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    <p align="left"><font face="Arial"><strong><small>About The Author:</small></strong></font></p>
      <p align="left"><font face="Arial"><!--webbot bot="HTMLMarkup" startspan --><A name=olsoinfo><!--webbot bot="HTMLMarkup" endspan --></font><font size="2">Joseph 
      P. Mathew is the President of Hybrid Energy Advisors, Inc.&nbsp; Hybrid Energy 
      Advisors, Inc., based in Houston, TX, </font><span lang="EN">
      <font size="2">provides independent business advisory services to the 
      natural gas industry and related markets.&nbsp; Their advisory services include 
      business development, risk management, asset and corporate valuation and 
      optimization analysis, corporate, project and public finance, general 
      industry research and analysis, and corporate credit risk analysis.</font></span></p>
      <p align="left"><font size="2">For more detail, please visit their website 
      at
      <a href="http://www.hybrid-advisors.com/" style="color: blue; text-decoration: underline; text-underline: single">
      www.hybrid-advisors.com</a> or contact Hybrid Energy Advisors, Inc. 
      directly by e-mail at
      <a href="mailto:[email protected]" style="color: blue; text-decoration: underline; text-underline: single">
      [email protected]</a> or call 713-666-9007.</font></p>
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      <font SIZE="6"><p><b>Liquified Natural Gas:<br>
    What <i>IS</i> It All About?<br>
    </b></font><b><i>Joseph P. Mathew<br>
    President<br>
    Hybrid Energy Advisors, Inc</i><span style="font-size: 12.0pt">.</span></b><strong><br>
    </strong><font face="Arial" size="2">(<em>originally published by PMA OnLine 
    Magazine: 2003/01</em>)</font></p>
    <p><font FACE="Palatino" SIZE="2">&nbsp;</p>
      </font>
      <p class="MsoNormal" style="text-align:justify">The natural gas industry 
      is in constant evolution. A few general observations in the current market 
      are:<i>&nbsp;</i></p>
    <ul style="margin-top: 0in; margin-bottom: 0in" type="disc">
      <li class="MsoNormal" style="text-align: justify"><font face="Arial"><i>
      greater projected natural gas-fired electricity generation capacity<br>
&nbsp;</i></font></li>
      <li class="MsoNormal" style="text-align: justify"><font face="Arial"><i>
      relatively small amount of natural gas storage to provide price buffers<br>
&nbsp;</i></font></li>
      <li class="MsoNormal" style="text-align: justify"><font face="Arial"><i>
      increasing projected demand for industrial, commercial and residential 
      users<br>
&nbsp;</i></font></li>
      <li class="MsoNormal" style="text-align: justify"><font face="Arial"><i>
      unpredictable weather patterns<br>
&nbsp;</i></font></li>
      <li class="MsoNormal" style="text-align: justify"><font face="Arial"><i>
      various demand-driven transportation capacity constraints<br>
&nbsp;</i></font></li>
      <li class="MsoNormal" style="text-align: justify"><font face="Arial"><i>
      higher marginal cost of procuring reliable natural gas supply</i></font></li>
    </ul>
    <p class="MsoNormal" style="text-align:justify">Given the confluence of the 
    above observations, the United States is going to feel increasing upward gas 
    price pressure, all other things being equal.</p>
    <p class="MsoNormal" style="text-align:justify">So what can mitigate this 
    effect?&nbsp; The answer is new natural gas supply and its reliable 
    transportation to consuming markets.&nbsp; Although the answer appears simple, 
    the process of getting to a viable solution requires intensive study of 
    supply alternatives.&nbsp; One source is liquefied natural gas, or LNG.</p>
    <p class="MsoNormal" style="text-align:justify"><u><b>LNG Backgrounder<br>
    </b></u>LNG is typically created using a three-step process.&nbsp; First, 
    subterranean gaseous-form natural gas is &#8220;frozen&#8221; into a liquid state 
    through a complex cryogenic process (called &#8220;<i>liquefaction</i>&#8221;) involving 
    temperatures as low as -275 degrees Fahrenheit.&nbsp; Second, after the gas is 
    liquefied, it can be stored in cryogenic holding tanks or pumped directly 
    from the cooling vestibule into special insulated transportation vessels, 
    such as railcars, trucks, or ships.&nbsp; Third, upon delivery of the vessel to 
    its final destination, LNG is pumped from the vessel into either another 
    cryogenic storage tank for later delivery or directly into a re-gasification 
    unit that uses sea water or air to reheat the LNG in order to convert it 
    back into gaseous natural gas.&nbsp; Once this LNG turns into gaseous gas, it is 
    pumped through a pipeline system that leads to an ultimate market.</p>
    <p class="MsoNormal" style="text-align:justify">It sounds fluid, but usually 
    is not quite as simple.&nbsp; Raw natural gas can be &#8220;heavy&#8221; (also called &#8220;wet&#8221; 
    or &#8220;hot&#8221; gas) with various higher carbon molecules.&nbsp; These heavier particles 
    create a higher heat content (ranging from 1,090-1,320 btu/cf) than 
