(f) A boiler operator holding a boiler operator in charge license may act as chief engineer of an installation of 500 boiler horsepower or less. He or she may assume charge of a shift, under the supervision of a properly licensed chief engineer, in installations not over 1,000 boiler horsepower. When the total capacity exceeds 1,000 boiler horsepower, he or she may act as boiler operator, under the direction of, and responsible to, a properly licensed engineer in charge of his or her shift. (See Tables 3.4 and 3.7)
total recorder 8.4 registration 12
(g) An engineer holding a C or third grade license of the proper classification may act as chief engineer of any plant where the total capacity of the equipment involved does not exceed 1,000 boiler horsepower, 100 engine horsepower or 65 tons refrigerating capacity. He or she may also act as operating engineer, under the supervision of a properly licensed chief engineer, in installations exceeding the above limits. (See Tables 3.4, 3.7 and 3.8)
(h) An engineer holding a B or second grade license of the proper classification may act as chief engineer of any plant where the total capacity of the equipment involved does not exceed 3,000 boiler horsepower, 500 engine horsepower or 300 tons refrigerating capacity. He or she may also act as operating engineer, under the supervision of a properly licensed chief engineer, in installations exceeding the above limits. (See Tables 3.4, 3.7 and 3.8)
(b) Users of boilers, pressure vessels, refrigeration systems and other equipment subject to the inspection and licensing acts, shall be guided by their authorized inspectors relative to the jurisdiction of the Bureau of Boiler and Pressure Vessel Compliance for purposes of registration, certification, licensing, repairs and alterations.
(d) When writing the Bureau of Boiler and Pressure Vessel Compliance in reference to a boiler, unfired pressure vessel, refrigeration plants or other equipment, the New Jersey State inspection registration number in the upper left corner of the registration certificate, the manufacturer's serial number, the National Board number and the name of the manufacturer shall be stated in the correspondence.
(g) An alteration report and a copy of the original manufacturer's data report shall be filed with the National Board of Boiler and Pressure Vessel Inspectors or the Bureau of Boiler and Pressure Vessel Compliance if the boiler is not registered with the National Board. Fees for registration of these reports shall be $8.00 for each boiler and shall be forwarded to the Bureau of Boiler and Pressure Vessel Compliance for registration.
(e) An alteration report and a copy of the original manufacturer's data report shall be filed with the National Board of Boiler and Pressure Vessel Inspectors, or the Bureau of Boiler and Pressure Vessel Compliance if the unfired pressure vessel is not registered with the National Board. The fees for registration shall be in accordance with N.J.A.C. 12:90-5.15(d). If the alteration is performed in accordance with API-510, filing under this subsection is not required; however, the owner-user shall maintain the alteration report for the life of the vessel.
(d) Owner-user inspection agencies may request registration to conduct field inspection of unfired pressure vessels, inspection and repair of pressure relief valves, or welded repairs and alterations individually or in any combination of these functions.
(e) All owner-user inspection agencies seeking registration with the Bureau of Boiler and Pressure Vessel Compliance shall be audited by the Bureau of Boiler and Pressure Vessel Compliance. Upon successful completion of this initial audit, the owner-user inspection agency shall be registered with the Bureau of Boiler Pressure Vessel Compliance and shall be audited triennially thereafter. This triennial audit may be conducted on an annual basis when a triennial audit evidences deficiencies. The fee for each audit shall be as provided in N.J.A.C. 12:90-5.15(a)2.
(f) The initial and triennial audits conducted under (e) above shall encompass only those functions appropriate for registration to conduct field inspection of unfired pressure vessels, inspection and repair of pressure relief valves, or welded repairs and alteration, for those owner-user inspection agencies who do not wish to register under all three functions.
1. Whether the trial was analysed in accordance with a pre-specified plan that was finalized before unblinded outcome data were available for analysis. We strongly encourage review authors to attempt to retrieve the pre-specified analysis intentions for each trial (see Chapter 7, Section 7.3.1). Doing so allows for the identification of any outcome measures or analyses that have been omitted from, or added to, the results report, post hoc. Review authors should ideally ask the study authors to supply the study protocol and full statistical analysis plan if these are not publicly available. In addition, if outcome measures and analyses mentioned in an article, protocol or trial registration record are not reported, study authors could be asked to clarify whether those outcome measures were in fact analysed and, if so, to supply the data.
