HAWKINS, Senior Circuit Judge:
In these appeals, consolidated for decision,
In No. 08-72642, Montana Sulphur seeks review of the EPA's April 2008 final rule promulgating a Federal Implementation Plan ("FIP") for the State of Montana's SO2 emissions. 73 Fed.Reg. 21,418 (April 21, 2008). The FIP is designed to fill perceived gaps the EPA identified in the SIP. This later appeal focuses on the EPA's authority to promulgate the FIP and the reasonableness of certain specific requirements set forth therein. Because we conclude that the agency did not act arbitrarily or capriciously with respect to either the SIP or FIP, we deny both petitions for review.
The Clean Air Act directs states to develop implementation plans—SIPs—that "assure" attainment and maintenance of national ambient air quality standards ("NAAQS") through enforceable emission limitations. 42 U.S.C. §§ 7407(a), 7410(a)(2)(A). The EPA has developed a list of pollutants that cause or contribute to air pollution that "may reasonably be anticipated to endanger public health or welfare." 42 U.S.C. § 7408(a)(1)(A). For each criteria pollutant, the EPA sets NAAQS sufficient to protect public health with an adequate margin of safety and to protect the public welfare, 42 U.S.C. § 7409(b), pursuant to which it has promulgated NAAQS for SO2, 40 C.F.R. §§ 50.4 & 50.5.
A SIP must "provide for the performance of such air quality modeling as the Administrator may prescribe for the purpose of predicting the effect on ambient air quality of any emissions of any [NAAQS-regulated] air pollutant." 42 U.S.C. § 7410(a)(2)(K)(i). As reflected in relevant regulations, emissions limitations may be demonstrated through modeling. 40 C.F.R. § 51.112(a)(1) ("adequacy of a control strategy shall be demonstrated by means of applicable air quality models, data bases, and other requirements specified in appendix W . . . (Guideline on Air Quality Models)"). There is also a Federal Reference Method for measuring ambient
The Clean Air Act gives the EPA significant national oversight power over air quality standards, to be exercised pursuant to statutory specifications, and provides the EPA with regulatory discretion in key respects relevant to SIP calls and determinations about the attainment of NAAQS. Yet, the Act also anticipates states' shared responsibility for air quality control. 42 U.S.C. §§ 7407(a), 7410 (giving states duty of developing implementation plans). The Clean Air Act "left with the states, so long as the [NAAQS] were met, the power to determine which sources would be burdened by regulation and to what extent." Union Elec. Co. v. EPA, 427 U.S. 246, 269, 96 S.Ct. 2518, 49 L.Ed.2d 474 (1976) (emphasis added); see also Train v. Natural Res. Def. Council, Inc., 421 U.S. 60, 98, 95 S.Ct. 1470, 43 L.Ed.2d 731 (1975). A state must develop implementation plans that will satisfy national standards; if it does so, it may "adopt whatever mix of emissions limitations it deems best suited to its particular situation." Train, 421 U.S. at 79, 95 S.Ct. 1470. But when the state plan is inadequate to attain and maintain NAAQS, then the EPA is empowered to step in and fill any deficiencies with a FIP. 42 U.S.C. § 7410(c).
The dispute between Montana Sulphur and the EPA is long-standing, spanning over seventeen years and centering on regulations governing emissions from industrial facilities located near Billings, Montana. Montana Sulphur operates a sulfur recovery plant northeast of Billings. The plant is located next to a petroleum refinery owned by ExxonMobil. Pipes from the refinery bring a continuous stream of high sulfur gas—a by-product of the refining process—to Montana Sulphur. Montana Sulphur recovers 95-98% of the sulfur as a marketable product. The remainder is emitted in the form of SO2. SO2 is a "highly reactive colorless" gas primarily derived from fossil fuel combustion, "best known for causing `acid rain' at elevated concentrations in the ambient air." American Lung Ass'n v. EPA, 134 F.3d 388, 389 (D.C.Cir.1998).
In 1978, the EPA made a formal determination that the Billings area met the primary standards for SO2. 43 Fed. Reg. 40,412 (Sept. 11, 1978). Neighboring Laurel was designated "nonattainment" in 1978, due to measured and modeled violations of the primary SO2 standards. 43 Fed.Reg. 8,962 (Mar. 3, 1978). Dispersion modeling conducted by the EPA during the 1970s, however, indicated that potential violations of the SO2 standards were also occurring in the Billings area due to SO2 emissions from a variety of sources, including Montana Sulphur.
In 1980, the EPA approved Montana's SIP for attaining and maintaining SO2 NAAQS in the Billings/Laurel area. 45 Fed.Reg. 2,034 (Jan. 10, 1980). Actual monitoring subsequent to that approval showed some individual "exceedances" of the 24-hour SO2 standard and one 3-hour "violation" in 1985. Based on monitored emissions, SO2 levels remained relatively constant throughout the 1980s, decreasing slightly in 1983-86, then rising again in 1989.