    permissible by many pipeline distribution standards. Although this heavier 
    form of gas can be frozen, stored and shipped, the extra heat content may 
    have to be &#8220;stripped off&#8221; prior to entering another distribution system to 
    conform to the gas heat standards of the pipeline network.</p>
    <p class="MsoNormal" style="text-align:justify">In the United States, state 
    public utility commissions (PUCs) oversee gas pipeline heat content 
    standards.&nbsp; It is estimated that the average heat content of current 
    distributable gas in the United States is approximately 1030-1060 btu/cf.&nbsp;</p>
    <p class="MsoNormal" style="text-align:justify">Any gas disseminated into a 
    system that does not conform to these independent standards will not be 
    permitted into the inherent system without the heavier particles being 
    stripped (through a process called &#8220;<i>fractionation</i>&#8221;) or diluted with 
    inert gas.&nbsp; This process adds an additional cost to the overall project.&nbsp; 
    Fractionation can occur either upstream or downstream, but is usually 
    contingent upon which location is most cost effective, politically sound, 
    environmental-friendly or where there may be access to a viable purchasing 
    market for the fractionated heavier gas.&nbsp; Fractionated gas products can 
    either be marketed or injected back into the ground.&nbsp; Any marketing and 
    sales of this heavier gas can serve as a revenue enhancement of or a 
    contra-expense item to the total project.&nbsp;</p>
    <p class="MsoNormal" style="text-align:justify"><b><u>The LNG Opportunity<br>
    </u></b>Historically, the price of LNG has been prohibitive when compared to 
    United States gas prices.&nbsp; Costs of delivery ranged in the $2.50 to $3.00/mmbtu 
    range (not including the netback price to the owner of the stranded gas 
    reserves from which the gas was initially purged).&nbsp; Assuming a $1.00/mmbtu 
    netback to such owner, a total deliverable gas price of around $3.50 to 
    $4.00/mmbtu could possibly be attained on a cost basis.&nbsp;</p>
    <p class="MsoNormal" style="text-align:justify">In the 1970&#8217;s and 1980&#8217;s, 
    physical gas prices had spiked in the United States, feeding fears of gas 
    shortage.&nbsp; This phenomenon inspired the construction of four major LNG 
    import re-gasification terminals, all on the United States East Coast 
    (Everett, MA, Elba Island, GA, Cove Point, MD, and Lake Charles, LA in total 
    constituting approximately 3 bcf/day of installed capacity).&nbsp; </p>
    <p class="MsoNormal" style="text-align:justify">However, deregulation led 
    producers of gas to become motivated to explore and develop newer, easy 
    access gas reserves in the mountain states and the Gulf Coast, flooding the 
    market with excess gas inventory.&nbsp; This was exacerbated by Canadian policy 
    changes that allowed increased gas exports, in effect emigrating additional 
    low-cost gas from the Western Canadian Sedimentary Basin to compete for 
    demand in the United States.&nbsp; The result was a gas supply &#8220;bubble&#8221; which 
    kept prices very low for quite some time.&nbsp; How times have changed.</p>
    <p class="MsoNormal" style="text-align:justify">Last year, the Department of 
    Energy&#8217;s Energy Information Administration (EIA) anticipated medium-term 
    Henry Hub gas prices to range from $3.25/mmbtu to $3.50/mmbtu, and long-term 
    gas prices to be close to $4.00/mmbtu.</p>
    <p class="MsoNormal" style="text-align:justify">In analytically forecasting 
    natural gas prices, one can label the expected gas price a &#8220;dependent&#8221; 
    variable and the underlying fundamentals as &#8220;independent&#8221; variables that 
    influence the dependent variable. Using quantitative techniques, Hybrid 
    Energy Advisors, Inc. (HEAI) predicted in the spring of 2002 that Henry Hub 
    financial prices, the dependent variable, would range between $3.35 and 
    $4.10 through the winter months of 2002/2003.&nbsp; They also calculated ten-year 
    price forecasts of $2.25-$2.80/mmbtu during the summer months and 
    $3.70-$4.25/mmbtu during the winter months. HEAI believes that ten-year city 
    gate prices of gas on the West Coast and Midwest United States will trade 
    approximately equivalent (&#8220;flat&#8221;) to Henry Hub prices, and upper East Coast 
    prices to trade at approximately 45-65 basis points (cents/mmbtu) above 
    Henry Hub prices.&nbsp; These forecasts include a greater gas import as a 
    percentage of total domestic gas. HEAI believes that by the year 2010, 
    approximately 6-8% of the total US gas supply will come from LNG produced 
    from foreign stranded gas reserves.</p>
    <p class="MsoNormal" style="text-align:justify">Today the total cost of LNG 
    production has been quite streamlined and reduced to approximately $2.00/mmbtu 
    due to competition and improvements in technology.&nbsp; Much of the technology 
    pertaining to lower-cost land-based terminals and offshore and ship-board 
