Code of Federal Regulations (Last Updated: November 8, 2024) |
Title 40 - Protection of Environment |
Chapter I - Environmental Protection Agency |
SubChapter U - Air Pollution Controls |
Part 1036 - Control of Emissions from New and in-Use Heavy-Duty Highway Engines |
Subpart C - Certifying Engine Families |
§ 1036.235 - Testing requirements for certification.
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§ 1036.235 Testing requirements for certification.
This section describes the emission testing you must perform to show compliance with the greenhouse gas emission standards in § §§ 1036.104 and 1036.108. When testing hybrid powertrains substitute “hybrid powertrain” for “engine” as it applies to requirements for certification.
(a) Select a single and configure one or two emission-data engine engines from each engine family as specified in 40 CFR part 86. The follows:
(1) You may use one engine for criteria pollutant testing and a different engine for greenhouse gas emission testing, or you may use the same engine for all testing.
(2) For criteria pollutant emission testing, select the engine configuration with the highest volume of fuel injected per cylinder per combustion cycle at the point of maximum torque—unless good engineering judgment indicates that a different engine configuration is more likely to exceed (or have emissions nearer to) an applicable emission standard or FEL. If two or more engines have the same fueling rate at maximum torque, select the one with the highest fueling rate at rated speed. In making this selection, consider all factors expected to affect emission-control performance and compliance with the standards, including emission levels of all exhaust constituents, especially NOX and PM. To the extent we allow it for establishing deterioration factors, select for testing those engine components or subsystems whose deterioration best represents the deterioration of in-use engines.
this(3) For greenhouse gas emission testing, the standards of this part apply only with respect to emissions measured from
ethe tested configuration and other configurations identified in § 1036.205(
el)(2). Note that configurations identified in § 1036.205(
. Whetherl)(2) are considered to be “tested configurations”
actually testedwhether or not you
test them for certification. However, you must apply the same (or equivalent) emission controls to all other engine configurations in the engine family. In other contexts, the tested configuration is sometimes referred to as the “parent configuration”, although the terms are not synonymous.
(b) Test your emission-data engines using the procedures and equipment specified in subpart F of this part. In the case of dual-fuel and flexible-fuel engines, measure emissions when operating with each type of fuel for which you intend to certify the engine.
Note: Measurement of criteria emissions from flexible-fuel engines generally involves operation with the fuel mixture that best represents in-use operation, or with the fuel mixture with the highest emissions.) Measure(
1) For criteria pollutant emission testing, measure NOX, PM, CO, and NMHC emissions using each duty cycle specified in § 1036.104.
using the specified duty cycle(s), including cold-start and hot-start testing as specified in 40 CFR part 86, subpart N. The(2) For greenhouse gas emission testing, measure CO2, CH4, and N2O emissions
1; the following provisions apply regarding test cycles for demonstrating compliance with tractor and vocational standards:
(
applicablei) If you are certifying the engine for use in tractors, you must measure CO2 emissions using the
501,SET duty cycle specified in § 1036.
specified510, taking into account the interim provisions in § 1036.150(s), and measure CH4 and N2O emissions using the
3FTP transient cycle.
2(
specifiedii) If you are certifying the engine for use in vocational applications, you must measure CO2, CH4, and N2O emissions using the
501appropriate FTP transient duty cycle, including cold-start and hot-start testing as specified in § 1036.
512.
(
from both SETiii) You may certify your engine family for both tractor and vocational use by submitting CO2 emission data
transient cycle testing andand
4specifying FCLs for both SET and FTP transient duty cycles.
(
iv) Some of your engines certified for use in tractors may also be used in vocational vehicles, and some of your engines certified for use in vocational may be used in tractors. However, you may not knowingly circumvent the intent of this part (to reduce in-use emissions of CO2) by certifying engines designed for tractors or vocational vehicles (and rarely used in the other application) to the wrong cycle. For example, we would generally not allow you to certify all your engines to the SET duty cycle without certifying any to the FTP transient cycle.
((c) We may perform confirmatory testing by measuring emissions from any of your emission-data engines. If your certification includes powertrain testing as specified in § 1036.630, this paragraph (c) also applies for the powertrain test results.
(1) We may decide to do the testing at your plant or any other facility. If we do this, you must deliver the engine to a test facility we designate. The engine you provide must include appropriate manifolds, aftertreatment devices, electronic control unitsECMs, and other emission-related components not normally attached directly to the engine block. If we do the testing at your plant, you must schedule it as soon as possible and make available the instruments, personnel, and equipment we need.
