Source: https://www.federalregister.gov/documents/2020/01/14/2019-28447/electronic-detonators
Timestamp: 2020-01-20 18:24:04
Document Index: 444143725

Matched Legal Cases: ['ART 56', 'ART 57', '§\u200956', '§\u200956', 'arts 56', '§\u200956', '§\u200956', '§\u200956', '§\u200956', '§\u200956', '§\u200956', '§\u200957', '§\u200956', '§\u200956', '§\u200956', '§\u200957', '§\u200957', '§\u200957', '§\u200957', '§\u200956', '§\u200956', '§\u200957', '§\u200957', '§\u200957']

A Proposed Rule by the Mine Safety and Health Administration on 01/14/2020
Comments must be received or postmarked by midnight Eastern Standard Time on March 16, 2020.
2064-2069 (6 pages)
PART 56—SAFETY AND HEALTH STANDARDS SURFACE METAL AND NONMETAL MINES
PART 57—SAFETY AND HEALTH STANDARDS UNDERGROUND METAL AND NONMETAL MINES
https://www.federalregister.gov/d/2019-28447 https://www.federalregister.gov/d/2019-28447
Concurrent with this proposed rule, MSHA is publishing a separate, substantially identical direct final rule in the Final Rules section of this Federal Register edition. The concurrent publication of these documents will speed notice and comment rulemaking under 30 U.S.C. 811 and the Administrative Procedure Act (see 5 U.S.C. 553) should the Agency decide to withdraw the direct final rule. All interested parties who wish to comment should comment at this time because MSHA does not anticipate initiating an additional comment period.
MSHA has determined that notice and public comment are unnecessary because the rule imposes no new requirements; it simply clarifies the application of MSHA's existing standards to technologies developed after the standards were promulgated. If MSHA does not receive significant adverse comments on or before February 13, 2020, the Agency will publish notification in the Federal Register no later than March 16, 2020, confirming the effective date of the direct final rule.
In the event the direct final rule is withdrawn because of significant adverse comments, the Agency will proceed with this proposed rulemaking by addressing the comments received and publishing a final rule. The comment period for this proposed rule runs concurrently with that of the direct final rule. Any comments received under this proposed rule will be treated as comments regarding the direct final rule. Likewise, significant adverse comments submitted to the direct final rule will be considered as comments to this proposed rule. The Agency will consider such comments in developing a subsequent final rule.
A detonator is a device containing a detonating charge that is used to initiate an explosion reliably, at a specified time, and, as applicable, in a prescribed sequence. There are three types of detonators primarily used in blasting operations in MNM mines. These are non-electric, electric, and electronic detonators. A non-electric detonator is designed to initiate explosions without the use of electric wires. A non-electric detonator includes devices that use detonating cords, shock-tube systems or safety fuse detonators, or a combination of these.
An electric detonator uses electrical currents to initiate detonation. Electrical currents from the detonator's lead wires or connectors ignite an electric match which in turn ignites a pyrotechnic delay element that initiates the base charge. The pyrotechnic delay element burns at an approximated rate. The length and composition of the pyrotechnic delay element control the approximate rate of burn and thus the timing. Since the approximate rate of burn is subject to variation, the timing accuracy of electric detonators is affected. Electric detonator systems typically include a blasting machine that delivers the electrical current to the detonator. Circuit testers, such as a blaster's galvanometer, are used to check the continuity and resistance of Start Printed Page 2065the individual detonator and the entire electric circuit.[1]
In contrast to electric detonators, electronic detonator systems do not have a pyrotechnic delay element. Electronic detonator systems are designed to use electronic components to transmit a firing signal with validated commands and secure communications to each detonator, and a detonator cannot be initiated by other means.
Typically, each detonator has a microchip to control sequence timing and an integrated circuit chip and a capacitor, internal to each detonator, to control the initiation time. Electronic detonators enable exact time delays between blasts to ensure the blast energy is used to break rock, reducing fugitive energy loss in the form of vibrations.
Unlike non-electric and electric systems, electronic detonators are uniquely designed by each manufacturer, which requires that these devices be used according to manufacturers' instructions. Because these electronic detonator systems require password log-ins, operators must authorize persons to initiate the detonations, which minimizes the potential for accidental misuse.
Based on MSHA's experience with the electronic detonator systems it has reviewed,[2] the Agency has found that electronic detonator systems have a number of advantages compared to non- electric and electric systems, including greater operator control to limit their use to authorized personnel, more precise timing, reduced vibrations, and a reduced sensitivity to stray electrical currents and radio frequencies.