In 1990, the City of Billings ("Billings" or the "City") hired a contractor to perform dispersion modeling for the Billings area. The Montana Department of Health and Environmental Sciences ("MDHES") reviewed the contractor's report, which indicated
Citing these studies, the EPA advised MDHES in 1992 that its SIP might be inadequate and in need of revision. MDHES in turn notified the City that the emissions from industrial process units were not adequately regulated by the existing SIP. It also noted that "current monitoring sites are not at the highest predicted locations, nor could we locate enough monitors to provide the spatial coverage represented in the model." A revised SIP, it noted, would ease permitting of new industries in the Billings/Laurel area.
The EPA then issued a formal SIP Call in 1993, finding the existing SIP "substantially inadequate" to attain and maintain NAAQS and asking MDHES to submit revisions within eighteen months; the EPA noted that the SIP Call was "a preliminary step in an ongoing process" and "not subject to judicial review." Notice of the SIP Call was published August 4, 1993. 58 Fed.Reg. at 41,430.
MDHES thereafter developed a protocol for the SIP revisions that incorporated EPA-approved models. MDHES submitted various revisions of the SIP to the EPA in 1996, 1997, 1998, and 2000. 67 Fed.Reg. at 22,171, 22,175.
In 1999, the EPA proposed action on the SIP revisions, 64 Fed.Reg. at 40, 791, and took final actions on the SIP on May 2, 2002 (67 Fed.Reg. 22,168) and May 22, 2003 (68 Fed.Reg. 27, 908), approving most of the SIP, but disapproving a number of specific items affecting Montana Sulphur, including (1) the attainment demonstration due to issues with emission limits, inappropriate stack height credit, and lack of submitted emission limits on flares; (2) the emission limits for Montana Sulphur's Sulfur Recovery Unit 100-meter stack and the stack height credit supporting those limits; and (3) the emission limits for Montana Sulphur's 30-meter and auxiliary vent stacks.
Montana Sulphur petitioned for review of the EPA's May 2, 2002 SIP action. That case, No. 02-71657, was stayed pending the EPA's promulgation of a FIP to remedy the SIP. In 2006, the EPA published its proposed FIP. 71 Fed.Reg. 39,259 (July 12, 2006). Montana Sulphur and others commented on that proposal. In 2008, the EPA promulgated its final FIP. 73 Fed.Reg. at 21,418. In case No. 08-72642, Montana Sulphur challenges, among other things, the timeliness of the FIP, the limits on flares, and the feasibility of flare monitoring technology required by the FIP. Neither the State of Montana nor any party other than Montana Sulphur has challenged the SIP Call or the EPA's SIP or FIP actions.
When reviewing the EPA's decision regarding a SIP or its promulgation of a FIP:
42 U.S.C. § 7607(d)(9)(A)-(C). We afford
We also give deference to an agency's interpretation of its own regulations, Wickland Oil Terminals v. Asarco, 792 F.2d 887, 891-92 (9th Cir.1986), and to the evaluation of complex scientific data within its area of expertise, Envtl. Def. Ctr., Inc. v. EPA, 344 F.3d 832, 869 (9th Cir.2003). However, we do not simply rubber stamp an agency's decision, but "must carefully review the record to ensure that agency decisions are founded on a reasoned evaluation of the relevant factors." Vigil v. Leavitt, 381 F.3d 826, 833 (9th Cir.2004) (citation omitted).
One of Montana Sulphur's primary arguments concerns the EPA's authority to make the SIP Call in the first place, because, in its view, the existing SIP was not substantially inadequate because there were no monitored violations of NAAQS in the area, only predicted violations based on computer modeling. This issue, however, raises a number of threshold justiciability concerns. The SIP Call is not a final agency action and did not impose any specific obligations on Montana Sulphur. The SIP Call was only an "act of limited consequence preliminary to other events anticipated by the [Clean Air] Act." Illinois v. EPA, 621 F.2d 259, 261 (7th Cir.1980). As the Sixth Circuit has elaborated:
Greater Cincinnati Chamber of Commerce v. EPA, 879 F.2d 1379, 1383 (6th Cir.1989).
Thus, the EPA is correct to the extent it argues that at the time of the SIP Call there was no final agency action, see Bennett v. Spear, 520 U.S. 154, 177-78, 117 S.Ct. 1154, 137 L.Ed.2d 281 (1997), the issue was not yet ripe, see Abbott Labs. v. Gardner, 387 U.S. 136, 148-49, 87 S.Ct. 1507, 18 L.Ed.2d 681 (1967), and Montana Sulphur had not suffered an "actual or imminent" as opposed to a "conjectural or hypothetical" injury that would suffice for standing, see Friends of the Earth, Inc. v. Laidlaw Envtl. Servs. (TOC), Inc., 528 U.S. 167, 180, 120 S.Ct. 693, 145 L.Ed.2d 610 (2000); see also Bova v. City of Medford, 564 F.3d 1093, 1095-96 (9th Cir.2009) (noting how ripeness and the injury prong of standing are interrelated).
