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  • Ethanol in Armenia

    ETHANOL IN ARMENIA
    Kendrick Wentzel

    Ethanol Producer Magazine
    http://ethanolproducer.com/article.jsp?ar ticle_id=5658&q=&page=all
    May 4 2009

    The Renewable Resources and Energy Efficiency Fund of Armenia recently
    commissioned a feasibility study to determine the possibility of
    producing ethanol in Armenia. The study, financed by World Bank as a
    grant from the Global Environment Facility, was conducted by Enertech
    International Inc. and BBI International in cooperation with DHD
    Contact LLC of Armenia.

    As a land-locked country without any significant deposits of crude oil,
    Armenia is 100 percent dependent upon fuel imports to meet a growing
    demand for gasoline. Increases in world crude oil prices are being
    passed on to and reflected at retail gasoline outlets, and prices
    for gasoline in Armenia are expected to increase at an even more
    rapid rate in the future, as long-term import contracts lapse and are
    renegotiated at higher market prices. Natural gas prices from Russia
    are expected to increase making compressed natural gas (CNG) more
    expensive and causing upward pressure on gasoline prices as well. Such
    trends will make alternative motor transport fuels such as ethanol
    more competitive in the market. Finally, ethanol for blending as a
    motor transport fuel has the potential to reduce imports of gasoline
    through displacement, reduce foreign exchange drains, increase energy
    security of supply in a traditionally unstable region of the world,
    create value from domestically grown ethanol feedstocks on surplus
    lands, create jobs in depressed rural areas, and improve local air
    quality particularly in congested urban areas.

    Feedstocks One of the key factors for determining the overall success
    of a biofuels program is the availability of appropriate feedstocks at
    attractive prices. Corn and sugarcane serve as the major feedstocks
    for current ethanol production throughout most of the world, but
    virtually any feedstock with high sugar or starch content can be
    utilized for ethanol production.

    Article Continues After Advertisement
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    Armenia's climatic conditions are not suitable for sugarcane
    production; however, there are several alternative crops suitable
    to Armenia's climate for cultivation on available agricultural land
    that is not intended for the production of food crops. In particular,
    Jerusalem artichoke has been identified as a crop with great potential
    as a feedstock for ethanol production in Armenia in the near to midterm
    future. It can be cultivated on land that is currently fallow and
    it possesses relatively high carbohydrate content, especially in
    its root tuber, thereby making it extremely suitable for ethanol
    production. Farmers grow Jerusalem artichoke for their own use,
    but there is no large scale production due to the small market for it.

    Similarly, feed corn for livestock and poultry is a suitable crop
    for the soils and micro climates found in several parts of the
    country. Utilizing a dry mill corn fractionation process, feed corn
    can be processed in such a manner as to extract all of the starches
    contained in the feedstock corn for conversion into ethanol while
    at the same time producing important animal feed co-products. The
    byproduct will have a higher percentage of protein, fats and
    carbohydrates than that found in unprocessed dry corn, which is
    currently the principal animal feed used by livestock and poultry
    producers in Armenia. Similar byproducts can also be produced using
    Jerusalem artichoke.

    SOURCE: AREG GHARABEGIAN

    Presently there is no large scale feed corn production in Armenia,
    but the Ministry of Agriculture has developed a program of increasing
    production to reduce the import and to develop a local market
    for feeding livestock. The goal is to have 14,826 acres of corn
    production in Tavush Marz in northern Armenia. The program has seen
    limited success.

    Where farmers use good techniques, the yields have been satisfactory,
    but in many cases the yields have been far below what would have
    been expected.

    The preliminary feasibility study suggested developing two very
    different types of ethanol plants: one based on an inulin extraction
    process for Jerusalem artichoke to be situated in Syunik Marz; and
    a second plant based on a dry milling process with fractionation
    utilizing feed corn grown in Tavush Marz. These two regions have high
    rural unemployment rates and microclimates suitable for the production
    of the identified feedstocks.

    There are a number of advantages and disadvantages that should be
    recognized from the outset when considering a decision on whether
    or not to implement a nationwide ethanol program. With respect to
    advantages, ethanol can be produced from domestic renewable feedstock
    sources, helps to stimulate agricultural employment in depressed
    rural areas, and can provide farmers and ethanol processing plant
    owners with a dependable revenue stream. In addition, ethanol can
    lower air emissions in major metropolitan areas when combusted as a
    motor transport fuel, can reduce overall greenhouse gas emissions,
    and can reduce foreign exchange drains on the Armenian economy.

