BIF continuous emission monitoring requirements are found for CO in 40 CFR 266 §266.104(b)(2) and hydrocarbons (HC) in [§266.104(c)((3)]. In the BIF rules, performance specification for CO analyzers are given in Part 266 Appendix IX §2.1 and for hydrocarbon analyzers in §2.2. The performance specifications for CO are similar to those given in 40 CFR 60 Appendix B Performance Specification 4a. A relative accuracy test is not required for Part 266 hydrocarbon analyzers.
Quality assurance requirements for Part 266 CO and HC monitoring systems are found in Appendix IX of Part 266, where daily calibration checks, daily system audits, quarterly calibration error (linearity) tests, and an annual performance specification tests are required. Conducting an annual performance specification test for the CO monitoring system implies that a seven‐day calibration drift test, in addition to a response time test and a RATA, would be required, in contrast to Part 60 Appendix F where only an annual RATA is required (U.S. EPA 2020e).
Monitoring requirements have also been promulgated for hazardous waste combustors under the MACT standards of 50 CFR 63 Subpart EEE. Section 63.1209(a) (ii) requires that either a CO or hydrocarbon analyzer be installed, along with an oxygen monitor, to report emissions corrected to 7% O2. Cement kilns burning hazardous waste are also required to install a continuous opacity monitoring system (COMS).
Sewage Sludge Incineration (40 CFR 503)
EPA regulations concerning sludge management programs are found under Title 40 Subchapter O – Sewage Sludge and Part 501: State Sludge Management Program Regulations. Regulatory authority is given under the Clean Water Act, which requires that states must develop sludge management programs. Part 501 specifies the requirements that a State program must meet for it to be approved by EPA. Sewage sludge can be disposed of in a solid waste landfill, applied to the land, or incinerated. For landfill or land applications, limits for metal concentrations, loading levels, and pathogen density are specified.
Monitoring requirements for incineration of sewage sludge are given in Subpart E of 40 CFR 503 – Standards for the Use or Disposal of Sewage Sludge If the sludge is incinerated, the concern shifts from releases to the soil and groundwater to the efficiency of combustion and releases to the air. Total hydrocarbons are required to be monitored as specified in §503.45(a)(1) of the Code. In addition, the carbon monoxide concentration must be monitored as an indicator of combustion efficiency, where a limit of 100 ppm corrected to 7% O2 and zero percent moisture is specified. Total hydrocarbon concentration is similarly limited to 100 ppm corrected to 7% O2 and zero percent moisture. Accordingly, an oxygen concentration monitor and an instrument used to determine the moisture content must also be installed to monitor the stack exit gas continuously along with the THC and CO analyzers. No other requirements are given for the monitoring system and analyzers, other than that a calibration and maintenance logbook shall be retained [40 CFR 503.47(n)]. Design and operational requirements are specified for the total hydrocarbon analyzer, where it must use a flame ionization detector (FID), be calibrated with propane, and have a heated sampling line maintained at a temperature of 150 °C.
New sewage sludge incinerators are also regulated under New Source Performance Standard Subpart O if the incinerator was constructed after 11 June 1973. The regulation requires the installation of an oxygen analyzer only. Here, the instrument specifications require a ±5% relative accuracy as certified by the manufacturer and a calibration every 24 hours according to manufacturer procedures. No reference is made to the Part 60 Appendix B or Appendix F CEM requirements, which are more complete.
State Programs and Federal Programs Administered by the States
State environmental control agencies are tasked with federal requirements to meet ambient air standards for SO2, NOx, ozone, and particulate matter as PM2.5. The states receive federal funding for this purpose and institute programs to monitor ambient air concentrations of these ambient pollutants. Ambient air monitoring shelters housing analyzers that use many of the same analytical techniques as CEM systems are located across the country, providing a continuous assessment of ambient air quality.
A number of regulatory mechanisms can be used by the states to require the installation of CEM systems as a tool in meeting their goals. Because of the differences in state agency regulatory policies and work‐force capabilities and limitations, CEM programs vary greatly between the states. Several states have very stringent programs, based on CEM compliance monitoring for enforcement and public assurances. Other states, which have less stringent programs, accept EPA NSPS delegation for regulating new sources and have adopted minimum requirements for existing sources. Different types of programs delegated or otherwise employed by the states, where CEM system installations may be required, are listed in Table 2‐2.
By applying established regulatory procedures, CEM systems can also be required to be installed on other source categories or used directly for compliance. The development of such regulations typically proceeds through public hearings, combined with many approval processes. Under these procedures, it can often take several years before a regulation is issued.
State Implementation Plan Requirements (40 CFR 5l)
Each state is required by the U.S. Clean Air Act to have a State Implementation Plan, or SIP, that will lead to the improvement and maintenance of the air quality such that all areas of the state will meet national ambient air quality standards. Federal requirements for SIPs are given in 40 CFR 51 – Requirements for Preparation, Adoption, and Submittal of Implementation Plans and 40 CFR 52 – Approval and Promulgation of Implementation Plans (U.S. EPA 2020b).
Part 51 Appendix P – Minimum Requirements for Existing Sources. In Appendix P of Part 51, the U.S. EPA established minimum CEM requirements for existing sources (U.S. EPA 2020a). The rules, published in the 1970s, required state CEM requirements to be written by 1976 for only four source categories: fossil‐fuel‐fired steam generators, sulfuric acid plants, nitric acid plants, and petroleum refineries. Even so, these particular minimum requirements only applied to larger sources and allowed many exemptions, such as not requiring SO2 monitoring unless SO2 control systems are installed. The “existing sources” referenced in Part 51 were those built before 1971, many of which are no longer operating by having become subject to reclassification as a “new source” after modification, or are otherwise subject to acid rain, air toxics, and other rules written after promulgation of the 1990 Clean Air Act Amendments. Once in the Code of Federal regulations, rules, test methods, and procedures tend not to go away. They layer upon themselves; so, when reading them, attention must be paid to applicability and other conditions of the requirements.
TABLE 2‐2 State CEM Program Options
Federal Programs Delegated to States | |||||||
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SIP Rulemaking | Permit Programs | NSPS Delegation | SIP Rulemaking | Compliance Assurance Monitoring | Waste Incineration | Trading Programs |
Discretionary
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