = landmark
			\|region = AM
			\|name = Yerevan-1
			}}
			{{Location map~\|Armenia
			\|label = Yerevan-3
			\|position = bottom
			\|lat_deg=40\|lat_min=09\|lat_sec=51
			\|lon_deg=44\|lon_min=30\|lon_sec=03
			\|type = landmark
			\|region = AM
			\|name = Yerevan-3
			}}
			}}
			\| image_caption = Locations of the Sevan–Hrazdan Cascade power plants in Armenia
	\| country = ]		\| country = ]
	\| location = ], ]		\| location = ]
	\| purpose = M		\| purpose = ]<br/>Irrigation
	\| status = O		\| status = O
	\| construction_began = ~~1930~~		\| construction_began = 1936
	\| opening = ~~1959~~		\| opening = 1962
	\| demolished =
	\| cost =		\| cost =
	\| owner =		\| owner = ]
	\| operator = International Energy Corporation		\| operator = International Energy Corporation
	\| ~~dam_type~~ =		\| plant_capacity = 560 MW
	\| ~~dam_crosses~~ =		\| plant_annual_gen = 500 GWh
			\| website = {{url\|www.mek.am/en/}}
	\| dam_height_foundation=
			}}
	\| dam_height_thalweg =
			\|-
	\| dam_length =
			! colspan=2 style="text-align:center; border-top:darkblue 2px solid" \| {{Infobox dam\|embed=yes
	\| dam_elevation_crest =
	\| ~~dam_width_crest~~ =		\| name = Sevan HPP
	\| ~~dam_width_base~~ =		\| image = File:Sevan HPP 12.JPG
	\| ~~dam_volume~~ =		\| image_caption = Gate of the Sevan HPP
	\| ~~spillway_count~~ =		\| lat_d = 40
	\| ~~spillway_type~~ =		\| lat_m = 33
	\| ~~spillway_capacity~~ =		\| lat_s = 17
	\| ~~res_name~~ =		\| lat_NS = N
	\| ~~res_capacity_total~~ =		\| long_d = 44
	\| ~~res_capacity_active~~ =		\| long_m = 57
			\| long_s = 56
			\| long_EW = E
			\| coordinates_type = type:landmark
			\| coordinates_display = inline
			\| location =
			\| status = O
			\| plant_commission = 1949
			\| plant_decommission =
			\| plant_type =
			\| plant_hydraulic_head =
			\| plant_turbines = 2 X 17.1 MW
			\| plant_capacity = 34.2 MW
			\| plant_annual_gen = 15 GWh
			}}
			\|-
			! colspan=2 style="text-align:center; border-top:darkblue 2px solid" \| {{Infobox dam\|embed=yes
			\| name = Hrazdan HPP
			\| image = Razdan HPP 08.JPG
			\| image_caption = Building of the Razdan HPP
			\| lat_d = 40
			\| lat_m = 30
			\| lat_s = 29
			\| lat_NS = N
			\| long_d = 44
			\| long_m = 45
			\| long_s = 39
			\| long_EW = E
			\| coordinates_type = region:AM_type:landmark_source:kolossus-nowiki
			\| coordinates_display = inline
			\| location = ]
			\| status = O
			\| construction_began =
			\| cost =
			\| plant_commission = 1959
			\| plant_decommission =
			\| plant_type =
			\| plant_hydraulic_head =
			\| plant_turbines = 2 X 40.8 MW
			\| plant_capacity = 81.6 MW
			\| plant_capacity_factor=
			\| plant_annual_gen = 40 GWh
			}}
			\|-
			! colspan=2 style="text-align:center; border-top:darkblue 2px solid" \|{{Infobox dam\|embed=yes
			\| name = Argel HPP
			\| image = File:Argel HPP 12.JPG
			\| image_caption = Building of the Argel HPP
			\| lat_d = 40
			\| lat_m = 22
			\| lat_s = 44
			\| lat_NS = N
			\| long_d = 44
			\| long_m = 36
			\| long_s = 29
			\| long_EW = E
			\| coordinates_type = type:landmark_region:AM
			\| coordinates_display = inline
			\| location = ]
			\| status = O
			\| res_name = Akhpara Reservoir
			\| res_capacity_total = {{convert\|5600000\|m3\|acre feet\|abbr=on}}
			\| res_capacity_active = {{convert\|4100000\|m3\|acre feet\|abbr=on}}
	\| res_capacity_inactive=		\| res_capacity_inactive=
	\| res_catchment =		\| res_catchment =
Line 53:		Line 167:
	\| res_elevation =		\| res_elevation =
	\| res_tidal_range =		\| res_tidal_range =
	\| ~~plant_name~~ =		\| plant_commission = 1953
	\| plant_lat_d =
	\| plant_lat_m =
	\| plant_lat_s =
	\| plant_lat_NS =
	\| plant_long_d =
	\| plant_long_m =
	\| plant_long_s =
	\| plant_long_EW =
	\| plant_operator =
	\| plant_commission =
	\| plant_decommission =		\| plant_decommission =
	\| plant_type = R		\| plant_type =
			\| plant_turbines = 4 x 56 MW
			\| plant_capacity = 224 MW
			\| plant_capacity_factor=
			\| plant_annual_gen = 200 GWh
			}}
			\|-
			! colspan=2 style="text-align:center; border-top:darkblue 2px solid" \|{{Infobox dam\|embed=yes
			\| name = Arzni HPP
			\| image = File:Arzni HPP 07.JPG
			\| image_caption = Exit of the Arzni HPP
			\| lat_d = 40
			\| lat_m = 17
			\| lat_s = 49
			\| lat_NS = N
			\| long_d = 44
			\| long_m = 35
			\| long_s = 19
			\| long_EW = E
			\| coordinates_type = type:landmark_region:AM
			\| coordinates_display = inline
			\| location = ]
			\| status = O
			\| plant_commission = 1956
			\| plant_decommission =
			\| plant_type =
			\| plant_turbines = 3 x 23.5 MW
			\| plant_capacity = 70.6 MW
			\| plant_capacity_factor=
			\| plant_annual_gen = 80 GWh
			}}
			\|-
			! colspan=2 style="text-align:center; border-top:darkblue 2px solid" \|{{Infobox dam\|embed=yes
			\| name = Kanaker HPP
			\| image = File:KanakerHPP 13.JPG
			\| image_caption = View the Kanaker HPP
			\| lat_d = 40
			\| lat_m = 13
			\| lat_s = 14
			\| lat_NS = N
			\| long_d = 44
			\| long_m = 31
			\| long_s = 06
			\| long_EW = E
			\| coordinates_type = type:landmark_region:AM
			\| coordinates_display = inline
			\| location = ] (])
			\| status = O
			\| plant_commission = 1936
			\| plant_decommission =
			\| plant_type =
	\| plant_hydraulic_head =		\| plant_hydraulic_head =
	\| plant_turbines =		\| plant_turbines = 2 x 12.5 MW<br/>2 x 25 MW
	\| plant_capacity = ~~560~~ MW		\| plant_capacity = 100 MW
	\| plant_capacity_factor=		\| plant_capacity_factor=
	\| plant_annual_gen = ~~500~~ GWh		\| plant_annual_gen = 110 GWh
	\| website = {{url\|mek.am}}
	\| extra =
	}}		}}
			\|-
			! colspan=2 style="text-align:center; border-top:darkblue 2px solid" \|{{Infobox dam\|embed=yes
			\| name = Yerevan-1 HPP
			\| image = File:Erevan HPP1-4.JPG
			\| image_caption = Building of the Yerevan-1 HPP
			\| lat_d = 40
			\| lat_m = 11
			\| lat_s = 22
			\| lat_NS = N
			\| long_d = 44
			\| long_m = 29
			\| long_s = 56
			\| long_EW = E
			\| coordinates_type = type:landmark_region:AM
			\| coordinates_display = inline
			\| location = Yerevan
			\| status = O
			\| plant_commission = 1962
			\| plant_decommission =
			\| plant_type =
			\| plant_hydraulic_head =
			\| plant_turbines = 2 x 22 MW<br/>
			\| plant_capacity = 44 MW
			\| plant_capacity_factor=
			\| plant_annual_gen = 50 GWh
			}}
			\|-
			! colspan=2 style="text-align:center; border-top:darkblue 2px solid" \|{{Infobox dam\|embed=yes
			\| name = Yerevan-3 HPP
			\| image = File:ErevanHPP3-05.JPG
			\| image_caption = Building of the Yerevan-3 HPP
			\| lat_d = 40
			\| lat_m = 09
			\| lat_s = 51
			\| lat_NS = N
			\| long_d = 44
			\| long_m = 30
			\| long_s = 03
			\| long_EW = E
			\| coordinates_type = type:landmark_region:AM
			\| coordinates_display = inline
			\| location = Yerevan
			\| status = O
			\| plant_commission = 1960
			\| plant_decommission =
			\| plant_type =
			\| plant_hydraulic_head = {{convert\|37\|m\|abbr=on}}
			\| plant_turbines = 1 x 5 MW<br/>
			\| plant_capacity = 5 MW
			\| plant_capacity_factor=
			\| plant_annual_gen = 50 GWh
			}}
			\|}

