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Dzoraget HPP
Spillway structure
LocationLori Region, Dzoraget Village, Armenia
Construction began1927 (First Two Aggregates)
1949 (The Third Aggregate)
Opening date1932 (First Powerhouse)
Owner(s)Dzoraget LTD
Dam and spillways
Type of damRun-of-the-river
ImpoundsDebed, Dzoraget River
Power Station
Turbines3
Installed capacity26.2 MW

The Dzoraget Hydroelectric Power Station (Armenian : Ձորագետի հիդրոէլեկտրակայան) is situated in Dzoraget village, in Armenia, in the Lori Region. Establishment of Dzoraget HPP was back in 1927[1]. The plant itself is built in the coast of Debed River, but it uses the flows of the waters of Dzoraget River. It mainly uses 3 generators, with an installed capacity of 26.2 megawatts.[2]The plant was launched on 15th of November in 1932 with the full installed capacity of 22,320 kW. It was built on the river Dzoraget. Before 2011, it was among the medium size plants. After 2011, by the decision of the Government Dzoraget Hydro Power Plant is considered to be small (˂30MW).[3] There is a little water storage behind the weir, as Dzoraget HPP is a run-of-the-river plant.

History

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The establishment of the power plant started in 1927. It took 5 years to build, till 1932. The power plant is created by the academician, engineer and a pioneer of the hydroelectric station construction in the Soviet Union Genrikh Osipovich Graftio and the Armenian engineer and academician Hovhaness Nerses Meliq-Pashaev. The power plant construction has been planned and organized by Iosif Andreh Ter-Astvacatryan.[2]

The first time the Dzoraget power plant was commenced to work on 15th of November in 1932. In the same year, the first aggregate of Dzoraget HPP with a capacity of 7400 kW was commissioned to the work, in a year the plant operated at the full installed capacity of 22,320kW with the average annual water flow capacity of 14,920kW[4]․ The first two aggregates of the power plant were built in 1932. The third one was constructed in 1949.[5]

The SHPP belonged to the Ministry of Defense of RA before 2011. Started from 2011 Dzoraget SHPP was privatized by the “Dzoraget” LTD[6]. Therefore, company is independent from shareholders, offers stocks, pays fewer taxes and finds funds easier. Moreover, operating as a private company gives many benefits to the owners of the Dzoraget HPP. Owners are not liable for company’s losses or legal issues, accordingly the owners and company are completely separate. [7]

Compared to the other means of getting energy, small plants are considered ecologically friendly, though it is obligatory for ENA to buy the energy generated by SHPPs for almost 15 years. In Armenia before 2011 small plants were considered those with installed capacity lower than 10MW. After 2011 the border of this number increased up to 30MW, and all around Armenia Dzoraget SHPP was the only plant to benefit from this change. The company made cash surplus paid by ENA after those changes because ENA is obligated to buy energy from Small plants with a higher price because of its ecologically friendly category the “Dzoraget” LTD benefits. [3]

Deviation from the project

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Dzoraget SHPP has some deviations from its project. Its pillar is 0.5m higher and 4.75m longer than it was designed in the primary plans. There is a fish pass in the head of the plant that does not meet the defined standards and criterion. In addition to it, there is one more pillar, without a fish pass. Therefore, the natural movements of fish in the constructed pillar are impossible. There is no fish-protecting network either. Extra height and artificial waterfall create challenges for fish to move along the river in both directions. Nevertheless, as the water from the river is not used for irrigation, it causes a little negative environmental impact.[1]


Generators of Dzoraget SHPP

Type

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The Dzoraget hydropower plant is a run-of-the-river type of hydroelectric generators with a dam. The dam of this type of plant cannot store large amounts of water, therefore its reservoir is referred to as pondage. Water flows to the power plant from the dam through the penstock with 1300mm diameter. The output is a function of both the “head” and the rate of water flow. The head is a vertical distance from the highest level of dammed water to the power producing turbine, which has a height of 974 meters. As the amount of the electricity is a direct function of the water flow, the amount of electricity generated differs from year to year. In 2013, the amount of electricity generated was 76,260,140 kWh, in 2014 the amount was only 69,230,401 kWh, and in November of 2015 the amount generated was already 81,630,959 kWh. Turbine is adjusted to the different flow rate and pressures. The wheel is rotated due to the pressure and volume of the incoming water. There are three generators that are connected to the turbine by shafts and possibly gears so when the turbine spins it causes the generators to spin also. As a result, generators convert the mechanical energy from the turbine into electric energy. The capacity of those aggregates is 8.8, 8.8, and 8.6 megawatts respectively. In addition to them, there is another aggregate, which was constructed to cover only for self-needs of the power plant to maintain the work was done by it, which has the capacity of 120 kW. It is mainly used in times of lack of the electricity in order not stop the work of the power plant. There are transmission lines connected to the generators, which conduct electricity from the hydropower plant to the regions.[5]

Hydrology

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Dzoraget river is mountain starting river, accordingly the river gets water from snow, rain and groundwater, which accounts for seasonal water regime. Water flow is the highest during spring. Observations show that water discharge is 2.66m3/sec and flow module is 19 1/sec km2. The data shows that the average annual water flow figure is equal to one m3/sec. In most cases the maximal discharge for the river section of Dzoraget SHPP is assumed to be equal to 56.2 m3/sec. [8]

