Blended wing body aircraft

The invention claimed is: 1. A blended wing body aircraft comprising: an airfoil shaped center body; and a pair of wings extending from opposed sides of the center body; wherein the aircraft has a span direction, and a maximum half-span length defined along the span direction from a centerline of the center body to a tip of one of the wings; wherein a normalized half-span value for each profile section of the aircraft is defined by a ratio between a distance along the span direction from the centerline to the profile section, and the maximum half-span length; wherein each profile section of the aircraft has a thickness ratio defined by a ratio between a thickness of the profile section and a chord length of the profile section, the thickness ratio having a nominal value within the thickness ratio range set forth in Table 1 for at least each profile section corresponding to the normalized half-span values from 0 to 0.2. 2. The blended wing body aircraft according to claim 1 , wherein the aircraft has a maximum chord length defined longitudinally by the center body, and wherein each profile section of the aircraft has a normalized chord defined by a ratio between the chord length of the profile section and the maximum chord length, the normalized chord having a nominal value within the normalized chord range set forth in Table 1 for at least each profile section corresponding to the normalized half-span values from 0.15 to 0.3. 3. The blended wing body aircraft according to claim 2 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 1 for at least each profile section corresponding to the normalized half-span values from 0.15 to 0.5. 4. The blended wing body aircraft according to claim 2 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 1 for all the normalized half-span values. 5. The blended wing body aircraft according to claim 2 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 1 and the nominal value of the thickness ratio is within the thickness ratio range set forth Table 1 for all the normalized half-span values. 6. The blended wing body aircraft according to claim 2 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 2 for at least each profile section corresponding to the normalized half-span values from 0.15 to 0.3. 7. The blended wing body aircraft according to claim 2 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 3 for at least each profile section corresponding to the normalized half-span values from 0.15 to 0.3. 8. The blended wing body aircraft according to claim 1 , wherein the nominal value of the thickness ratio is within the thickness ratio range set forth in Table 1 for at least each profile section corresponding to the normalized half-span values from 0 to 0.3. 9. The blended wing body aircraft according to claim 1 , wherein the nominal value of the thickness ratio is within the thickness ratio range set forth in Table 1 for all the normalized half-span values. 10. The blended wing body aircraft according to claim 1 , wherein the nominal value of the thickness ratio is within the thickness ratio range set forth in Table 2 for at least each profile section corresponding to the normalized half-span values from 0 to 0.2. 11. The blended wing body aircraft according to claim 1 , wherein the nominal value of the thickness ratio is within the thickness ratio range set forth in Table 3 for at least each profile section corresponding to the normalized half-span values from 0 to 0.2. 12. The blended wing body aircraft according to claim 1 , wherein the center body includes an interior cabin having a usable volume of at most 4500 ft 3 . 13. The blended wing body aircraft according to claim 12 , wherein the interior cabin has a maximum length defined longitudinally and a maximum width defined perpendicularly to the maximum length, a cabin aspect ratio of the maximum length to the maximum width being at most 4. 14. The blended wing body aircraft according to claim 1 , wherein a reference line is defined perpendicularly to a direction defined by a maximum thickness of the center body at a mid-point of the maximum thickness, the reference line extending fore-to-aft in relation to the center body, a part of each of the wings having a leading edge located a first distance below the reference line, the first distance being measured along the direction defined by the maximum thickness and corresponding to at least 10% of the maximum thickness. 15. The blended wing body aircraft according to claim 1 , wherein: a reference line is defined perpendicularly to a direction defined by a maximum thickness of the center body at a mid-point of the maximum thickness, the reference line extending fore-to-aft in relation to the center body; and each profile section of the aircraft has a leading edge having a normalized height with respect to the reference line, the normalized height corresponding to a ratio of a distance from the reference line being measured along the direction defined by the maximum thickness to the maximum thickness, the normalized height having a nominal value within the leading edge normalized height range set forth in Table 4 for at least each profile section corresponding to the normalized half-span values from 0 to 0.3. 16. A blended wing body aircraft comprising: an airfoil shaped center body; and a pair of wings extending from opposed sides of the center body; wherein the aircraft has a maximum chord length defined longitudinally by the center body; wherein the aircraft has a span direction, and a maximum half-span length defined along the span direction from a centerline of the center body to a tip of one of the wings; wherein a normalized half-span value for each profile section of the aircraft is defined by a ratio between a distance along the span direction from the centerline to the profile section, and the maximum half-span length; wherein each profile section of the aircraft has a normalized chord defined by a ratio between a chord length of the profile section and the maximum chord length, the normalized chord having a nominal value within the normalized chord range set forth in Table 1 for at least each profile section corresponding to the normalized half-span values from 0.15 to 0.3; and wherein a ratio between a maximum thickness of the center body at the centerline and the chord length along the centerline has a nominal value of at least 16%. 17. The blended wing body aircraft according to claim 16 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 1 for at least each profile section corresponding to the normalized half-span values from 0.15 to 0.5. 18. The blended wing body aircraft according to claim 16 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 1 for all the normalized half-span values. 19. The blended wing body aircraft according to claim 16 , wherein the nominal value of the normalized chord is within the normalized chord range set forth in Table 2 for at least each profile section corresponding to the normalized half-span values from 0.15 to 0.3. 20. The blended wing body aircraft according to claim 16 , wherein the nominal value of the normalized chord is within the normalize