Energy in Armenia

Garen Yegparian
Garen Yegparian

Garen Yegparian


Let’s start the year off with some good news in an all-important aspect of daily life, energy. But you’ll have to read through the important buildup to appreciate the importance of the actual news.

Recently, a few items have appeared in the news that suggest the Republic of Armenia is on the right track in the field of energy, that is going with renewables (solar, wind, and hydro-electric). Keep in mind that this realm is fraught with hazards, starting with what threatens the entire balance of life on our the planet, climate change.

In the RoA’s case, it is even more complicated because there are no “traditional”, that is hydrocarbon, sources of energy for the country to exploit within its borders, and, two of its neighbors have imposed a three-decade-long illegal blockade. One of those, Azerbaijan, is a significant producer of oil and natural gas while the other, Turkey, is doing all it can to become a major transit route for these fuels while also seeking to exploit undersea reserves in the eastern Mediterranean.

The good news is that Iran, RoA’s southern neighbor is one of the global leaders in hydrocarbon production and has been supplying fuel along with Russia. The latter’s fuels must cross Georgia which has occasionally been a problem. Plus, fuel extracted in Azerbaijan crosses Georgia, which also uses some of it, rendering it susceptible to Baku’s blackmail. But the world is racing to get off the hydrocarbon fuel addiction.

Fortunately, the RoA is endowed with fairly abundant sources of solar, wind, and hydro-electric energy. So it becomes a matter of building the infrastructure to utilize these clean sources of energy, which is in line with what is necessary from a global, human, perspective, too.

No discussion of energy in Armenia is complete without mention of the Medzamor (Metsamor) nuclear power plant. This facility, originally placed into service in 1976, has had its life extended through upgrades, but will soon have to be shut down. Recall that it is of the same design as the one which experienced a meltdown in Chernobyl, Ukraine. There is chatter about one more extension. What’s even worse is the discussion of building a new nuclear power plant. The extreme amount of damage nuclear power plant accidents (as low probability as those may be) can cause renders them an unacceptable option, even more so for a country as small as the RoA. Add to that the problem of disposing the radioactive waste produced that is hazardous for tens of millions of years! So this source of power must also be replaced with renewables.

Given the unfortunate war-footing the RoA must maintain, liquid fuels for the military will be a necessity for the foreseeable future. This means petroleum based sources for gasoline, diesel, and aviation fuel (though even on this front, research is ongoing to develop plant-based, therefore renewable, sources of fuel). However, everything else can, should, and must be converted to electricity, even in the small villages that are off the country’s electric grid so that the extent of tree harvesting for heating and cooking can be reduced to a negligible amount. This raises the problem of storage, which is something confronted by everyone worldwide. The technology needed to build huge batteries to store electricity is advancing rapidly, so this shouldn’t be an obstacle for much longer. Thus, the proper policy now is to build electricity generating infrastructure, which is where the good news mentioned above finally comes into view.

One more precaution must be noted before jumping into the good news. Hydroelectric power is clean, i.e. it doesn’t generate climate destabilizing gases. But, it can have other effects, mostly biological, on the aquatic life of the streams and rivers that must be dammed to then generate electricity. Therefore it must be used cautiously and judiciously. In the RoA’s case, hydropower has two other downsides: 1- the biggest water source used to generate it comes from Lake Sevan and pulling too much water out of it can severely harm all sorts of other benefits the lake provides; 2- micro-hydro, as it’s called, produces small amounts of electricity form smaller streams for (mostly) local use, but these streams are also needed for irrigation and their overuse for power harms local agricultural production.

November seemed to be a particularly good news month. One item reported that two new wind farms, one in the north and one in the south, are to be built. Another noted the largest solar power plant in the country coming on line. Yet another was about the signing of an agreement with Masdar, a United Arab Emirates based company, for multiple solar power projects. Earlier in the year, in March, a contract for solar power generation with a German-Italian consortium had been renegotiated to secure better terms for the RoA and had gotten funding from the World Bank.