Monthly water energy indicators[9]
1 2 3 4 5 6 7 8 9 10 11 12 Total
Average monthly discharge Dzoraget SHPP (m3/sec) 0.1 0.16 0.17 1.52 2.2 2.2 0.96 0.48 0.35 0.3 0.3 0.31
SHPP averahe monthly capacity (mwt) 0.11 0.17 0.18 1.54 2.06 2.06 1.01 0.51 0.38 032 0.32 0.33
SHPP-average monthly energy production (mln kwt/hour) 0.08 0.12 0.14 1.11 1.53 1.48 0.75 0.38 0.27 0.24 0.23 0.25 6.58

Dzoraget River’s geological composition is highly differentiated but mainly consists of volcanic rocks. There are tuff, granite, basalt, andesite-basalt[8].Despite the Dzoraget SHPP, it is planned to construct The Loriberd hydropower plant, with the capacity of 66 MW and annual electricity production of 200 million KWh. [10]

Transformators of Dzoraget SHPP
Indicators Values [11]
Derivation capacity, kwt 2.06
Average multi-annual production of energy, mln kwt/hour 6.58
Capital investments into SHPPS(without VAT)
thousand USD 1977.4
USD / kwt 959.4
USD / kwt.hour 0.3
Prime cost of power production, cents/kwt hour 1.6

Financial History

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In the beginning, there were two different investment options.

  1. Private investments only (Scenario 1)
  2. 30% of private capital and 70% credit (Scenario 2)

In 2008, the prime cost for selling electric power is accepted as 5.4 cents per kwt/hour. Credit percentages are accepted as 10% annually. The results for financial sustainability based on the main option-30% of private capital and 70% credits- are shown in the table below. The information proved that the Scenario 2 should be accepted because it has higher IRR than Scenario 1 and higher NPVs for different discount rates.

Indicators Scenario 1

100% fully self-financed option

Scenario 2 [11]

30% capital & 70% credit

Prime cost cent, kW/hour

Indicators

5.4 5.4
IRR, % 12.8 15.3
NPV, thousand USD
8% 964.6 967.4
10% 486.02 579.9
12% 127.5 303.3
14% -147.7 102.25
PB, years

(without discount)

7.6 9.4
Deadline for credit return, years 7.0

Annual Exploitation Expenses

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Annual exploitation expenses for power production on Dzoraget SHPP are composed of depreciation and exploitation expenses. Depreciation is accepted on linear basis with 3.3% annually. For 2008 the total costs amounted to $106,300 and were composed of depreciation cost equal to $65,300 and annual exploitation expenses costs equal to $41,000- salary expenses equal to $20,200, renovation expenses equal to $15,800 and other expenses equal to $5,000.[11]

The data from 2014 and 2013 regarding the company’s financial performance indicates that it is earning a much lower profit in 2014 (AMD 289,369,000) than in 2013 (AMD 626,922,000), primarily because of increase in administrative expenses and production costs. In addition, the total amount of assets has decreased by AMD 453,747,000 primarily as a result of an increase in accounts receivables and decrease in current investments. These patterns were accompanied by a decrease in equity amounting to AMD 109,172,000, the decrease in non-current liabilities equal to AMD 351,335,00, and increase in current liabilities equal to AMD 6,761,00. There is not enough information about the company's costs and revenues, because it is a privately owned one. However, it is apparent that company earned low profits in 2014 than in 2013.[6]

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References

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  1. ^ a b "«Ձորագետ 5» փոքր ՀԷԿ` մոնիտորինգի արդյունքներ" [“Dzoraget 5” SHPP: Monitoring Results] (in Armenian). Retrieved 11 December 2015.
  2. ^ a b Armenian soviet encyclopedia (1980). Ձորագետ Հիդրոէլեկտրակայան.
  3. ^ a b Grigoryan, Armen (14 October 2015). "Sale of Armenia's Monopoly Electricity Distributor Confirmed". Retrieved 11 December 2015.
  4. ^ "Հիդրոէներգետիկա" [Hydro Energy] (in Armenian). Retrieved 11 December 2015.
  5. ^ a b “STROY” bulletin/statement N2, 1932, Dzoraget HPP, Armenia. (Dzroaget LTD's archives)
  6. ^ a b "Ձորագետ Հիդրո ՍՊԸ-ի 2014թ.-ի տարեկան ֆինանսական հաշվետվություններ" [Dzoraget Hydro Ltd's 2014 annual financial statements] (in Armenian). Retrieved 11 December 2015.
  7. ^ "Comparison of LTD to LLC". Retrieved 11 December 2015.
  8. ^ a b ARMHYDROENERGYPROJEKT, CJSC (2008). "The Update od the Existing Scheme for Small Hydro Power Stations of the Republic of Armenia. Renewable EnergyProject GEF TF 056211 (PDF). pp. 47–48.
  9. ^ ARMHYDROENERGYPROJEKT, CJSC (2008). "The Update od the Existing Scheme for Small Hydro Power Stations of the Republic of Armenia. Renewable EnergyProject GEF TF 056211 (PDF). p. 49.
  10. ^ "Prospects for Electric Energy Export: Promising Trap?". Retrieved 11 December 2015.
  11. ^ a b c ARMHYDROENERGYPROJEKT, CJSC (2008). "The Update od the Existing Scheme for Small Hydro Power Stations of the Republic of Armenia. Renewable EnergyProject GEF TF 056211 (PDF). p. 50.