Since MSHA published these rules, advancements in computer and micro-processing technology have led to electronic timing of detonations. On September 28, 2004, MSHA issued Program Information Bulletin (PIB) No. P04-20, Electronic Detonators and Requirements for Shunting and Circuit Testing, to respond to stakeholder inquiries concerning how to apply the MSHA requirements for shunting and circuit testing to electronic detonators. In PIB No. P04-20, MSHA reported results of the Agency's evaluation of two electronic detonator systems. MSHA found that the systems contained their own integral elements for shunting and circuit testing, which met the Agency's existing standards for shunting and circuit testing when used as recommended by the manufacturers. Since issuing PIB No. P04-20, MSHA has evaluated several other electronic detonator systems and has determined that these systems also contain their own integral elements for shunting and circuit testing that meet the intended MSHA requirements when these systems are used according to the manufacturers' instructions. Existing MSHA standards require operators to adhere to manufacturers' instructions for all detonation systems, including new systems. See 30 CFR 56.6308 and 57.6308; 56 FR 2072, 2081.
On February 28, 2008, the Small Business Administration (SBA) selected MSHA's explosives standards for regulatory review pursuant to its Small Business Regulatory Review and Reform Initiative [4] which was designed to identify existing federal rules that small business stakeholders believe should be reviewed and reformed. The MSHA reform nomination, discussed in the SBA's February 2008 report, stated that MSHA should update its existing explosive standards to be consistent with modern mining industry standards. The report further noted industry concerns that MSHA's existing standards do not address fundamental aspects of explosive safety, such as electronic detonation. On July 30, 2008, SBA also testified before the House Subcommittee on Regulations, Healthcare, and Trade that SBA's Office of Advocacy had met with nominated agencies to discuss the importance of reviewing and reforming the identified rules.[5]
As a result of this solicitation, MSHA received comments from the Institute of Makers of Explosives (IME) requesting that MSHA modernize its standards to “properly address” electronic detonators. IME noted that electronic detonators have been used by the industry for over two decades and provide a “sophisticated level of safety and security,” and recommended several regulatory modifications to both coal and MNM standards. Specifically, IME proposed changes to §§ 56.6000 and 57.6000, the definition of Start Printed Page 2066“Detonator;” 56.6310, Misfire waiting period; 57.6407, Circuit testing; 57.6604, Precautions during storms; 75.1310, Explosives and blasting equipment; and 77.1303, Explosives, handling and use.
For this proposed rulemaking, MSHA addresses the use of electronic detonators in MNM surface and underground mines and modifies §§ 56.6000 and 57.6000, the definition of “Detonator;” 56.6310 and 57.6310, Misfire waiting period; 56.6407 and 57.6407, Circuit testing; and 57.6604, Precautions during storms. MSHA is amending certain portions of the explosives standards to include electronic detonators. However, the other explosives standards in Subparts E in 30 CFR parts 56 and 57 continue to apply to electronic detonators.
For those electronic detonator systems that the Agency has reviewed, MSHA agrees with IME that electronic detonators provide a working environment that is as safe or safer for miners compared to non-electric and electric detonators because they provide for greater control of a blast.[6] MSHA believes that recognizing electronic detonator systems as distinct from electric detonators will eliminate confusion over certain regulatory requirements. For example, §§ 56.6401 and 57.6401 and §§ 56.6407 and 57.6407 require that electric detonators be shunted and tested to provide protection against premature detonation caused by extraneous current flowing through portions of the circuit as they are prepared. Operators use a galvanometer or other instrument to test electric circuits to determine whether an individual series circuit is continuous, to locate broken wires and connections, and to avoid introducing excessive current to the circuit. 56 FR 2082-83.
However, the elect electronic detonator systems that MSHA has reviewed contain their own integral elements for shunting and circuit testing that exceed the safety protections in MSHA's requirements when the systems are used according to the manufacturer's instructions. These systems, typically, are designed with an integrated circuit and a capacitor system internally wired to each electronic detonator, which isolates the base charge from the wires leading to the internal capacitors and microchip, making shunting unnecessary.
Under proposed §§ 56.6000 and 57.6000, the definition for Detonator would be modified by adding the words “electronic detonators,” before the word “electric” in the second sentence of the paragraph. Also, in proposed § 56.6000 a comma would be added after the word “caps” in the second sentence.
The proposed change to §§ 56.6000 and 57.6000, Detonator, would modernize the definition by including electronic detonators. The proposed addition of a comma in § 56.6000 is for clarity and would conform with the definition of Detonator in § 57.6000.
Sections 56.6310 and 57.6310 require that in the event of a misfire while blasting, personnel should wait a specific time period based on the type of detonator being used before entering the blast area for safety.
Under proposed §§ 56.6310 and 57.6310, a new paragraph (c) would be added that would require a 30 minute waiting period, or for the manufacturer-recommended time, whichever is longer, in the event of a misfire while blasting with an electronic detonator.