The total amount of your tax bill will likely change every year due to changes at the school district or local government level. Changes to the following will directly impact the amount of taxes you owe each year:
1.3 Does PS-1 apply to a facility with an applicable opacity limit less than 10 percent? If you are an owner or operator of a facility with a COMS as a result of this Part and the applicable opacity limit is less than 10 percent, then PS-1 applies to your COMS as described in section 1.2; taking into account (through statistical procedures or otherwise) the uncertainties associated with opacity measurements, and following the conditions for attenuators selection for low opacity applications as outlined in section 8.1(3)(ii). At your option, you, the source owner or operator, may select to establish a reduced full scale range of no less than 50 percent opacity instead of the 80 percent as prescribed in section 3.5, if the applicable opacity limit for your facility is less than 10 percent. The EPA recognizes that reducing the range of the analyzer to 50 percent does not necessarily result in any measurable improvement in measurement accuracy at opacity levels less than 10 percent; however, it may allow improved chart recorder interpretation.
3.3 Data Recorder. That portion of the installed COMS that provides a permanent record of the opacity monitor output in terms of opacity. The data recorder may include automatic data reduction capabilities.
6.1 Continuous Opacity Monitoring System. You, as owner or operator, are responsible for purchasing an opacity monitor that meets the specifications of ASTM D6216-12, including a suitable data recorder or automated data acquisition handling system. Example data recorders include an analog strip chart recorder or more appropriately an electronic data acquisition and reporting system with an input signal range compatible with the analyzer output.
3.3 Continuous Emission Monitoring System means the total equipment required for the determination of a gas concentration or emission rate. The sample interface, pollutant analyzer, diluent analyzer, and data recorder are the major subsystems of the CEMS.
6.1.1 Data Recorder. The portion of the CEMS that provides a record of analyzer output. The data recorder may record other pertinent data such as effluent flow rates, various instrument temperatures or abnormal CEMS operation. The data recorder output range must include the full range of expected concentration values in the gas stream to be sampled including zero and span values.
8.1.1 CEMS Installation. Install the CEMS at an accessible location where the pollutant concentration or emission rate measurements are directly representative or can be corrected so as to be representative of the total emissions from the affected facility or at the measurement location cross section. Then select representative measurement points or paths for monitoring in locations that the CEMS will pass the RA test (see section 8.4). If the cause of failure to meet the RA test is determined to be the measurement location and a satisfactory correction technique cannot be established, the Administrator may require the CEMS to be relocated. Suggested measurement locations and points or paths that are most likely to provide data that will meet the RA requirements are listed below.
8.1.2.2 Path CEMS. It is suggested that the effective measurement path (1) be totally within the inner area bounded by a line 1.0 meter (3.3 ft) from the stack or duct wall, or (2) have at least 70 percent of the path within the inner 50 percent of the stack or duct cross-sectional area, or (3) be centrally located over any part of the centroidal area.
More than nine sets of RM tests may be performed. If this option is chosen, a maximum of three sets of the test results may be rejected so long as the total number of test results used to determine the RA is greater than or equal to nine. However, all data must be reported, including the rejected data.
16.1 Conduct a complete CEMS status check following the manufacturer's written instructions. The check should include operation of the light source, signal receiver, timing mechanism functions, data acquisition and data reduction functions, data recorders, mechanically operated functions (mirror movements, zero pipe operation, calibration gas valve operations, etc.), sample filters, sample line heaters, moisture traps, and other related functions of the CEMS, as applicable. All parts of the CEMS shall be functioning properly before proceeding to the alternative RA procedure.
6.1.1 This specification is the same as section 6.1 of PS 2. The CEMS shall be capable of measuring emission levels under normal conditions and under periods of short-duration peaks of high concentrations. This dual-range capability may be met using two separate analyzers (one for each range) or by using dual-range units which have the capability of measuring both levels with a single unit. In the latter case, when the reading goes above the full-scale measurement value of the lower range, the higher-range operation shall be started automatically. The CEMS recorder range must include zero and a high-level value. Under applications of consistent low emissions, a single-range analyzer is allowed provided normal and spike emissions can be quantified. In this case, set an appropriate high-level value to include all emissions. 2ff7e9595c
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