(2) If we measure emissions on your engine, the results of that testing become the official emission results for the engine as specified in this paragraph (c). Unless we later invalidate these data, we may decide not to consider your data in determining if your engine family meets applicable requirements in this part.
(3) Before we test one of your engines, we may set its adjustable parameters to any point within the physically practically adjustable ranges (see § 1036.115(f)).
(4) Before we test one of your engines, we may calibrate it within normal production tolerances for anything we do not consider an adjustable parameter. For example, we may calibrate it within normal production tolerances for an engine parameter that is subject to production variability because it is adjustable during production, but is not considered an adjustable parameter (as defined in § 1036.801) because it is permanently sealed. For parameters that relate to a level of performance that is itself subject to a specified range (such as maximum power output), we will generally perform any calibration under this paragraph (c)(4) in a way that keeps performance within the specified range.
(5) We For greenhouse gas emission testing, we may use our emission test results for steady-state, idle, cycle-average and powertrain fuel maps defined in § 1036.503505(b) as the official emission results. We will not replace individual points from your fuel map.
(i) We will determine fuel masses, mfuel[cycle], and mean idle fuel mass flow rates, ṁ̅fuelidle, if applicable, using the method both direct and indirect measurement. We will determine the result for each test point based on carbon balance error verification as described in § 1036.535(h)g)(3)(i) and (ii).
(ii) We will perform this comparison using the weighted results from GEM, using vehicles that are appropriate for the engine under test. For example, we may select vehicles that the engine went into for the previous model year.
(iii) If you supply cycle-average engine fuel maps for the highway cruise cycles instead of generating a steady-state fuel map for these cycles, we may perform a confirmatory test of your engine fuel maps for the highway cruise cycles by either of the following methods:
(A) Directly measuring the highway cruise cycle-average fuel maps.
(B) Measuring a steady-state fuel map as described in this paragraph (c)(5) of this section and using it in GEM to create our own cycle-average engine fuel maps for the highway cruise cycles.
(iv) We will replace fuel maps as a result of confirmatory testing as follows:
(A) Weight individual duty cycle results using the vehicle categories determined in paragraph (c)(5)(i) of this section and respective weighting factors in Table 1 of 40 CFR 1037.510(c) to determine a composite CO2 emission value for each vehicle configuration; then repeat the process for all the unique vehicle configurations used to generate the manufacturer's fuel maps.
(B) The average percent difference between fuel maps is calculated using the following equation:
Where:
i = an indexing variable that represents one individual weighted duty cycle result for a vehicle configuration.
N = total number of vehicle configurations.
eCO2compEPAi = unrounded composite mass of CO2 emissions in g/ton-mile for vehicle configuration i for the EPA confirmatory test.
eCO2compManui = unrounded composite mass of CO2 emissions in g/ton-mile for vehicle configuration i for the manufacturer-declared map.
(C) Where the unrounded average percent difference between our composite weighted fuel map and the manufacturer's is greater than at or equal to below 0%, we will not replace the manufacturer's maps, and we will consider an individual engine to have passed the fuel map confirmatory test.
.
(6) We may perform confirmatory testing with an engine dynamometer to simulate normal engine operation to determine whether your emission-data engine meets off-cycle emission standards. The accuracy margins described in § 1036.420(a) do not apply for such laboratory testing.
(d) You may ask to use carryover emission data from a previous model year instead of doing new tests, but only if all the following are true:
(1) The engine family from the previous model year differs from the current engine family only with respect to model year, items identified in § 1036.225(a), or other characteristics unrelated to emissions. We may waive this criterion for differences we determine not to be relevant.
(2) The emission-data engine from the previous model year remains the appropriate emission-data engine under paragraph (ba) of this section.
(3) The data show that the emission-data engine would meet all the requirements that apply to the engine family covered by the application for certification.
(e) We may require you to test a second engine of the same configuration in addition to the engine engines tested under paragraph (a) of this section.
(f) If you use an alternate test procedure under 40 CFR 1065.10 and later testing shows that such testing does not produce results that are equivalent to the procedures specified in subpart F of this part, we may reject data you generated using the alternate procedure.
[81 FR 74011, Oct. 25, 2016, as amended at 86 FR 34378, June 29, 2021]
(g) We may evaluate or test your engines to determine whether they have a defeat device before or after we issue a certificate of conformity. We may test or require testing on any vehicle or engine at a designated location, using driving cycles and conditions that may reasonably be expected in normal operation and use to investigate a potential defeat device. If we designate an engine's AECD as a possible defeat device, you must demonstrate to us that that the AECD does not reduce emission control effectiveness when the engine operates under conditions that may reasonably be expected in normal operation and use, unless one of the specific exceptions described in § 1036.115(h) applies.