	'''Sevan–Hrazdan Cascade''' ({{Lang-hy\|Սևան-Հրազդան Կասկադ}}) is ~~the~~ ~~hydropower system~~ of ~~hydropower plants (HPPs) in Armenia. It includes seven HPPs: Sevan,~~ ], ], ], ]~~, Yerevan-1~~ and Yerevan-3 ~~HPPs. The HPPs are placed on the~~ ] ~~and they~~ use irrigation water flow from the ] and streams waters of Hrazdan River that gives an opportunity to irrigate 70% of Armenian ]s.		'''Sevan–Hrazdan Cascade''' ({{Lang-hy\|Սևան-Հրազդան Կասկադ}}) is a complex of ]s on the ] and its tributaries between the ] and ] in ]. They use irrigation water flow from the Lake Sevan and streams waters of Hrazdan River that gives an opportunity to irrigate 70% of Armenian ]s. The cascade is owned by the International Energy Corporation (IEC), a subsidiary of ].<ref name=mek>
			{{Cite web
			\| title = Non-Technical Symmary. Sevan–Hrazdan Cascade Rehabiliotation Project
			\| url = http://www.mek.am/ru/41134_Annex4_Armenia_NTS_V13.pdf
			\| author = DG Consulting Ltd
			\| publisher = International Energy Corporation
			\| date = October 2012
			\| accessdate = 2016-03-19
			\| format = PDF}}
			</ref>