    re-gasification units are still relatively unproven.&nbsp; However, major energy 
    industry players and engineering firms do not foresee problems with the 
    design and implementation of these methods.</p>
    <p class="MsoNormal" style="text-align:justify">Therefore, assuming a 
    netback of $1.00/mmbtu, the total delivered price of approximately $3.00/mmbtu 
    can now be theoretically achieved.&nbsp; This LNG price is almost $1.00/mmbtu 
    less than a decade ago.&nbsp; When comparing this new price to industry average 
    price forecasts for Henry Hub and East and West coast city gates, LNG can 
    certainly be considered an economical source of natural gas supply.</p>
    <p class="MsoNormal" style="text-align:justify"><b><u>Major supply and major 
    demand zones<br>
    </u></b>New technologies in LNG and the upward gas price trends are creating 
    the opportunities for re-gasification terminals to spring up in a variety of 
    areas.&nbsp; These areas include the United States East and West Coasts, 
    Northwest Mexico, Italy, Germany, England, Spain and even emerging markets 
    such as China and India.&nbsp; Asian counterparties such as Japan, Korea and 
    Taiwan, who have historically constituted approximately 70% of demand in the 
    LNG market, are also building new terminals.</p>
    <p class="MsoNormal" style="text-align:justify">The gas supply to meet 
    expected growth in LNG demand is from stranded gas reserves associated with 
    crude oil production that historically did not have much hope of coming to 
    market.&nbsp; These reserves are typically owned and operated by many major 
    worldwide energy companies. Longstanding production zones include Algeria, 
    Libya, Nigeria, Qatar, Malaysia, Australia, Brunei, Indonesia and the United 
    States (Alaska, Cook Inlet).&nbsp; Many proposed new areas of liquefaction 
    include Norway, Trinidad &amp; Tobago, Venezuela, Bolivia and various countries 
    of the Middle East.&nbsp;</p>
    <p class="MsoNormal" style="text-align:justify">The ideal economic scenario 
    when evaluating which terminal projects make sense are contingent upon 
    studies related to where and how much gas demand is going to be, &nbsp;where the 
    supply will come from, and how much gas to produce.</p>
    <p class="MsoNormal" style="text-align:justify"><b><u>Not so Fast<br>
    </u></b>While natural gas consumption growth rates are expected to increase 
    over the next twenty years by 50% as compared to a current level of 65 bcf/day, 
    the solution to providing the supply to satiate such growth is not quite as 
    transparent as just evaluating the face-value economics of alternative 
    sources.</p>
    <p class="MsoNormal" style="text-align:justify">In any energy infrastructure 
    project, due diligence on regulatory, permitting, and environmental factors 
    is quite important.&nbsp; A hiccup in procuring the necessary political 
    approvals, permits and rights-of-way can be devastating to the economics and 
    viability of a project.&nbsp; Projects have been known to come to a dead halt, 
    much to the chagrin and expense of the lead project developer and production 
    consortium, over matters such as residential noise or particulate pollution, 
    wildlife endangerment, political vacillation, or just plain general 
    nuisance.&nbsp;</p>
    <p class="MsoNormal" style="text-align:justify">LNG re-gasification 
    terminals are viewed as large, obstructive and generally displeasing to the 
    eye for local residents and businesses.&nbsp; Although designs to bury such large 
    facilities underground have been forthcoming, general apprehension related 
    to the &#8220;don&#8217;t build in my backyard&#8221; philosophy still emphatically exists.&nbsp; 
    One mitigant to that problem is sighting the terminal off-shore or aboard 
    the LNG transport ship itself, far from residential or commercial areas.&nbsp; 
    Although such new technologies regarding offshore and ship-board 
    re-gasification is being studied and developed by a variety of industry 
    players, the educating process required with political parties is an ongoing 
    and sometimes frustrating process.</p>
    <p class="MsoNormal" style="text-align:justify">Guidelines regarding the 
    oversight, regulatory standards and environmental compliance of on-shore or 
    off-shore terminals are still in debate.&nbsp; In the United States, three of the 
    four import terminals are overseen by the FERC.&nbsp; Regulatory oversight can be 
    an issue to contend with as most merchant energy firms and pipeline 
    companies vie for ownership, control, and equity interest.&nbsp; For such market 
    participants, FERC jurisdiction impedes profitability and ease of management 
    control of the owners and its merchant gas off-take counterparties.&nbsp; Many of 
    the industry participants building and sighting these terminals contend to 
    the FERC that if they have the burden of finding, constructing, funding, and 
    permitting a terminal, they should not be subject to losing the economic 