MSHA believes that waiting at least 30 minutes before entering a blast area if electronic detonators are involved in a misfire provides personnel an adequate amount of time to analyze the circumstances of the misfire and to develop a plan of action to safely enter the blast area. In MSHA's experience, this waiting period is consistent with industry-recommended standards.[7] In the event that an electronic detonator manufacturer recommends more than a 30-minute waiting period if a misfire occurs using its electronic detonators, MSHA proposes to require that persons must follow the manufacturer's recommended wait time before entering the blast area. This is consistent with §§ 56.6308 and 57.6308, requiring persons to follow manufacturer's instructions for using detonation systems.
Sections 56.6407 and 57.6407 require that blasting circuits be tested to ensure the circuits are properly wired. Under proposed § 56.6407(a) and (c), the words “or electronic” would be added to paragraphs (a) and (c). In addition, under proposed § 57.6407(a)(3) and (b)(2), the words “or electronic” would be added to paragraphs (a)(3) and (b)(2).
A blasting galvanometer is used to test electric detonator circuits to prevent misfires by determining whether an individual series circuit is continuous and by locating broken wires and connections. A blasting galvanometer or other appropriate type of testing equipment is used to avoid introducing excessive current into the circuit. This differs from the electronic detonator systems the Agency has reviewed because these systems have a means for circuit testing incorporated into their designs. The Agency anticipates that other electronic detonator systems MSHA has not reviewed also have integral circuit testing mechanisms. While revising the standard would clarify that the circuit-testing requirement applies to electronic detonator systems, the Agency believes that most or all electronic detonator systems already comply with this safety standard. The proposed changes are not intended to require that electronic detonator systems with integral circuit testing be tested additionally with a galvanometer or other outside mechanism.
Under § 57.6604, underground electrical blasting operations must be suspended during the approach and progress of an electrical storm. Electromagnetic fields and stray currents can be generated from lightning. Higher energy levels of electromagnetic interference and stray current are generally disruptive or damaging to electronic equipment. Based on MSHA's experience with the electronic detonators it has examined, electronic detonator systems and technologies generally have the base charge isolated from the wires leading to Start Printed Page 2067the internal capacitors and microchip providing built-in protection from interference from electromagnetic fields and stray current. However, MSHA is aware that an electromagnetic pulse such as lightning strikes traveling through underground mines by paths such as air lines, water lines, and conductive ore bodies, can damage all types of detonators and equipment and cause misfires. Therefore, under proposed § 57.6604(b), the words “electronic or” would be added after the word “Underground.”
The Agency believes that most or all electronic detonator systems are designed to minimize or eliminate the possibility that lightning could initiate a blast; many systems may not be capable of being initiated by lightning. In addition, to the extent these systems are capable of being initiated by lightning, MSHA believes that operators already have been applying these requirements to electronic detonator systems through manufacturers' directions and accepted industry practices. MSHA believes the proposed revision will have little or no actual impact on operators' existing practices and simply eliminates ambiguity in the requirements under § 57.6604(b).
Pursuant to the Congressional Review Act (5 U.S.C. 801 et seq.), the Office of Information and Regulatory Affairs designated this proposed rule as not a `major rule', as defined by 5 U.S.C. 804(2).
MSHA has assessed the costs and benefits of the changes and has determined that there are no costs associated with this proposed rule. Currently, electronic detonators have been used by the mining industry for more than 20 years and account for at least 15 percent of the blast initiation systems used in the U.S. in all industries.[8] As part of the Agency's regulatory reform efforts, MSHA received comments from industry representatives supporting the proposed changes. This proposed rule codifies activity already undertaken by the mining industry regarding electronic detonators. This proposed rulemaking is a deregulatory action under E.O. 13771 in its effects.
This proposed rule will not increase or decrease the costs or benefits associated with the use of electronic detonators; however, this action would eliminate ambiguity about detonator options in the application of existing requirements so that mine operators would be able to use their resources more efficiently when making business decisions.
Among other things, this proposed rule clarifies the nonapplicability of certain MSHA standards to electronic detonating systems. For example, while the new “circuit testing” standard now makes clear that the standard contemplates electronic detonating systems as well as electric detonators, the preamble clarifies that most or all of these electronic systems inherently comply and that, therefore, the specific actions operators must take when using electric detonators generally need not be taken for electronic detonating systems. Likewise, while this proposed rulemaking does not directly address MSHA's shunting standards, the preamble clarifies that, while those standards require operators to take specific actions when using electric detonators, they are not applicable to inherently compliant electronic detonating systems. Through these clarifications, MSHA would ensure the safety advantages offered by the use of electronic detonators are available to mine operators, including greater operator control to limit use to authorized personnel, more precise timing, reduced vibrations, and a reduced sensitivity to stray electrical currents and radio frequencies. Furthermore, consistent with the directive in E.O. 13777, this proposed rule would update outdated regulations and accommodate technological advances.