	== ~~Overview~~ ==		== History ==
			The first small-scale Yerevan HPP was built in 1923. In 1932, it was replaced by Yerevan-2 HPP. The construction of the current cascade started in 1936, when the Kanaker HPP was opened. That time it was planned to built the whole cascade by 1947. In 1940, construction of the Sevan HPP started but due to ], construction was suspended and the HPP became operational only in 1949. The largest HPP, Argel HPP, was opened in 1953, folloed by Arzni HPP in 1953, Yerevan-3 HPP in 1955, Hrazdan HPP in 1959 and Yerevan-1 HPP in 1962. The original plan included also construction of three more HPPs—Upper Argavand HPP, Lower Argavand HPP and Noragavit HPP—but these plants were never built.<ref name=nesteruk>
	The Sevan-Hrazdan HPP Cascade consists of seven separate ], with 565 MW total nominal capacity. The building process took more than thirty years and it was built in 1930–1965 years. The Sevan-Hrazdan HPP Cascade plays a great role in electricity system of ] and for this reason now it quickly needs its output capacity to be restored and substantial rehabilitation in order to ensure safe and stable operation. The cascade is owned by the International Energy Corporation (IEC).<ref>http://www.mek.am/ru/41134_Annex4_Armenia_NTS_V13.pdf</ref>
			{{Cite book
			\| title = Развитие гидроэнергетики СССР
			\| trans_title = Development of hydropower of the USSR
			\| first = Fedor \| last = Nesteruk
			\| publisher = ]
			\| year = 1963
			\| page = 231}}
			</ref>

			In 2003 the cascade was given to Inter RAO UES in return for US$25 million debt by Armenia.<ref name=lragir231115/> For operation of the cascade, the IEC was incorporated. In 2011, Rushydro bought the IEC from Inter RAO.<ref name=lragir231115/><ref name=arka240311>
	Sevan-Hrazdan HPP Cascade is invested by international ]s, which have requirements for the Sevan-Hrazdan HPP Cascade. The requirements are to have current operation and the investment project to be in line with the Armenian and ] legal standards, as well as EBRD’s Performance Requirements and ADB’s relevant environmental and social policies.
			{{Cite news
			\| title = "INTER RAO EEC" and "RusHydro" finished the purchase-sale deal of Sevan-Hrazdan cascade hydro-power station in Armenia
			\| url = http://arka.am/en/news/economy/24803/
			\| agency = ARKA
			\| date = 2011-03-24
			\| accessdate = 2016-03-26}}
			</ref> In November 2015 it was published that Rushydro plans to sell the IEC.<ref name=lragir231115>
			{{Cite news
			\| title = Will Another Russian Company Leave Armenia?
			\| url = http://www.lragir.am/index/eng/0/economy/view/34965
			\| agency = Lragir.am
			\| date = 2015-11-24
			\| accessdate = 2016-03-26}}
			</ref>

			== Technical description ==
	== System details and structure ==
			The length of the Sevan-Hrazdan Cascade is about {{convert\|70\|km}} and it consists of seven hydroelectric power plants (HPP), with total nominal capacity of 565 MW. The HPPs are Sevan, Hrazdan, Argel, Arzni, Kanaker, Yerevan-1 and Yerevan-3—all ] type.<ref name=adb-iec/> The cascade produces about 10% of Armenia's electricity.

			The operation of the Sevan–Hrazdan Cascade is dependent on amount of water supply from the Lake Sevan and it is suitable for the daily peak generation.<ref name=sheffield/> Five HPPs operate all year long and two HPPs work only during the ] season when additional water is available in the system.<ref name=mek/> Therefore the power generation during the winter is limited.<ref name=sheffield>
	The Sevan-Hrazdan Hydro Power Plant (HPP) Cascade was built between 1930 and 1962. Since then it has had a crucial influence on Armenia's hydropower generating system. The Cascade includes seven small HPPs which are located along Hrazdan River and its tributaries between Lake Sevan and Yerevan.<ref>http://www.adb.org/projects/46941-014/main#tabs-0-0</ref>
			{{Cite book
	*]
			\| title = Assessment of Hydrogen Energy for Sustainable Development
	*]
			\| url = https://books.google.com/books?id=6-kBTuwPTZ4C&pg=PA215
	*]
			\| editor1-first = John W. \| editor1-last = Sheffield
	*]
			\| editor2-first = Çigdem \| editor2-last = Sheffield
	*]
			\| publisher = ]
	*]
			\| year = 2007
	*]
			\| page = 215
			\| isbn = 9781402064401}}
			</ref>