This does not, however, mean that the alleged problems with the SIP Call are
The EPA's 2002 disapproval, in turn, is necessarily predicated on the validity of the initial SIP Call and the modeling assumptions made therein, which Montana Sulphur also seeks to challenge. Compare 58 Fed.Reg. at 41,430 with 67 Fed.Reg. at 22,173, 22,183-22,189. Because Montana Sulphur's claim that the EPA exceeded its statutory authority by issuing the SIP Call in the first place would necessarily invalidate the 2002 SIP disapproval as well, its challenge to the SIP Call may be brought at this time. See Virginia v. EPA, 108 F.3d 1397, 1414 (D.C.Cir.1997), as modified, 116 F.3d 499 (D.C.Cir.1997) (striking down a SIP Call which was based on a final agency rule that exceeded the EPA's authority under the Clean Air Act); see also Greater Cincinnati, 879 F.2d at 1382 (holding claim regarding SIP Call was premature "[u]ntil the State responds to the EPA's request for revision, and the EPA's subsequent actions become real rather than merely speculative") (emphasis added).
Although Montana Sulphur has standing to challenge the underlying SIP Call as part of its challenge to the final agency disapproval in 2002, we conclude that the EPA did not exceed its authority under the Clean Air Act by issuing the SIP Call. The EPA lacks authority to issue a SIP Call unless the SIP is "substantially inadequate." 42 U.S.C. § 7410(a)(2)(H), (k)(5). The thrust of Montana Sulphur's argument is that the SIP Call was improper because the Montana SIP was not "substantially inadequate to attain or maintain" the SO2 NAAQS, and did satisfy all of the statutory criteria of 42 U.S.C. § 7410(a)(2).
Montana Sulphur contends that the EPA could not properly rely on predicted violations of NAAQS that were modeled in the Billings/Laurel area, because the EPA did not provide any reason to believe that there was an actual, monitored SO2 violation in any location in the Billings area. Specifically, Montana Sulphur argues that the EPA's reliance on dispersion modeling "provides an unrealistic picture of reality because it assumes that every single facility is always emitting as much pollution as it can possibly emit during every hour of the modeling run" and under "worst case" weather conditions.
Contrary to Montana Sulphur's contentions, the EPA did not ignore actual SO2 monitoring data when it issued the SIP Call. Rather, the EPA expressly addressed these results and explained their shortcomings. In its Technical Support Document ("TSD"), which explained the rationale for the call, the EPA explained that it was "not practical, given the number and complexity of sulfur dioxide sources, to install a sufficient number of monitors to provide the spatial coverage provided by air quality dispersion models." In fact, much of the data collected prior to the call (throughout the 1970s and '80s) came from a monitoring network of just three to four sites in the Billings and Laurel area. The EPA further explained that the existing monitors were not located in areas of maximum concentration, and that areas "with the most severe exceedances according to the studies have never been monitored—or were once monitored but no longer."
The EPA further addressed Montana Sulphur's complaint when it partially disapproved the SIP in 2002:
67 Fed.Reg. at 22,185. See Northern Plains Res. Council v. EPA, 645 F.2d 1349, 1362-63 (9th Cir.1981) (reliance on model without validation arbitrary only if "EPA ignored reliable data that so undermined the EPA model projections . . . that reliance on the model was irrational"); Republic Steel Corp. v. Costle, 621 F.2d 797, 805 (6th Cir.1980) (approving use of modeling to predict future violations and incorporating "worst-case" assumptions regarding weather and full-capacity operations of pollutant sources).
As the EPA also points out, the Clean Air Act expressly recognizes modeling as an appropriate regulatory tool. 42 U.S.C. § 7410(a)(2)(K)(i) requires SIPs to provide for "the performance of such air quality modeling as the Administrator may prescribe for the purpose of predicting the effect on ambient air quality of any emissions of any air pollutant for which the Administrator has established a national ambient air quality standard."
Montana Sulphur argues that the 1990 amendments to the Clean Air Act indicate a Congressional intent to eliminate the use of modeling. Section 7501(2) formerly defined a "nonattainment area" as "an area which is shown by monitored data or which is calculated by air quality modeling (or other methods determined by the Administrator to be reliable) to exceed any [NAAQS]." In 1990, Congress deleted both the references to monitored data and air quality modeling, replacing them with a cross-reference to air quality designations in § 7407(d). Montana Sulphur would have a better argument if Congress had deleted the reference to modeling and left the reference to monitored data intact, but that is not what happened. In any event, the legislative history underlying the 1990 amendment clarifies that the EPA may rely on any "sound data" that is available, and that "where appropriate and necessary, the Agency may rely on modeling or on statistical extrapolation." S.Rep. No. 101-228, at 15 (1989), 1990 U.S.C.C.A.N. 3385, 3401.
Although the available evidence did not point unambiguously in any one direction, the EPA had plausible reasons for concern in 1993 about attainment given the proximity between Laurel (a nonattainment area) and Billings, the limitations of the existing monitoring methods, the indications from the modeling studies available, and the gravity of the health issues that SO2 NAAQS seek to prevent. The EPA therefore did not act arbitrarily or capriciously by relying on predictive modeling to make the SIP Call in 1993.
Montana Sulphur next challenges several aspects of the 2002 partial EPA disapproval of the revised SIP.