    On the other hand, a nationwide ethanol program could face several
    hurdles and challenges. Ethanol has a lower energy content value
    compared to gasoline and could face an initial public acceptance
    hurdle. In addition, ethanol blends greater than 10 percent are
    not compatible with existing non-flexible fuel vehicles, pipeline
    infrastructure, distribution systems, or tanks and pumps at retail
    outlets. If the imported gasoline is not of a high quality or contains
    moisture, there will be performance and maintenance problems with
    automobiles that are operated on fuels mixed with ethanol, and the
    program will in all likelihood be perceived as a failure by the
    consumer public. In addition, no markets currently exist in Armenia
    for useful animal feed by-products from ethanol conversion processes.

    Potential Ethanol Market Size Table 1 (shown above) forecasts the
    ethanol production needed annually to achieve the 5 percent blending
    levels, by volume, with gasoline.

    These projections formed the basis of the decision to develop 14,000
    metric tons per year of ethanol production capacity by 2014. Therefore,
    the recommended capacity sizes for each of the two proposed plants is
    7,000 metric tons per year based on the assumption that the Armenian
    government would mandate 5 percent blending of ethanol by volume with
    gasoline by the year 2014.

    Construction of a 7,000 metric ton per year ethanol plant would cost
    $17 million to $19 million (2008 dollars) depending upon specific
    conversion technology chosen by the developer. The major variables
    for the financial analysis of a biofuel project are ethanol price,
    feedstock price, co-product price and energy costs.

    Due to the lack of reliable price information for the proposed
    feedstocks (Jerusalem artichoke and corn), the financial analysis
    was necessarily conducted by setting an acceptable rate of return
    on investment and solving for the cost of the feedstock that would
    generate this return over time. A variety of scenarios was analyzed
    to assess the sensitivity of the projected results to the different
    assumptions.

    If yields are around 40 to 45 metric tons per hectare, pricing for
    Jerusalem artichoke is expected to be approximately $50 per metric
    ton as farmers move towards more modern production practices. The
    financial model showed that the processing plant can pay up to $88
    per metric ton for Jerusalem artichoke and still achieve a return on
    investment of 15 percent.

    The 2008 price for imported feed corn into Armenia was approximately
    $400 per metric ton. This price is significantly above the world market
    price of corn, likely at least in part due to high transportation
    costs and small trading volumes. Results of the analysis indicate that
    while higher yield seeds are now being used by local farmers, the
    upward pressure on corn production costs especially from the higher
    cost of fertilizers, weed suppressants, and diesel fuel for tractors
    is offsetting enhanced revenues from higher crop yields. Farmers
    will have to beat this price if they hope to enter into long-term
    contracts with an ethanol processing plant. However, given that
    the financial model was set to achieve a minimum ROI of 15 percent,
    financial projections indicated that the processing plant could only
    afford to pay up to $393 per metric ton for feed corn and still remain
    attractive to potential investors.

    Based on these results and competitive guidelines, either plant
    could provide sufficient economic returns. The risk is perceived to
    be greater with Jerusalem artichoke due to the lack of commercial
    production experience, cost data regarding cultivation and harvest,
    and historical pricing data in the commercial marketplace. However,
    in the final analysis, such risks are common to any new dedicated
    energy crop.

    Land Availability for Feedstock Production On average, only 70 percent
    of tillable land in Armenia is presently being used. Guiding principles
    for identifying suitable land during conduct of the ethanol program
    assessment were to:

    Focus on surplus lands only

    Consider lands from the Soviet era that are not presently being
    utilized for food production and unlikely to ever be brought back
    into useful production

    Primarily concentrate on marginal lands between 1,000 and 2,400 meters
    in elevation or else saline soils that cannot be utilized for food
    production regardless of elevation

    Rule out lands that are not accessible by mechanized farm equipment
    or include endangered species of plants or animals

    An extensive study was conducted to determine the best locations for
    growing acceptable feedstocks from the perspective of prevailing
    climatic conditions, soil suitability, elevation constraints and
    possible access to irrigation. It is anticipated that the local
    farmers, not agri-businesses, would be responsible for planting
    and growing feed corn. Harvested feed corn would then be stored in
    humidity-controlled storage containers or buildings for use throughout
    the season. A study of available land for corn growing shows there
    is the capability to produce the required amount within 50 km of the
    proposed plant.