			The water is transported from the Lake Seven to the HPPs through open diversion ]s and ]s. Most of these canals were built in 1960s and are now under poor conditions and require rehabilitation.<ref name=mek/>

			==Power plants==

	The length of the Cascade is about {{convert\|70\|km}}. The system of those seven HPPs is ]. All of them together make up 1/10 of Armenia's electricity. Compared to ], the energy generated in Sevan-Hrazdan Hydro Power Plant is much more affordable.
	{\| class="wikitable"		{\| class="wikitable"
	\|-		\|-
Line 114:		Line 357:
	\| Total \|\| \|\| 20 \|\| 559.4 \|\| 458.7 \|\| 100.7 \|\|		\| Total \|\| \|\| 20 \|\| 559.4 \|\| 458.7 \|\| 100.7 \|\|
	\|}		\|}
			<small>Source: IEC, Asbarez<ref name=asbarez210514/></small>
	]

			===Sevan HPP===
	The operation of the Sevan–Hrazdan Cascade is completely dependent on amount of water supply from the Lake Sevan. Because of that, five out of seven HPPs operate all year long, and the other two stations work only during the ] season when additional water is available in the system. Because of two facts the Cascade needs to follow the country's strategy of irrigation: agriculture and water availability. Firstly, agriculture is very essential sector in Armenia and because of that a lot of water is used from Lake Sevan. Secondly, the water supply is limited. This is the reason why the Power Plant cannot operate fully and constantly. If looking at the statistics, 150 m^3 of water is released annually from the lake.
			The Sevan HPP, also known as the Lake HPP, is the upper power station of the cascade. It is an underground power station locating {{convert\|100\|m}} below the surface. It has two turbines with a total nominal capacity of 34.2 MW and the factual capacity of about 24 MW.<ref name=asbarez210514>
			{{cite news
			\| url = http://asbarez.com/123306/sevan-hrazdan-cascade-hydropower-system/
			\| title = Sevan–Hrazdan Cascade Hydropower System
			\| first = Areg \| last = Gharabegian
			\| agency = Asbarez
			\| date = 2014-05-21
			\| accessdate = 2016-06-24}}
			</ref><ref name=mek-sevan>
			{{cite web
			\| url = http://www.mek.am/en/SevanGes.html
			\| title = Sevan HPP
			\| publisher = IEC
			\| accessdate = 2016-06-24}}
			</ref> Its nominal annual generation is 130 GWh, but the factual generation for the last years has been about 15 GWh. The water intake of the Sevan HPP was renovated in 2010.<ref name=arka221110>
			{{cite news
			\| url = http://arka.am/ru/news/economy/22605/?sphrase_id=12237672
			\| title = Севанской ГЭС в Армении состоялась церемония открытия восстановленного водоприемника
			\| trans_title = The opening ceremony of the renovated water intake took place in Sevan HPP
			\| language = Russian
			\| agency = ARKA
			\| date = 2010-11-22
			\| accessdate = 2016-06-24}}
			</ref>

			===Hrazdan HPP===
	The water is transported from the Lake Seven to the HPPs through open diversion ]s and ]s. Most of these canals were built in 1960s and are now under poor conditions and require rehabilitation.
			The Hrazdan HPP, also known as Atarbekyan HPP, is located in between Sevan HPP and Argel HPP. It has two turbines with a total installed capacity of 81.6 MW.<ref name=asbarez210514/><ref name=mek-hrazdan>
			{{cite web
			\| url = http://www.mek.am/en/HrazdanGes.html
			\| title = Hrazdan HPP
			\| publisher = IEC
			\| accessdate = 2016-06-24}}
			</ref> Its nominal annual generation is 375 GWh, but the factual generation for the last years has been about 40 GWh.

			===Argel HPP===
	]
			The Argel HPP, also known as Gyumush HPP, is located in between Argel HPP and Arzni HPP. It is the largest power plant of the cascade. It has four turbines, supplied by ], with total installed nominal capacity of 224 MW and available capacity about 168 MW.<ref name=asbarez210514/><ref name=industcards-armenia>
			{{cite web
			\| url = http://www.industcards.com/hydro-armenia.htm
			\| title = Hydroelectric Plants in Armenia
			\| work = industcards
			\| accessdate = 2016-06-24}}
			</ref> Its nominal annual generation is 870 GWh, but the factual generation for the last years has been about 200 GWh. The plant is important for ensuring the frequency of the Armenian power system, ensuring the emergency supply to the ], and supplying peak-load capacity.<ref name=mek-argel>
			{{cite web
			\| url = http://www.mek.am/en/ArgelGes.html
			\| title = Argel HPP
			\| publisher = IEC
			\| accessdate = 2016-06-24}}
			</ref>