One of the most vigorously contested issues in this protracted dispute is whether the EPA's computation of stack height was irrational. Montana Sulphur has a 100-meter high flue stack which was constructed after the 1993 SIP Call. Under EPA regulations, the EPA concluded the appropriate credit for that stack should be only 65 meters, and that the State of Montana's modeling assumptions using a greater stack height were therefore invalid. 67 Fed.Reg. at 22,209-22,238.
The basic concern with stack height is this: a pollution source can lower ground-level, measured concentrations of pollution by raising the height of its stack and dispersing the pollution further into the atmosphere. Concerned that such a dispersion technique does not actually reduce the amount of pollution but merely spreads it around, Congress adopted 42 U.S.C. § 7423 to regulate the use of tall stacks. See Sierra Club v. EPA, 719 F.2d 436, 441 (D.C.Cir.1983) (discussing legislative history). Rather than completely prohibiting the use of tall stacks, which do prevent some harmful downwash of pollutants near the source, the statute and regulations seek to strike a balance between elevating stack height to disperse pollution away from a source and preventing relocation of pollution from one site to others.
The formulas thus restrict a source from receiving credit for stack height that is higher than a Good Engineering Practice ("GEP") figure. The applicable federal statutory provisions provide that emission limitations under an implementation plan "shall not be affected in any manner by. . . so much of the stack height of any source as exceeds good engineering practice (as determined under regulations to be promulgated by the [EPA.])." 42 U.S.C. § 7423(a)(1). GEP is "the height necessary to ensure that emissions from the stack do not result in excessive concentrations of any air pollution in the immediate vicinity of the source as a result of atmospheric downwash, eddies, and wakes which may be created by the source itself, nearby structures or nearby terrain obstacles." 42 U.S.C. § 7423(c).
The EPA regulations provide three possible options for calculating GEP stack height, and allow use of the greatest resulting number: (1) 65 meters ("de minimis" height); (2) the height calculated using one of two formulas ("formula height"), or (3) the height demonstrated using fluid modeling or field study ("above-formula" height). 40 C.F.R. § 51.100(ii). In the SIP, Montana had approved a modeling demonstration for Montana Sulphur's 100-meter stack under Option 3, and concluded the creditable stack height was 97.5 meters.
The EPA rejected Montana's fluid modeling calculation of GEP stack height because, even though it used NSPS for the modeling, the SIP did not actually require Montana Sulphur to meet the NSPS emission rate. 67 Fed.Reg. at 22,209. Montana Sulphur concedes that NSPS may be used for modeling purposes, but contends that NSPS cannot be used as a substantive emissions limit, noting that the EPA regulations themselves state that the "allowable emission rate to be used in making demonstrations under this part shall be prescribed by the [NSPS] that is applicable to the source category. . . ." 40 C.F.R. § 51.100(kk)(1) (emphasis added).
The EPA's interpretation of its own regulation, however, is not unreasonable. The EPA explains that "allowable emissions" is a term of art it uses to denote an enforceable emission limit, not a mere assumed emission rate that may be disregarded later. The EPA claims it has always interpreted this language to require ongoing compliance with the NSPS, and notes that the term is used elsewhere in the stack height regulations as a substantive limit. 67 Fed.Reg. at 22,210.
The EPA further points out that § 51.100(kk)(1) allows a source to demonstrate that the NSPS emission rate is "infeasible," and that there would be no reason to include this provision if the NSPS rate were a mere assumption in fluid modeling that need never actually be met. 67 Fed.Reg. at 22,212. We must review the provision as a whole and, where possible, effectuate every word. See Boise Cascade Corp. v. EPA, 942 F.2d 1427, 1432 (9th Cir.1991).
The EPA's interpretation is also consistent with the views expressed in the preamble to the EPA stack height regulations, which states that the applicable section "has been revised . . . to specify that an emission rate equivalent to NSPS must be met before a source may conduct fluid modeling to justify stack height credit in excess of that permitted by the GEP formulae." 50 Fed.Reg. 27,892, 27,898 (July 8, 1985) (emphasis added); see Las Vegas v. FAA, 570 F.3d 1109, 1117 (9th Cir.2009) (if regulation is ambiguous, "we consult the preamble of the final rule as evidence of context or intent of the agency promulgating the regulations").
Our conclusion is also consistent with that of the D.C. Circuit, which addressed
In light of the foregoing, we conclude it was neither arbitrary nor capricious for the EPA to require the SIP to include NSPS limits consistent with the modeling demonstration.
In calculating stack height credit, the regulations only permit a source to use stack height that is necessary to avoid an exceedance of "an ambient air quality standard." 40 C.F.R. § 51.100(kk)(1). Therefore, lower exceedance standards can be used to justify a higher "stack height credit." A source seeking to justify a higher stack will seek to establish that the downwash pollution effects of the stack are "excessive." In such cases, a higher stack—which redistributes pollution over a wider area—is justified in order to prevent excessive local pollution effects. Thus, it matters whether NAAQS, versus more stringent state standards, control in calculating "excessive" local concentrations.