    Potential Coproduct Markets The sale of coproducts from a planned
    ethanol plant is essential to ensure the economic viability of such a
    project, especially if no direct financial subsidies will be provided
    by the government to guarantee an ethanol program's success over
    time. Potential coproducts from a Jerusalem artichoke plant include
    pulp to be used as a high carbohydrate animal feed as well as feedstock
    for combined heat and power systems. Potential coproducts from a
    corn fractionation plant include DDGS and corn oil. In addition,
    both processing plants are expected to produce dry ice and liquid
    carbon dioxide as coproducts.

    Anticipated Developmental Impacts Rural development is another
    important driver for worldwide support of biofuels. Since feedstocks
    are grown on agricultural land, increasing demand results in
    increased economic development in rural areas; however, biofuels
    policies have faced increased scrutiny in recent years. The two most
    controversial topics are the food versus fuel issue, and the actual
    level of environmental benefits accruing from ethanol programs. In
    Armenia, only unused marginal lands or surplus will be utilized and
    only non-food feedstocks will be grown for conversion into ethanol,
    unlike major ethanol programs in the United States, Europe and Brazil.

    Moreover, the proposed projects are expected to have significant
    and positive developmental impacts and benefits to Armenia. The most
    important benefits include:

    Stimulation of Employment in Depressed Rural Areas. An ethanol
    feedstock production program of this magnitude will have an instant
    and measurable positive economic and job creation impact upon the
    two most depressed parts of Armenia.

    Human Capacity Building. Most of the construction work would be
    provided by local Armenian contractors- overseen by an international
    contractor with experience in ethanol plant construction. New jobs
    would be created both directly and indirectly. These jobs will require
    new skills and training to operate and maintain the two plants.

    Technology Transfer. There has been little experience with ethanol
    processing plants for Jerusalem artichoke on a major commercial
    scale. Only small demonstration facilities using Jerusalem artichoke
    have been implemented to date. In a sense, this project will create
    a whole new industry in Armenia.

    Economic Development Benefits. Substantial tax revenues would be
    generated, as well as money spent in local rural economies.

    Environmental Impacts Considering all of the potential ethanol fuel
    cycle environmental aspects, it can be concluded that the project
    will have a favorable impact on the environment in Armenia. The main
    positive aspect of the proposed project will be the reduction of
    air pollutions. With a nationwide program goal of 5 percent ethanol
    blending, it is anticipated that carbon dioxide emissions will be
    reduced by 3,300 metric tons per year or by at least 15 percent of
    the level of such emissions in 2007. Considering a projected increase
    in the number of vehicles that will be added to the current stock in
    the future, this anticipated emissions reduction will have a tendency
    to increase over time.

    Other environmental concerns are mostly related to land use changes
    triggered by higher agricultural product prices. By historical
    averages, current prices for commodities such as corn and soybeans are
    high. The higher prices provide an incentive to increase production,
    which in many cases means expanding the amount of land used for
    agriculture. If the expansion land is currently forested, turning it
    into arable land will require deforestation resulting in environmental
    harm which will likely outweigh the benefits of biofuels for many
    years. However, ethanol production as envisioned for Armenia will
    result from greater utilization of unutilized crop lands or marginal
    lands and not result in reductions of forested lands.

    Suggested Policy Measures for Consideration Suggested government
    energy and transportation policy measures to stimulate ethanol market
    development in Armenia include the following:

    Develop a fuel standards program by 2009

    Mandate a minimum fuel blending program at 5 percent by volume by
    2014 coupled with an excise tax on imported ethanol in an effort to
    create a new industry

    Increase mandated blending requirement to 10 percent by volume by 2020

    Classify ethanol as a motor transport fuel for tax purposes rather
    than as ethanol for use in alcoholic beverages

    Institute vigorous enforcement of fuel quality standards testing at
    fuel depots and retail outlets

    Treat ethanol as a renewable energy resource

    Develop and implement a nation-wide public awareness program to
    introduce and promote the production and use of ethanol
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