			In May 1995, landslides caused by heavy rains destroyed one of the plant spillways and blocked the Hrazdan River channel. It was restored and reopened in 2000 and 2006 correspondingly.<ref name=industcards-armenia/>
	== Environmental and social issues ==

			===Arzni HPP===
	The system’s core risks from its operation and rehabilitation plan are coming from its reservoir management, for instance—the management of oils and lubricants for turbines and transformers, lead/acid batteries and material. No need to mention the health and security of the community. As there is a plan to dredge Yerevan-1 dam right on the biological environment—there is also a high-level risk because of increased turbidity. Another negative impact may be expected due to works and equipment transportations, which would cause pollution and noise, resulting in a social indignation. The rehabilitation process will not include any further expansion or creation of new facilities—all the work items are approved according to the plan.<ref>http://www.adb.org/projects/46941-014/main#tabs-0-0</ref>
			The Arzni HPP is located in between of the Argel HPP and the Kanaker HPP. It has three turbines with total installed capacity of 70.6 MW.<ref name=asbarez210514/><ref name=mek-arzni>
			{{cite web
			\| url = http://www.mek.am/en/ArzniGES.html
			\| title = Arzni HPP
			\| publisher = IEC
			\| accessdate = 2016-06-24}}
			</ref> Its nominal annual generation is 300 GWh, but the factual generation for the last years has been about 80 GWh.

			===Kanaker HPP===
	== Rehabilitation project ==
			The Kanaker HPP is located next to the ] aluminum smelter in ] in between of the Arzni HPP and the Yerevan-1 HPP. It has a total installed capacity of 100 MW which consists of four turbines with capacity of 12.5 MW each and two turbines with capacity of 25 MW each, all supplied by LMZ. The nomibal installed capacity is !00 MW and the factual capacity is 87.5 MW.<ref name=asbarez210514/><ref name=industcards-armenia/> Its nominal annual generation is 425 GWh, but the factual generation for the last years has been about 110 GWh. The plant is important for providing the peak-load capacity as also supplying Yerevan with irrigation and industrial water.<ref name=mek-kanaker>
	Most part of the Sevan–Hrazdan Cascade is currently in bad condition. Since its establishment there had not been held any big repairs. Currently, there is a rehabilitation project going on the Sevan–Hrazdan Cascade that is predicted to be completed in 2017. The main goal of the rehabilitation project is to get back to the initial capacity of 44,7 MW. The rehabilitation project is not planning to increase the initial capacity of 44,7 MW. As a result of the rehabilitation project, Sevan–Hrazdan Cascade will become safer, more reliable and efficient. The rehabilitation project will have a good effect on the environment and will decrease the ]. By Environmental and Social Policy 2008 the rehabilitation project was classified as B. To minimize the effect on the environment and the environmental pollution the Environmental and Social Action Plan/Corrective Action Plan was created, as well as to meet the Armenian, ] (EBRD) and Asian Development Bank (ADB) requests. The main risks of environmental pollution were included in this plan.<ref></ref>
			{{cite web
			\| url = http://www.mek.am/en/QanaqerGes.html
			\| title = Kanaker HPP
			\| publisher = IEC
			\| accessdate = 2016-06-24}}
			</ref>

			The plant was rehabilitated in 1993–1995, a project financed by ], Energy pour l’Armenie and Aznavour pour l’Armenie.<ref name=mek-kanaker/> In 1995, the unit 5 and in 2000, the unit 6 were shut for the renovation, financed by the loan from ]. These units were reopened in 2003.<ref name=industcards-armenia/> The renovation was carried out by ].<ref name=mek-kanaker/>
	The planned works for the rehabilitation project include a complete reconstruction of Yerevan-1 HPP. Sevan HPP, Hrazdan HPP, Argel HPP, Arzni HPP, and Kanaker HPP will have a new electrical equipment, such as new accumulator battery, new generator, etc. Also, the hydro units of Argel HPP, Hrazdan HPP and Kanaker HPP will be replaced. All the planned works of the rehabilitation project will be held on the Sevan–Hrazdan Cascade HPP territories and does not require any additional land purchases.

