[Code of Federal Regulations] [Title 40, Volume 30] [Revised as of July 1, 2004] From the U.S. Government Printing Office via GPO Access [CITE: 40CFR1051.245] [Page 618-619] TITLE 40--PROTECTION OF ENVIRONMENT CHAPTER I--ENVIRONMENTAL PROTECTION AGENCY (CONTINUED) PART 1051_CONTROL OF EMISSIONS FROM RECREATIONAL ENGINES AND VEHICLES --Table of Contents Subpart C_Certifying Engine Families Sec. 1051.245 How do I demonstrate that my engine family complies with evaporative emission standards? (a) For certification, your engine family is considered in compliance with the evaporative emission standards in subpart B of this part if you do either of the following: (1) You have test results showing permeation emission levels from the fuel tanks and fuel lines in the family are at or below the standards in Sec. 1051.110 throughout the useful life. (2) You comply with the design specifications in paragraph (e) of this section. (b) Your engine family does not comply if any fuel tank or fuel line representing that family has test results showing emission levels above the standards. (c) To compare emission levels with the emission standards, apply deterioration factors (to three significant figures) to the measured emission levels. The deterioration factor is a number that shows the relationship between emissions at the end of useful life and at the low- hour test point. For permeation emissions, the deterioration factor is the difference between evaporative emissions at the end of useful life and evaporative emissions at the low-hour test point. Adjust the official emission results for each tested vehicle at the selected test point by adding the factor to the measured emissions. If the factor is less than zero, use zero. (1) Section 1051.515 specifies how to test your fuel tanks to develop deterioration factors that estimate the change in emissions over your vehicle's full useful life. Small-volume manufacturers may use assigned deterioration factors that we establish. Apply the deterioration factors as follows: (i) Calculate the deterioration factor from emission tests performed before and after the durability tests as described in Sec. 1051.515(c) and (d) and using good engineering judgment. The durability tests described in Sec. 1051.515(d) represent the minimum requirements for determining a deterioration factor. You may not use a deterioration factor [[Page 619]] that is less than the difference between evaporative emissions before and after the durability tests as described in Sec. 1051.515(c) and (d). (ii) Do not apply the deterioration factor to test results for tanks that have already undergone these durability tests. (2) Determine the deterioration factor for fuel lines using good engineering judgment. (d) After adjusting the emission levels for deterioration, round them to the same number of decimal places as the emission standard. Compare the rounded emission levels to the emission standard for each test vehicle. (e) You may demonstrate for certification that your engine family complies with the evaporative emission standards by demonstrating that you use the following control technologies: (1) For certification to the standards specified in Sec. 1051.110(a) with the control technologies shown in the following table: Table 1 of Sec. 1051.245--Design-certification Technologies for Controlling Tank Permeation ------------------------------------------------------------------------ Then you may design- If the tank permeability control technology certify with a tank is . . . emission level of . . . ------------------------------------------------------------------------ (i) A metal fuel tank with no non-metal 1.5 g/m 2/day. gaskets or with gaskets made from a low- permeability material 1. (ii) A metal fuel tank with non-metal 1.5 g/m 2/day. gaskets with an exposed surface area of 1000 mm 2 or less. ------------------------------------------------------------------------ \1\ Permeability of 10 g/m 2/day or less according to ASTM D 814-95 (incorporated by reference in Sec. 1051.810). (2) For certification to the standards specified in Sec. 1051.110(b) with the control technologies shown in the following table: Table 2 of Sec. 1051.245.--Design-Certification Technologies for Controlling Fuel-Line Permeation ------------------------------------------------------------------------ Then you may design- If the fuel-line permeability control certify with a fuel line technology is . . . permeation emission level of . . . ------------------------------------------------------------------------ (i) Hose meeting Category 1 permeation 15 g/m \2\/day. specifications in SAE J2260 (incorporated by reference in Sec. 1051.810). (ii) Hose meeting the R11-A or R12 15 g/m \2\/day. permeation specifications in SAE J30 (incorporated by reference in Sec. 1051.810). ------------------------------------------------------------------------ (3) We may establish additional design certification options where we find that new test data demonstrate that the use of other technology designs will ensure compliance with the applicable emission standards. [67 FR 68347, Nov. 8, 2002, as amended at 69 FR 2442, Jan. 15, 2004]