Network for Transport Measures

Air travel baselines 2018

Revision for “Air travel baselines 2018” created on May 9, 2018 @ 18:12:24

Air travel baselines 2018
These baselines are based on data available in NTM<em>Calc 4.0, </em><em>literature reviews and expert interviews</em><em>. </em>The settings aim to reflect on general air travel. In general we recommend use of real data if available at sufficient quality. NTM default data are conservatively assessed and should if used thereby not enable low emission calculations. Furthermore they should promote transport suppliers to present their real data in relation to NTM default data, hence being used in the travel service procurement process. Providing default data for air travelwill by definition entail an element of incorrect emissions and energy use assessment. The main reason is that air emission factors are not linear with distance: Flying longer distance requires more fuel which adds to gross weight and thereby increases environmental impact itself. In effect this means that every individual flight have its specific emissions. Another aspect is that the general flying cycle include lift and take-off, cruising and descend. Since the relative impact from cruising is lower than lift and take off means that shorter flights should have a relatively higher impact per shipment. For this assessment the emissions on high altitude is considered equal to emissions at ground level. This question is controversial as many climate experts claim that high altitude GHG-emissions should be higher than the actual emissions. In order to take this into consideration in a practical way, CO2-emissions are multiplied by a factor (radiative forcing index) linked to altitude. Long distance flights are normally at higher altitude than regional flights. This factor is set differently by different experts at 1-5 depending on flying altitude and underlying physics. At this stage NTM does not include this factor for default aircrafts. The below data is based on NTMCalc 4.0 and includes range based average aircrafts on a specified distance.  The range based average aircrafts are a mix of reasonable aircrafts for different distances. For a more specific calculation it should be carried out based on real data from supplier or actual settings of aircraft used in NTMCalc. <img class="alignnone size-full wp-image-2307" src="" alt="" width="1636" height="236" /> <h3><strong>Clarifications and abbreviations</strong></h3> <strong>NTM data</strong> Describes type of aircraft. Default passenger aircrafts within NTMCalc are generically derived through different specific aircrafts: <span style="text-decoration: underline;">Regional Sweden</span> Saab 340, Fokker 50, Saab 2000 and B 737 - 600 <span style="text-decoration: underline;">Regional</span> A 320, ATR 72-100 and Avro RJ-100 <span style="text-decoration: underline;">Continental</span> B 737 – 800,  A 320, A321 – 200 and CRJ – 900 <span style="text-decoration: underline;">Intercontinental</span> B 757 – 200,  A 330 and A 340 - 300 <strong>Distance range</strong> Describes typical ranges for the aircraft type <strong>Calculation distance</strong> Refers to actual distance when calculating emissions <strong>Energy</strong> Use of energy, including fuel production/ distribution and the combustion (wtw). Only combustion is ttw. <strong>CO2e</strong> Emissions of carbon dioxide equivalents including fuel production, distribution and the combustion (wtw). <strong>CO2 fossil</strong> Emissions of fossil carbon dioxide in the combustion phase (ttw). <h3><strong>Sources</strong></h3> NTMCalc 4.0; <a title="" href=""></a> &nbsp;

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May 9, 2018 @ 18:12:24 NTM
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