			===Yerevan-1 HPP===
			The Yerevan-1 HPP is located in between Kanaker HPP and Yerevan-3 HPP in the center of Yerevan. It has two turbines with the total installed nominal capacity of 44 MW and available capacity of 22 MW.<ref name=asbarez210514/><ref name=mek-yerevan1/> Its nominal annual generation is 210 GWh, but the factual generation for the last years has been about 50 GWh. It supplies the center part of Yerevan.<ref name=mek-yerevan1>
			{{cite web
			\| url = http://www.mek.am/en/YerevanGes1.html
			\| title = Yerevan-1 HPP
			\| publisher = IEC
			\| accessdate = 2016-06-24}}
			</ref>

			===Yerevan-3 HPP===
			The Yerevan-3 HPP is located in Yerevan. It has one turbined with installed capacity of 5 MW.<ref name=asbarez210514/> Its diversion channel and penstock are part of the Artashat irrigation channel.<ref name=mek-yerevan3>
			{{cite web
			\| url = http://www.mek.am/en/YerevanGes3.html
			\| title = Yerevan-3 HPP
			\| publisher = IEC
			\| accessdate = 2016-06-24}}
			</ref>

			== Rehabilitation project ==
			Most part of the Sevan–Hrazdan Cascade is in bad condition. Since its establishment there had not been held any big repairs. There is a rehabilitation project going on the Sevan–Hrazdan Cascade that is predicted to be completed in 2017. The main goal of the rehabilitation project is to re-establish the initial capacity of the cascade.<ref name=adb-iec>
			{{Cite web
			\| title = ARM: Sevan–Hrazdan Cascade Hydropower System Rehabilitation Project
			\| url = http://www.adb.org/sites/default/files/project-document/75994/46941-014-arm-escar-01.pdf
			\| publisher = ]
			\| date = March 2013
			\| accessdate = 2016-03-09
			\| format = PDF}}
			</ref> The planned works for the rehabilitation project include a complete reconstruction of Yerevan-1 HPP. Sevan HPP, Hrazdan HPP, Argel HPP, Arzni HPP, and Kanaker HPP will have a new electrical equipment, such as new accumulators and generators. Also the hydro units of Argel HPP, Hrazdan HPP and Kanaker HPP will be replaced.<ref name=mek/><ref name=adb-iec/>

			As there is a plan to dredge Yerevan-1 dam right on the biological environment—there is also a high-level risk because of increased turbidity. Another negative impact may be expected due to works and equipment transportations, which would cause pollution and noise, resulting in a social indignation. The rehabilitation process will not include any further expansion or creation of new facilities—all the work items are approved according to the plan.<ref name=adb-iec/>
	To improve the overall condition of the Sevan–Hrazdan Cascade the IEC and the shareholder of the Sevan–Hrazdan Cascade, JSC RusHydro, plan to make an investment in the rehabilitation project.<ref></ref>
	<ref></ref>

	== See also ==		== See also ==
	*]		* ]

	== References ==		== References ==

Revision as of 18:24, 24 June 2016

Dam in Syunik ProvinceSevan–Hrazdan Cascade
SevanHrazdanArgelArzniKanakerYerevan-1Yerevan-3Locations of the Sevan–Hrazdan Cascade power plants in Armenia
Country	Armenia
Location	Syunik Province
Purpose	Hydroelectricity Irrigation
Status	Operational
Construction began	1936
Opening date	1962
Owner(s)	RusHydro
Operator(s)	International Energy Corporation
Power Station
Installed capacity	560 MW
Annual generation	500 GWh
Website www.mek.am/en/
DamSevan HPP
Gate of the Sevan HPP
Status	Operational
Power Station
Commission date	1949
Turbines	2 X 17.1 MW
Installed capacity	34.2 MW
Annual generation	15 GWh
Dam in AtarbekyanHrazdan HPP
Building of the Razdan HPP
Location	Atarbekyan
Status	Operational
Power Station
Commission date	1959
Turbines	2 X 40.8 MW
Installed capacity	81.6 MW
Annual generation	40 GWh
Dam in ArgelArgel HPP
Building of the Argel HPP
Location	Argel
Status	Operational
Reservoir
Creates	Akhpara Reservoir
Total capacity	5,600,000 m (4,500 acre⋅ft)
Active capacity	4,100,000 m (3,300 acre⋅ft)
Power Station
Commission date	1953
Turbines	4 x 56 MW
Installed capacity	224 MW
Annual generation	200 GWh
Dam in ArzniArzni HPP
Exit of the Arzni HPP
Location	Arzni
Status	Operational
Power Station
Commission date	1956
Turbines	3 x 23.5 MW
Installed capacity	70.6 MW
Annual generation	80 GWh
Dam in YerevanKanaker HPP
View the Kanaker HPP
Location	Yerevan (Kanaker)
Status	Operational
Power Station
Commission date	1936
Turbines	2 x 12.5 MW 2 x 25 MW
Installed capacity	100 MW
Annual generation	110 GWh
Dam in YerevanYerevan-1 HPP
Building of the Yerevan-1 HPP
Location	Yerevan
Status	Operational
Power Station
Commission date	1962
Turbines	2 x 22 MW
Installed capacity	44 MW
Annual generation	50 GWh
Dam in YerevanYerevan-3 HPP
Building of the Yerevan-3 HPP
Location	Yerevan
Status	Operational
Power Station
Commission date	1960
Hydraulic head	37 m (121 ft)
Turbines	1 x 5 MW
Installed capacity	5 MW
Annual generation	50 GWh

Sevan–Hrazdan Cascade (Template:Lang-hy) is a complex of hydroelectric power plants on the Hrazdan River and its tributaries between the Lake Sevan and Yerevan in Armenia. They use irrigation water flow from the Lake Sevan and streams waters of Hrazdan River that gives an opportunity to irrigate 70% of Armenian agricultural lands. The cascade is owned by the International Energy Corporation (IEC), a subsidiary of RusHydro.