    potential to sell such re-gasified gas into open market by subjecting the 
    capacity to a FERC-controlled &#8220;open-season&#8221;.&nbsp; After all, if one firm does 
    all of the work, why would that firm surrender the market opportunity to 
    profit from the off-take gas sales to another firm who has not incurred the 
    same &#8220;finders&#8221; costs?&nbsp; For many of these project leaders, equity ownership 
    of a FERC-jurisdiction terminal at a regulated rate of return is not 
    enough.&nbsp; They want the most facile way to attain the real &#8220;juice&#8221;. That is, 
    they prefer the sole ability to sell their upstream LNG into the interstate 
    domestic markets as gaseous gas and take merchant positions in key 
    locations.</p>
    <p class="MsoNormal" style="text-align:justify">Two other LNG-related 
    non-operational risks that are worth mentioning at this time are terrorism 
    and/or accident risk and sovereign government risk.</p>
    <p class="MsoNormal" style="text-align:justify">Firstly, the events of 
    September 11, 2001 will forever be marked in American and world history as 
    an indelible reminder that impedances to economies can come in a variety of 
    forms.&nbsp; Terrorism has been shown to be a more significant influence on 
    energy endeavors than ever before.&nbsp; With the threat of oil tanker, nuclear 
    reactor and LNG ship sabotage, political risk to sighting an on- or 
    off-shore re-gasification unit is high.&nbsp; Man-made or accidental explosion of 
    such a tanker can be catastrophic in the mind of the common person, and 
    although studies have shown that LNG volatility is much lower in its liquid 
    cooled form, the image of a giant vapor cloud can have devastating effects 
    on the human psyche and at the very least create an apocalyptic image that 
    few are willing to internalize.</p>
    <p class="MsoNormal" style="text-align:justify">Secondly, since much of the 
    gas that is being liquefied comes from foreign and third-world countries, 
    sovereign risk can be quite disenchanting as compared to reliable, 
    high-credit, highly-liquid United States gas.&nbsp; Changing governments, 
    political coups, local customs, and draconian regimes can portend 
    inconsistent supply.&nbsp; Due to this factor, price concessions are usually made 
    in relation to United States-priced gas supply, however, the sovereign risk 
    inherent in such supply must to be evaluated concomitantly with the 
    discounted pricing.</p>
    <p class="MsoNormal" style="text-align:justify"><b><u>Conclusion<br>
    </u></b>The United States is in need of additional natural gas sources based 
    on forward fundamental supply/demand and price expectations.&nbsp; LNG appears to 
    be a very viable and constantly improving choice in this regard.&nbsp; While the 
    economic viability of LNG as a necessary gas supply-stack contributor as 
    compared to Alaskan, Gulf Coast or bicoastal gas can be pointed out, 
    political, sovereign and regulatory risk can impede the progress of such 
    beneficial projects and turn what was once a supply savior into a 
    bureaucratic roundabout.</p>
    <p class="MsoNormal" style="text-align:justify">It is becoming more apparent 
    that the energy companies, United States government, FERC, and state public 
    utility commissions (PUCs) need to ally interests in figuring a pragmatic 
    goal in satisfying such projected United States gas demand growth.&nbsp; The 
    figures and analysis tell a convincing story of what is required to mitigate 
    impending natural gas shortfalls, but the real solutions need to be 
    prudently pursued by private enterprise and supported by rational local, 
    state and federal government legislation.</p>
    <p class="MsoNormal" style="text-align:justify">&nbsp;</p>
    <hr color="#FFFF00">
    <blockquote>
      <p align="left"><font face="Arial"><!--webbot bot="HTMLMarkup" startspan --><A name=olsoinfo><!--webbot bot="HTMLMarkup" endspan --></font>Joseph 
      P. Mathew is the President of Hybrid Energy Advisors, Inc.&nbsp; Hybrid Energy 
      Advisors, Inc., based in Houston, TX, <span lang="EN">provides independent 
      business advisory services to the natural gas industry and related 
      markets.&nbsp; Their advisory services include business development, risk 
      management, asset and corporate valuation and optimization analysis, 
      corporate, project and public finance, general industry research and 
      analysis, and corporate credit risk analysis.</span></p>
      <p align="left">For more detail, please visit their website at
      <a href="http://www.hybrid-advisors.com/" style="color: blue; text-decoration: underline; text-underline: single">
      www.hybrid-advisors.com</a> or contact Hybrid Energy Advisors, Inc. 
      directly by e-mail at
      <a href="mailto:[email protected]" style="color: blue; text-decoration: underline; text-underline: single">
      [email protected]</a> or call 713-666-9007.</p>
    </blockquote>
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