Montana Sulphur argues that Montana's emission rates ("MAAQS") properly could be used as benchmarks for ambient air quality under § 51.100(kk)(1), because the regulation refers only to "an ambient air quality standard" whereas the regulations elsewhere describe "primary," "secondary," and "national" standards. 40 C.F.R. § 51.100(kk)(1) (emphasis added); 40 C.F.R. § 51.100(c), (d), (e). The EPA, however, insists that national standards, not Montana's state-only annual SO2 standard, should apply to the determination of what is an "excessive" concentration of SO2 that exceeds an "ambient air quality standard" under these regulations.
The regulation is ambiguous because it does not specifically identify which "ambient air quality standard" exceedances may be used to support the stack height. The preamble to the regulation, however, frequently refers to the use of NAAQS in addressing above-formula stack height and supports the EPA's interpretation that national standards should provide the benchmark. 50 Fed.Reg. at 27,898-27,899; see Las Vegas, 570 F.3d at 1117-18.
Again, the EPA's interpretation of its own regulation is reasonable. Using NAAQS versus the MAAQS as the applicable benchmarks for the exceedance analysis comports with the purposes of 42 U.S.C. § 7423: using NAAQS prevents states from setting standards that might enable local industry to justify above-formula stack height credits that do not meet national standards, and better assures that the EPA will fulfill its obligations. See Sierra Club, 719 F.2d at 450 (EPA must make certain "the standard it derives in fact fairly approximates the stack height level needed to protect local health and
The applicable statutory provisions leave room for interpretation, and the applicable stack height regulations lend support to the EPA's determinations on these complex points. We defer to the agency's judgment in these technical matters, and conclude the EPA did not act arbitrarily or capriciously by rejecting Montana's stack height credit calculation.
The EPA also disapproved the revised Montana SIP in part because it failed to include any numerical emissions limits on flares. "Flaring" is a practice that provides for equipment to immediately release gases to a device (a flare) for incineration. It is used in emergencies (malfunctions) and some routine circumstances, such as startup, shutdowns and maintenance (collectively, "SSM").
Montana included an emission rate assumption for each flare in its attainment demonstration, assuming limitations of 150 pounds of SO2 per 3-hour period.
Disapproval of the SIP was not arbitrary or capricious in these circumstances. Under the EPA's regulations, a proposed SIP "must demonstrate that the measures, rules, and regulations contained in it are adequate to provide for the timely attainment and maintenance of the national standard that it implements." 40 C.F.R. § 51.112(a); see also Hall v. EPA, 273 F.3d 1146, 1158 n. 8 (9th Cir.2001) ("An `attainment demonstration' is a formal demonstration . . . that the pollution control measures contained in an implementation plan are adequate to provide for the timely attainment and maintenance of NAAQS."). Here, Montana demonstrated the control strategies contained in the SIP plus a 150 lb/3-hour limit on flares would attain the NAAQS. The SIP itself, however, was missing the second part of the equation. Although Montana Sulphur contends flaring is not a significant source of SO2 emissions, the EPA points to modeling evidence that the flare emissions likely were significant (219 tons/year/source)—well above the 100 tons/year threshold that can trigger major source permitting requirements. 67 Fed.Reg. at 22,182. Flare emissions can affect attainment, and limits on them reasonably can be required, particularly where the state has relied on such limits to demonstrate attainment. See Michigan Dep't of Envtl. Quality v. Browner, 230 F.3d 181 (6th Cir.2000) (holding EPA properly disapproved Michigan SIP revision that permitted automatic exemption for source that violates emissions standards if violation results from SSM and meets other standards).
The last set of challenged SIP disapprovals involves Montana Sulphur's five auxiliary vent stacks and its 30-meter stack. The SIP included a SO2 limit of 12 lbs/3-hour period for these stacks. The EPA disapproved the limit because it did not restrict the sulfur content of the fuel burned, and because the SIP lacked a monitoring method that would make the limit practically enforceable. 67 Fed.Reg. at 22,170.
Montana Sulphur argues that the limit was not required because the emissions from these stacks are too small to have any practical effect on air quality; thus, it claims, monitoring methods to assure that the limit is met are unnecessary. While the EPA cannot require a state to adopt a particular control measure, see Virginia, 108 F.3d at 1407-08, the EPA has the power to assure that a SIP will achieve NAAQS, 42 U.S.C. § 7410(a)(2), and the Clean Air Act prohibits it from approving a SIP that would interfere with attainment, see Browner, 230 F.3d at 185.
The State of Montana included the limit in its SIP as a control strategy. The EPA is thus not requiring Montana to adopt a particular control measure, but requiring Montana to include a monitoring method only where it relies upon such limits in its SIP for an attainment demonstration, which in turn was designed to assure that it achieved NAAQS. Thus, it was reasonable for the EPA to insist that the limit be enforceable. See also Pennsylvania v. EPA, 932 F.2d 269, 272 (3d Cir.1991) ("[S]tandards cannot be maintained unless the measures taken to achieve them are enforceable.").
Montana Sulphur argues that the EPA lost its authority to promulgate a FIP when it failed to act within two years, as set forth in 42 U.S.C. § 7410(c).
As the Court noted in General Motors Corp., the Clean Air Act provides remedies for EPA inaction, including a suit to compel agency action or a request for reduction or elimination of penalties during any period of unreasonable agency delay. 496 U.S. at 542 n. 4, 110 S.Ct. 2528 (citing 42 U.S.C. §§ 7604(a)(2) & 7413(b)). We hold that in the absence of any Congressional indication otherwise, the failure to act within two years does not utterly deprive the EPA of authority to promulgate the FIP. See Nat'l Petrochemical & Refiners Ass'n. v. EPA, 630 F.3d 145, 155-56 (D.C.Cir.2010).
Montana Sulphur contends that the EPA acted arbitrarily and capriciously by imposing numerical limits on flaring emissions during periods of unusual operations such as SSM. The FIP requires that emissions not exceed 150 lbs/3 hrs and also provides an affirmative defense to penalties for emissions that are beyond the company's control, such as during unusual events like SSM. See 73 Fed.Reg. at 21,431-21,437 (addressing comments to FIP); 73 Fed.Reg. at 21,459 (flare requirements); 73 Fed.Reg. at 21,464-21,465 (affirmative defense).
Montana Sulphur argues that: a numerical limit on flaring emissions is infeasible and violations will assuredly occur, see Bunker Hill Co. v. EPA, 572 F.2d 1286 (9th Cir.1977); the EPA is acting inconsistently with its history of exempting flaring during SSM; the 150 lb./3-hour figure is based on unsupported state modeling; no deference should be given to the EPA's internal excess emissions policy (the "EEP")
In turn, the EPA responds that it must provide for attainment of NAAQS at all times so a total exemption for SSM during flaring is inadequate, see Sierra Club v. EPA, 551 F.3d 1019 (D.C.Cir.2008); it is reasonable to encourage minimizing flare emissions, whether they are routine or during SSM; the numerical requirements are generally consistent with longstanding internal policies such as the EEP, see Ariz. Public Serv. Co. v. EPA, 562 F.3d 1116, 1129 (10th Cir.2009); and the FIP provides relief for truly unavoidable emissions with an affirmative defense to penalties, 73 Fed.Reg. at 21,464-21,465.
Although not always consistently employed, as early as 1983, the EPA adopted a policy requiring continuous compliance with the Clean Air Act requirements but acknowledging that some leeway might be necessary for unusual events such as SSM.
Other circuits have endorsed the EPA's position that the Clean Air Act requires continuous compliance, including during SSM. The Sixth Circuit rejected a challenge to the EPA's disapproval of a Michigan SIP which had provided an automatic exemption from emission limits during SSM. Mich. Dep't of Envtl. Quality v. Browner, 230 F.3d 181 (6th Cir.2000). The Sixth Circuit deferred to the EPA's interpretation of the Clean Air Act that broad exclusions from compliance with emissions limitations during SSM could jeopardize ambient air quality and upheld the SIP disapproval. Id. at 185; see also Ariz. Public Serv. Co., 562 F.3d at 1127, 1129 (rejecting challenge to EPA's "refusal to exempt excess emissions caused by malfunctions," and concluding that the policy "is a reasonable interpretation of the Clean Air Act" because "excess emissions resulting from malfunctions are violations of the Clean Air Act, for such emissions can interfere with attainment of the national air standards").
In fact, when the EPA attempted to be more lax under another section of the Clean Air Act by permitting good work practices for emissions during SSM events rather than imposing numerical emission limits, the D.C. Circuit concluded that the "SSM exemption violates the [Clean Air Act's] requirement that some section 112 standard apply continuously," and vacated the exemption. Sierra Club, 551 F.3d at 1028.
Montana Sulphur also contends that the actual numerical limits imposed by the EPA are arbitrary, going beyond what is necessary to satisfy the NAAQS, claiming the EPA simply "seized upon" and accepted Montana's decision to impose a 150 lb/3-hour limitation on flares. However, in response to a similar comment, the EPA explained in its final rule:
73 Fed.Reg. at 21,439 (emphasis added).
Finally, the EPA acknowledges that violations are likely inevitable, but relies on the provision of an affirmative defense to
Although Montana Sulphur argues that there is no rational basis to limit the affirmative defense to penalties and that the defense should extend to injunctive relief as well, the EPA persuasively explains that "[t]here could be instances in which malfunctions are unavoidable based on current plant layout and operating parameters but in which some form of corrective action would still be appropriate" and that "it is reasonable to retain the authority to seek injunctive relief for all exceedances of emission limits so that we remain able to protect the NAAQS, regardless of source `culpability' for any specific exceedance." 73 Fed.Reg. at 21,435-21,437.
In sum, we conclude that the EPA reasonably interpreted the Clean Air Act to require continuous limits on emissions and that the actual numerical limits imposed by the FIP are neither arbitrary nor capricious.
Montana Sulphur further argues that the EPA acted arbitrarily and capriciously by requiring implementation of flare monitoring technology that does not exist. It contends that it is technically infeasible to monitor low rates of flow to flares during routine operations, and that the required "total sulfur" monitors exist only in pilot testing.
However, Montana Sulphur repeats its objections to the initially proposed FIP without addressing the modifications the EPA made in the final FIP to accommodate these concerns. With respect to the concern that flare flow monitors cannot monitor accurately at low flow velocities (under 1.0 fps), the EPA responded that: (1) it had based the requirement on what it saw was achievable in vendor literature and required in at least two other areas, 73 Fed.Reg. at 21,425; (2) it modified the accuracy requirement from +/-5% to +/- 20% when dealing with low flows between 0.1 and 1 fps, 73 Fed.Reg. at 21,426; and (3) it implemented a secondary means for companies to determine whether flow is reaching the flare when the flow monitor indicates low flow, 73 Fed.Reg. at 21,426.
With respect to the total sulfur monitors, Montana Sulphur is correct that these monitors appear to have primarily been in pilot testing at the time of the FIP, though the EPA does identify two sources where analyzers are on lines leading to refinery flares, and did revise the FIP to give industry a full year to install the monitors. 73 Fed.Reg. at 21,427-21, 428. Moreover, the EPA also revised the final FIP to allow other methods to determine total sulfur concentration, including "grab" or "integrated" sampling. 73 Fed. Reg. at 21,429. Thus, the availability of total sulfur concentration monitoring is something of a red herring since the company can use an alternate means to measure sulfur. 40 C.F.R. § 52.1392(h)(3). Montana Sulphur does not point to any evidence in the record that grab sampling is technically infeasible.
Montana Sulphur contends that the EPA acted arbitrarily and capriciously when it granted variable emission limits to a nearby power plant and the ExxonMobil refinery, but imposed fixed emission limits on it instead. In Montana's SIP, the state
The EPA explained that it considered fixed emissions limits to be easier to model, monitor and enforce, 71 Fed.Reg. at 39,268, and that this was the type of limit used at virtually every other source in the country (with the exception of the other two Montana sources). 73 Fed.Reg. at 21,444-21,445. The EPA also notes that based on past reporting data, it appeared Montana Sulphur would be able to attain the fixed limit without the need for any additional pollution controls. 71 Fed.Reg. at 39,268.
Because the EPA would have primary enforcement responsibility regarding the FIP and the Montana Sulphur emissions, it chose what it perceived as a simpler method. Although the EPA approved Montana's use of the variable limits with respect to the other two sources, the emission limits at play there did not involve improper stack calculations, and, in addition, the State was primarily responsible for ensuring the other sources' compliance with the variable limits. Montana Sulphur does not point to any other source in which the EPA itself imposed variable limits in a FIP. Moreover, the EPA expressed reservations about the State's use of the variable limits as to the other sources; it indicated it would be monitoring the situation closely and might reconsider its approval of those conditions if doubts arose about the accuracy of the monitoring and/or reporting under that system. 67 Fed.Reg. at 22,207.
Thus, contrary to Montana Sulphur's argument, this is not a case where the EPA "depart[ed], sub silentio, from its usual rules of decision to reach a different, unexplained result in a single case." See Western States Petroleum Ass'n v. EPA, 87 F.3d 280, 284 (9th Cir.1996) (quotation marks omitted). Rather, it offered a reasonable explanation for why it selected a different type of emissions limit than the State had chosen, and, in fact, explained that fixed emissions limits are the norm and the preferred method. 73 Fed.Reg. at 21,444-21,445.
Montana Sulfur next argues that the EPA acted arbitrarily and capriciously by imposing emission limits and monitoring requirements regarding Montana Sulphur's auxiliary stacks and 30-meter stack. Montana Sulphur argues that the requirements are unnecessary to comply with the NAAQS because the emissions are extremely small and have no practical effect on NAAQS.
As discussed above, the EPA partially disapproved Montana's limitations on the auxiliary stacks and the 30-meter stack because there was no restriction on the sulfur content of the fuel when exhausting through these stacks and because the SIP lacked a monitoring method to make the
As for the arbitrariness of the actual limits and monitoring requirements, it was reasonable for the EPA to use the state's original emission limitations for consistency because they were a piece of the state's overall control strategy supporting attainment. The EPA further points out that (1) the final FIP was revised to allow Montana Sulphur to use its existing "length-of-stain detector tubes" for monitoring rather than requiring the portable analyzers suggested in the initial proposal, 73 Fed.Reg. at 21,446 (noting that the final FIP was similar to the state operating permit requirements that already applied to Montana Sulphur); and (2) the final FIP increased the concentration limits on the fuel burned in the units from 100 ppm/3 hours to 160 ppm/3 hours to accommodate Montana Sulphur's concern that it was too restrictive, noting that modeling using 160 ppm for up to three hours would still meet attainment requirements (but not if emissions were at this level for the entire day) and that evidence indicated Montana Sulphur should already be within these limits in light of the SIP's requirement of burning only "low sulfur" gas and the fuel gas scrubbing technology it uses. 73 Fed.Reg. at 21,446-47.
The EPA also explains that its modeling assumption that all units were venting to the stacks, whether this would ever happen, was a way of simplifying monitoring and compliance for Montana Sulphur. Under this model, Montana Sulphur needed only to measure H2S ppm concentration (using its existing monitoring device) to determine compliance, whereas direct compliance per boiler stack would either require additional monitoring equipment or methods or be unreliable due to potential variation in boiler use and venting practices. 73 Fed.Reg. at 21,446-21,447 & 21,452. The EPA sums up its decision in its final FIP:
73 Fed.Reg. at 21,447.
Thus, the specific emission limits and monitoring requirements imposed by the FIP, based on revised emission models and that allow Montana Sulphur to use existing technology, were not arbitrary or unreasonable.
This issue is addressed in Section II.A above, regarding the 2002 SIP disapproval. Because we previously concluded that the EPA properly rejected Montana's calculated stack height credit in the SIP and that it was proper to use the 65-meter de minimis figure instead, see 40 C.F.R. § 51.118, we likewise hold here that the EPA did not act arbitrarily in using that figure in the FIP.
Montana Sulphur claims the EPA acted arbitrarily and capriciously because the FIP did not take into account the
The EPA offered three justifications for declining to consider the emission reductions that resulted or will result from those consent decrees and permit changes. First, it noted that Montana did not actually make any revisions to the SIP to address the flaws in that document, and, having disapproved portions of the SIP, the EPA was required to fill those gaps. 73 Fed.Reg. at 21,421. Second, the EPA noted that even though federally enforceable, some of the state permits can be revised without EPA approval and the consent decrees have a "limited lifespan"; it opined that stationary source emission limits necessary to demonstrate attainment must be included in the FIP or approved SIP so that changes to those limits may only be made with its approval. Id. Finally, the EPA explained that the emission limits within the consent decrees and permit actions do not contain limits that are consistent with the averaging times of the NAAQS, specifically the 3-hour and calendar-day averaging periods. 73 Fed.Reg. at 21,422. For example, the CHS permit and decree impose ppm limits for 7-day and 365-day rolling averages instead of mass pound limits per 3-hour and calendar-day periods. Id. The EPA pointed out that "[n]one of the commenters has suggested these limits be converted to FIP mass limits that would apply over a 3-hour averaging period, and the State has not submitted a SIP revision with such limits." Id.
In light of the specific procedures in place for SIP approval or disapproval and the responsibility of the EPA to promulgate a FIP when the state plan is inadequate in some respect, we conclude the EPA's position is justified. The EPA correctly reads 42 U.S.C. § 7410(a)(2) as requiring states to include enforceable emission limits and other control measures in the plan itself. Whatever requirements may exist in the consent decrees and construction permits (which may or may not be equivalent to the requirements of the FIP, since they are measured by different means over a different time frame), they are not part of the underlying SIP and the EPA here has authority to fill the gaps in the portions of the SIP it had previously disapproved.
Finally, Montana Sulphur argues that the EPA acted arbitrarily and capriciously because it used outdated modeling in the FIP. In the FIP, the EPA used the Industrial Source Complex ("ISC") model, which was the preferred model at the time Montana proposed its SIP. In 2005, the EPA revised its Guideline on Air Quality Models and recommended use of a new dispersion model—AERMOD. 70 Fed. Reg. 68,218 (Nov. 9, 2005). However, the
In issuing the final FIP in April 2008, the EPA further defended its choice to stick with the ISC dispersion model:
73 Fed.Reg. at 21,437-21,438.
The EPA's continued use of the ISC model was not arbitrary or capricious. The model was properly employed at both the time of the state SIP and the proposed FIP. The FIP did not replace the entire SIP, but only the limited portions the EPA had disapproved; because use of a different model could have yielded results that did not comport with the remainder of the SIP, it was not arbitrary or capricious for the EPA to continue with the existing model despite some later technological improvements.
For the foregoing reasons, we conclude the EPA did not act arbitrarily or capriciously or abuse its discretion by making the SIP Call, disapproving portions of the revised SIP, or promulgating the requirements set forth in the FIP. We therefore deny the petition for review in both 02-71657 and 08-72642.
However, § 7410(a)(1) requires states to submit SIPs that provide for the maintenance of NAAQS regardless of whether a nonattainment area has been designated; similarly, the EPA's authority to declare a SIP "substantially inadequate" to attain or maintain NAAQS does not hinge on an area's designation. 42 U.S.C. § 7410(k)(5). We have already determined that the EPA did not exceed its authority by making the SIP Call, and it necessarily follows that a new attainment demonstration is a logical and lawful part of responding to the SIP Call.
Finally, we note that the burden of producing a new attainment demonstration fell solely on the State of Montana's shoulders, and the State did not object. It is unclear how Montana Sulphur was injured by the attainment demonstration itself, as opposed to the specific disapprovals of the revised SIP which are discussed below.
Without inclusion of the support structure, the formula height is 47.8 meters. 73 Fed. Reg. at 21,446. Thus, Montana Sulphur could achieve greater stack height option only through Option 1 de minimus height or Option 3 above-formula modeling.