History

The first small-scale Yerevan HPP was built in 1923. In 1932, it was replaced by Yerevan-2 HPP. The construction of the current cascade started in 1936, when the Kanaker HPP was opened. That time it was planned to built the whole cascade by 1947. In 1940, construction of the Sevan HPP started but due to World War II, construction was suspended and the HPP became operational only in 1949. The largest HPP, Argel HPP, was opened in 1953, folloed by Arzni HPP in 1953, Yerevan-3 HPP in 1955, Hrazdan HPP in 1959 and Yerevan-1 HPP in 1962. The original plan included also construction of three more HPPs—Upper Argavand HPP, Lower Argavand HPP and Noragavit HPP—but these plants were never built.

In 2003 the cascade was given to Inter RAO UES in return for US$25 million debt by Armenia. For operation of the cascade, the IEC was incorporated. In 2011, Rushydro bought the IEC from Inter RAO. In November 2015 it was published that Rushydro plans to sell the IEC.

Technical description

The length of the Sevan-Hrazdan Cascade is about 70 kilometres (43 mi) and it consists of seven hydroelectric power plants (HPP), with total nominal capacity of 565 MW. The HPPs are Sevan, Hrazdan, Argel, Arzni, Kanaker, Yerevan-1 and Yerevan-3—all run-of-the-river type. The cascade produces about 10% of Armenia's electricity.

The operation of the Sevan–Hrazdan Cascade is dependent on amount of water supply from the Lake Sevan and it is suitable for the daily peak generation. Five HPPs operate all year long and two HPPs work only during the irrigation season when additional water is available in the system. Therefore the power generation during the winter is limited.

The water is transported from the Lake Seven to the HPPs through open diversion canals and tunnels. Most of these canals were built in 1960s and are now under poor conditions and require rehabilitation.

Power plants

Power Plant	Year	Number of Units	Installed Capacity (MW)	Available Capacity (MW)	Unavailable Capacity (MW)	Coordinates
Yerevan-3 HPP	1960	1	5	5	0	40°9′51.1″N 44°30′3.3″E / 40.164194°N 44.500917°E / 40.164194; 44.500917
Yerevan-1 HPP	1962	2	44	22	22	40°11′22.2″N 44°29′55.5″E / 40.189500°N 44.498750°E / 40.189500; 44.498750
Kanaker HPP	1936	6	100	87.5	12.5	40°13′14″N 44°31′6″E / 40.22056°N 44.51833°E / 40.22056; 44.51833
Arzni HPP	1956	3	70.6	70.6	0	40°17′48.5″N 44°35′18.9″E / 40.296806°N 44.588583°E / 40.296806; 44.588583
Argel HPP	1953	4	224	168	56	40°22′44.1″N 44°36′28.5″E / 40.378917°N 44.607917°E / 40.378917; 44.607917
Hrazdan HPP	1959	2	81.6	81.6	0	40°30′29.2″N 44°45′39.4″E / 40.508111°N 44.760944°E / 40.508111; 44.760944
Sevan HPP	1949	2	34.2	24	10.2	40°33′17″N 44°57′55.5″E / 40.55472°N 44.965417°E / 40.55472; 44.965417
Total		20	559.4	458.7	100.7

Source: IEC, Asbarez

Sevan HPP

The Sevan HPP, also known as the Lake HPP, is the upper power station of the cascade. It is an underground power station locating 100 metres (330 ft) below the surface. It has two turbines with a total nominal capacity of 34.2 MW and the factual capacity of about 24 MW. Its nominal annual generation is 130 GWh, but the factual generation for the last years has been about 15 GWh. The water intake of the Sevan HPP was renovated in 2010.

Hrazdan HPP

The Hrazdan HPP, also known as Atarbekyan HPP, is located in between Sevan HPP and Argel HPP. It has two turbines with a total installed capacity of 81.6 MW. Its nominal annual generation is 375 GWh, but the factual generation for the last years has been about 40 GWh.

Argel HPP

The Argel HPP, also known as Gyumush HPP, is located in between Argel HPP and Arzni HPP. It is the largest power plant of the cascade. It has four turbines, supplied by LMZ, with total installed nominal capacity of 224 MW and available capacity about 168 MW. Its nominal annual generation is 870 GWh, but the factual generation for the last years has been about 200 GWh. The plant is important for ensuring the frequency of the Armenian power system, ensuring the emergency supply to the Metsamor Nuclear Power Plant, and supplying peak-load capacity.

In May 1995, landslides caused by heavy rains destroyed one of the plant spillways and blocked the Hrazdan River channel. It was restored and reopened in 2000 and 2006 correspondingly.