Under E.O. 12866, a significant regulatory action is one meeting any of a number of specified conditions, including the following: Having an annual effect on the economy of $100 million or more, creating a serious inconsistency or interfering with an action of another agency, materially altering the budgetary impact of entitlements or the rights of entitlement recipients, or raising novel legal or policy issues. MSHA has determined that the proposed rule is “other significant” under E.O. 12866.
MSHA has concluded that the requirements of the proposed rule would be both technologically and economically feasible because the proposed requirements are already generally accepted industry practices for the use of electronic detonators.
Pursuant to the Regulatory Flexibility Act (RFA) of 1980, as amended by the Small Business Regulatory Enforcement Fairness Act (SBREFA), MSHA has analyzed the compliance cost impact of the proposed rule on small entities. Based on that analysis, MSHA certifies that the proposed rule would not have a significant economic impact on a substantial number of small entities because it does not impose any new costs. Therefore, the Agency is not required to develop an initial regulatory flexibility analysis.
The Paperwork Reduction Act (PRA) provides for the Federal government's collection, use, and dissemination of information. The goals of the PRA include minimizing paperwork and reporting burdens and ensuring the maximum possible utility from the information that is collected (44 U.S.C. 3501). There are no information collections associated with this proposed rule.
MSHA has reviewed the proposed rule under the Unfunded Mandates Reform Act of 1995 (2 U.S.C. 1501 et seq.). MSHA has determined that this proposed rule does not include any federal mandate that may result in increased expenditures by State, local, or tribal governments; nor would it increase private sector expenditures by more than $100 million (adjusted for inflation) in any one year or significantly or uniquely affect small governments. Accordingly, the Unfunded Mandates Reform Act of 1995 requires no further Agency action or analysis. Since the proposed rule does not cost over $100 million in any one year, the proposed rule is not a major rule under the Unfunded Mandates Reform Act of 1995.Start Printed Page 2068
The proposed rule was written to provide a clear legal standard for affected conduct and was carefully reviewed to eliminate drafting errors and ambiguities, so as to minimize litigation and undue burden on the Federal court system. Accordingly, the proposed rule meets the applicable standards provided in section 3 of E.O. 12988, Civil Justice Reform.
Executive Order 13211 requires agencies to publish a statement of energy effects when a rule has a significant energy action that adversely affects energy supply, distribution or use. MSHA has reviewed this proposed rule for its energy effects because the proposed rule applies to the metal and nonmetal mining sector. MSHA has concluded that it is not a significant energy action because it is not likely to have a significant adverse effect on the supply, distribution, or use of energy. Accordingly, under this analysis, no further Agency action or analysis is required.
For the reasons set out in the preamble, and under the authority of the Federal Mine Safety and Health Act of 1977, as amended by the Mine Improvement and New Emergency Response Act of 2006, MSHA proposes to amend chapter I of title 30 of the Code of Federal Regulations as follows:
Detonator. Any device containing a detonating charge used to initiate an explosive. These devices include electronic detonators, electric or nonelectric instantaneous or delay blasting caps, and delay connectors. The term “detonator” does not include detonating cord. Detonators may be either “Class A” detonators or “Class C” detonators, as classified by the Department of Transportation in 49 CFR 173.53 and 173.100 which is available at any MSHA Metal and Nonmetal Safety and Health district office.
3. Amend § 56.6310 by:
4. In § 56.6407 amend paragraphs (a) and (c) by adding the words “or electronic” after the word “electric”.
7. Amend § 57.6310 by
8. In § 57.6407 amend paragraphs (a)(3) and (b)(2) by adding the words “or electronic” after the word “electric”.
9. Amend § 57.6604(b) by adding the words “electronic or” after the word “Underground”.
3. As MSHA was in the process of publishing this 1991 rule, DOT revised its classification requirement at 49 CFR 173.50 and 173.53 (55 FR 52619) consistent with the United Nations Recommendations on the Transport of Dangerous Goods, issued December 21, 1990. Under DOT's revisions, Class A explosives were reclassified as “Division 1.1 and Division 1.2” to mean explosives that have a mass explosion hazard (explosion would affect the entire load instantaneously) or projection hazard (explosion would result in projection of fragments). Class C explosives were reclassified as “Division 1.4” to mean explosives that have a minor explosion hazard (explosive effects are confined to the packaging). These revised definitions form the current classification system recognized for shipping and packaging explosives in the U.S.
5. Testimony of the Honorable Thomas M. Sullivan Chief, Counsel for Advocacy U.S. Small Business Administration, U.S. House of Representatives, Committee on Small Business, Subcommittee on Regulations, Health Care, and Trade, July 30, 2008.
[FR Doc. 2019-28447 Filed 1-13-20; 8:45 am]