But what good is electricity if you can’t move it around to use where and when it’s needed? Even on that front there’s good news. Construction of the third set of high-voltage power lines between Iran and RoA and the fourth such set between Georgia and RoA address this aspect of the energy supply issue. Natural gas is imported from Iran and used to generate electricity then sold back Iran, too. Developing this infrastructure helps secure RoA’s position as a transit avenue for electricity, regardless of how it is generated. Thus, with hydrocarbons declining as the fuel source, the importance of Baku’s oil and gas and Turkey’s pipelines will decrease in importance while Armenia’s power lines will become relatively more important.

The only bit of somewhat bad news is that a new gas fired power plant is also being built in Yerevan. It is to be much more efficient than the current facilities. Yet building expensive infrastructure like this locks in use of natural gas/methane for decades to come. So the country will be saddled with a stranded asset (i.e. an expensive item that is no longer usable) or will continue to produce climate damaging carbon dioxide for an extended period of time. But, perhaps given the animosity of the neighbors, this diversity in energy generation is an unfortunate necessary.

All of this is progress towards RoA’s stated goal of generating 30% of its electricity from renewables (solar and wind) by 2025. Perhaps it’s time to set a new target, 50% or 60% from renewables by 2030 with an eye to not building a new nuclear power plant. This is very doable if the process of improving the insulation in residential structures that began several years ago is continued on a comprehensive scale (at the very least in the large cities).

If you’ve got contacts in Yerevan who can influence these decisions, use them to nudge energy policy ever more towards renewables. Also, if opportunities come up to aggregate small investments into large sums to build renewables-based power plants, participate and make a little money off it, too. There is at least one such arrangement, based in Cyprus, that has been investing in Artsakh’s agricultural field. It is unfortunately not open to participation from the U.S. because of some legal technicalities. But, there’s hope!


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  1. Vatche said:

    How much electric power can wind and solar generate in Armenia in the future?
    What % of the total growing need?

  2. Areg Gharabegian said:

    Theoretically, solar and wind can provide a large portion of the electricity need of Armenia but practically there are some technical issues. Areas where there are high winds are at the high elevation locations and building wind farms at those locations would not be justified economically. Few years ago, a Spanish firm generated solar and wind atlas of Armenia and according to that information, solar can produce up to 15% of the total electricity needs but then Armenia has limited flat areas that can be used for agricultural; therefore, those areas cannot be used for solar farms. Keep in mind that solar farms cannot be built at areas that have more than few degrees of slop.

  3. Areg Gharabegian said:

    I would like to identify few points that are not presented entirely accurate in the article. Most of the Armenia’s natural gas is coming from Russia and only a small percentage from Iran. Several years ago, when the gas line from Iran was under design, its size was substantially reduced under the pressure from Russia. Also, most of the gasoline is imported from Russia and not from Iran as Iran cannot even produce enough for its domestic use.
    The fourth high voltage line is being built toward Iran and not Georgia as Iran is being paid for the natural gas it provides to Armenia by electricity.
    Hydro power capacity is fully utilized and there is no more room to expand. I would say in some areas it is over exploited and that is the reason that some of the small hydro plants are not able to operate at their full capacity. A good example are the ones on Yeghegis River. In my opinion, several of those need to be demolished so others can operate at their full capacity. Electricity produced by the small hydro power plans cannot be used locally but they are obligated to sell the electricity to the electrical grid. This is the case with other countries including US.
    Almost the entire country is connected to the electrical grid and about 90% to the natural gas. But poor villagers are not able to afford using gas or electricity for heating; therefore, they cut trees for their needs. When I was with the Ministry of Nature Protection, we were working on a plan to get a large grant to make houses at the villages thermally efficient to reduce the need for wood, but I do not think that the new government is proceeding with that plan.
    Based on the Renewable Energy Road Map for Armenia that was developed few years ago, renewable energy cannot be the base load for the country and it needs nuclear of thermal for the base load. Presently hydro is about 33% of the electricity generation and there is no more room to grow.
    Medzamor is NOT at the same design as Chernobyl. Medzamor is using heavy water but Chernobyl was graphite. Medzamor cannot even have the issue that the Japanese plant had as the safety water tank uses manual valve and not electricity like the Japanese plan. Medzamor is an old plan but it is a safe plant in accordance to the international standards and its operation is a matter of national security. If they had not shut down Medzamor in 1988 for no technical reason but just purely based on public pressure, Armenia would have not collapsed economically and get in to the dark days of early 90s from which the country has not yet fully recovered.