Arzni HPP

The Arzni HPP is located in between of the Argel HPP and the Kanaker HPP. It has three turbines with total installed capacity of 70.6 MW. Its nominal annual generation is 300 GWh, but the factual generation for the last years has been about 80 GWh.

Kanaker HPP

The Kanaker HPP is located next to the Rusal Armenal aluminum smelter in Kanaker in between of the Arzni HPP and the Yerevan-1 HPP. It has a total installed capacity of 100 MW which consists of four turbines with capacity of 12.5 MW each and two turbines with capacity of 25 MW each, all supplied by LMZ. The nomibal installed capacity is !00 MW and the factual capacity is 87.5 MW. Its nominal annual generation is 425 GWh, but the factual generation for the last years has been about 110 GWh. The plant is important for providing the peak-load capacity as also supplying Yerevan with irrigation and industrial water.

The plant was rehabilitated in 1993–1995, a project financed by USAID, Energy pour l’Armenie and Aznavour pour l’Armenie. In 1995, the unit 5 and in 2000, the unit 6 were shut for the renovation, financed by the loan from KfW. These units were reopened in 2003. The renovation was carried out by Alstom Power Generation.

Yerevan-1 HPP

The Yerevan-1 HPP is located in between Kanaker HPP and Yerevan-3 HPP in the center of Yerevan. It has two turbines with the total installed nominal capacity of 44 MW and available capacity of 22 MW. Its nominal annual generation is 210 GWh, but the factual generation for the last years has been about 50 GWh. It supplies the center part of Yerevan.

Yerevan-3 HPP

The Yerevan-3 HPP is located in Yerevan. It has one turbined with installed capacity of 5 MW. Its diversion channel and penstock are part of the Artashat irrigation channel.

Rehabilitation project

Most part of the Sevan–Hrazdan Cascade is in bad condition. Since its establishment there had not been held any big repairs. There is a rehabilitation project going on the Sevan–Hrazdan Cascade that is predicted to be completed in 2017. The main goal of the rehabilitation project is to re-establish the initial capacity of the cascade. The planned works for the rehabilitation project include a complete reconstruction of Yerevan-1 HPP. Sevan HPP, Hrazdan HPP, Argel HPP, Arzni HPP, and Kanaker HPP will have a new electrical equipment, such as new accumulators and generators. Also the hydro units of Argel HPP, Hrazdan HPP and Kanaker HPP will be replaced.

As there is a plan to dredge Yerevan-1 dam right on the biological environment—there is also a high-level risk because of increased turbidity. Another negative impact may be expected due to works and equipment transportations, which would cause pollution and noise, resulting in a social indignation. The rehabilitation process will not include any further expansion or creation of new facilities—all the work items are approved according to the plan.

References

^ DG Consulting Ltd (October 2012). "Non-Technical Symmary. Sevan–Hrazdan Cascade Rehabiliotation Project" (PDF). International Energy Corporation. Retrieved 2016-03-19.
Nesteruk, Fedor (1963). Развитие гидроэнергетики СССР. USSR Academy of Sciences Publishing House. p. 231. {{cite book}}: Unknown parameter |trans_title= ignored (|trans-title= suggested) (help)
^ "Will Another Russian Company Leave Armenia?". Lragir.am. 2015-11-24. Retrieved 2016-03-26.
""INTER RAO EEC" and "RusHydro" finished the purchase-sale deal of Sevan-Hrazdan cascade hydro-power station in Armenia". ARKA. 2011-03-24. Retrieved 2016-03-26.
^ "ARM: Sevan–Hrazdan Cascade Hydropower System Rehabilitation Project" (PDF). Asian Development Bank. March 2013. Retrieved 2016-03-09.
^ Sheffield, John W.; Sheffield, Çigdem, eds. (2007). Assessment of Hydrogen Energy for Sustainable Development. Springer Science & Business Media. p. 215. ISBN 9781402064401.
^ Gharabegian, Areg (2014-05-21). "Sevan–Hrazdan Cascade Hydropower System". Asbarez. Retrieved 2016-06-24.
"Sevan HPP". IEC. Retrieved 2016-06-24.
"Севанской ГЭС в Армении состоялась церемония открытия восстановленного водоприемника" (in Russian). ARKA. 2010-11-22. Retrieved 2016-06-24. {{cite news}}: Unknown parameter |trans_title= ignored (|trans-title= suggested) (help)
"Hrazdan HPP". IEC. Retrieved 2016-06-24.
^ "Hydroelectric Plants in Armenia". industcards. Retrieved 2016-06-24.
"Argel HPP". IEC. Retrieved 2016-06-24.
"Arzni HPP". IEC. Retrieved 2016-06-24.
^ "Kanaker HPP". IEC. Retrieved 2016-06-24.
^ "Yerevan-1 HPP". IEC. Retrieved 2016-06-24.
"Yerevan-3 HPP". IEC. Retrieved 2016-06-24.

Categories: