40 C.F.R. § 1065.270

Current through November 30, 2024
Section 1065.270 - Chemiluminescent NO[X] analyzer
(a)Application. You may use a chemiluminescent detector (CLD) to measure NOX concentration in raw or diluted exhaust for batch or continuous sampling. We generally accept a CLD for NOX measurement, even though it measures only NO and NO2, when coupled with an NO2-to-NO converter, since conventional engines and aftertreatment systems do not emit significant amounts of NOX species other than NO and NO2. Measure other NOX species if required by the standard-setting part. While you may also use other instruments to measure NOX, as described in § 1065.272 , use a reference procedure based on a chemiluminescent detector for comparison with any proposed alternate measurement procedure under § 1065.10 .
(b)Component requirements. We recommend that you use a CLD that meets the specifications in Table 1 of § 1065.205 . Note that your CLD-based system must meet the quench verification in § 1065.370 and it must also meet the linearity verification in § 1065.307 . You may use a heated or unheated CLD, and you may use a CLD that operates at atmospheric pressure or under a vacuum.
(c)NO2-to-NO converter. Place upstream of the CLD an internal or external NO2-to-NO converter that meets the verification in § 1065.378 . Configure the converter with a bypass line if it is needed to facilitate this verification.
(d)Humidity effects. You must maintain all CLD temperatures to prevent aqueous condensation. If you remove humidity from a sample upstream of a CLD, use one of the following configurations:
(1) Connect a CLD downstream of any dryer or chiller that is downstream of an NO2-to-NO converter that meets the verification in § 1065.378 .
(2) Connect a CLD downstream of any dryer or thermal chiller that meets the verification in § 1065.376 .
(e)Response time. You may use a heated CLD to improve CLD response time.

40 C.F.R. §1065.270

70 FR 40516 , July 13, 2005, as amended at 73 FR 37300 , June 30, 2008; 76 FR 57442 , Sept. 15, 2011; 79 FR 23761 , Apr. 28, 2014
89 FR 29796 , 6/21/2024