Health and Safety Keeping Pace with Technology. Thomas Novak, Ph.D., P.E. Professor and Alliance Coal Academic Chair University of Kentucky

Health and Safety Keeping Pace with Technology Thomas Novak, Ph.D., P.E. Professor and Alliance Coal Academic Chair University of Kentucky

Outline Coal Mining and Accident Statistics in the U.S. Coal Workers Pneumoconiosis (CWP) Current and Proposed Respiratory Dust Regulations Proximity Detection Communications/Tracking Systems

Number Rate per 100,000 Employees Historical Perspective of Fatalities in U.S. 1,600 1,200 800 400 Fatalities Federal Coal Mine Health and Safety Act of 1969 Fatality Rates Federal Mine Safety and Health Act of 1977 The MINER Act of 2006 400 300 200 100 0 0

Production (million short tons) Productivity (Short Tons per Man-Hour) U.S. Coal Production and Productivity 1,200 1,000 800 Production 8.0 7.0 6.0 5.0 600 400 200 Productivity 4.0 3.0 2.0 1.0 0 1950 1955 1960 1965 1970 1975 1980 1985 1990 1995 2000 2005 2010 0.0

Number of Coal Mines in the U.S. 2500 2000 Surface and Underground 2,076 1500 Surface Underground 1,451 1000 625 500 0 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Source: National Institute for Occupational Safety and Health

Number of Fatalities More Recent Fatalities in U.S. 70 60 50 JWR No. 5 Mine Explosion Upper Big Branch Mine Explosion Sago Mine Explosion 40 30 20 10 0

Fatalities vs Mine Size 250 50 Surface Number 40 200 Underground Rate Surface Rate 35 Number 1990-2009 150 30 25 100 20 15 50 10 5 0 < 10 10-19 20-49 50-99 100-249 250 0 Source: National Institute for Occupational Safety and Health Rate per 100,000 Employees Underground Number 45

Coal Workers Pneumoconiosis (CWP)

Coal Workers Pneumoconiosis - CWP Black Lung Incurable chronic lung disease. Advanced stages Progressive Massive Fibrosis (PMF). PMF Lungs become rigid and lose their ability to expand fully. Medical Complications: Airflow obstruction, Respiratory infection, Low blood oxygen levels, Respiratory failure, Enlargement of the heart, and Abnormal heart rhythm.

Coal Workers Pneumoconiosis - CWP According to NIOSH: 1970 to 2004 CWP caused or contributed to 69,377 deaths. 1980 to 2005 over $39 billion in CWP benefits were paid to coal miners and their families.

Prevalence (%) Prevalence of CWP 35 30 25 20 15 10 5 0 25+ years 20-24 years 15-19 years 10-14 years 0-9 years 1970-1974 1975-1979 1980-1984 1985-1989 1990-1994 1995-1999 (Source: NIOSH Coal Workers' X-ray Surveillance Program) 2000-2005 - 2004 2006

CWP Black Lung Disease According to NIOSH: For miners with 25 or more years of experience, the occurrence rate of black lung has nearly doubled since its low point. The disease is occurring in younger miners. CWP s progression rate from beginning stages to more advanced stages has accelerated.

CWP Black Lung Disease Mine Safety and Health Administration (MSHA) instituted a Comprehensive Initiative to End Black Lung Act Now. The initiative includes rulemaking, enhanced enforcement, collaborative outreach, and education and training.

Dust Samplers Coal Mine Dust Personal Sampler Unit (CMDPSU) Continuous Personal Dust Monitor (CPDM) MSHA s proposed rule totally phases-out the use of the CMDPSU in favor of the CPDM.

Continuous Personal Dust Monitor NIOSH funded its development. Designed to operate continuously for 12 hours, and displays three values: Respirable-dust concentration for the most recent 30-minute period, Average respirable-dust exposure from the beginning of the shift, and Current percentage of the exposure limit.

MSHA s Proposed Rule: Lowering the Respirable-Dust Standard Reduces the exposure limit from 2.0 mg/m 3 to 1.0 mg/m 3 at the working face. Reduces the 1.0-mg/m 3 requirement in the intake air within 200 ft of the working faces to 0.5 mg/m 3.

MSHA s Proposed Rule: Single-Shift Sampling for Compliance Compliance with the existing standard Determined by calculating the average dust concentration for the designated occupation (and other occupations) from five valid samples taken during five consecutive, normal-production shifts. Compliance with the proposed standard Determined from single-shift dust measurement during a normal-production shift.

MSHA s Proposed Rule: Redefine Normal Production Shift The term normal production shift is redefined from 50% or higher of the average coal production for the 30 most-recent production shifts to 100% or higher of the average coal production for the 30 most-recent production shifts.

MSHA s Proposed Rule: Increased Sampling Frequency Existing Rule Designated occupations (DO) and other occupations are sampled on a bimonthly basis. Proposed Rule Designated occupations (DO) must be sampled during each production shift, seven days per week, 52 weeks per year. Other designated occupations (ODO), must be sampled during each production shift for 14 consecutive days during each quarterly period.

MSHA s Proposed Rule: Full-Shift Sampling Existing Rule Requires the respirable dust concentration to be measured for an 8-hr shift. (If an operator works a shift longer than 8 hrs, the sampler is turned off after 8 hrs.) Proposed Rule If a work shift is longer than 8 hrs, the concentration must be converted to an 8-hr equivalency.

Proximity Detection

Remote Control Deep Cuts 40 ft

Remote-Control Crushing Accidents 14 Fatalities since 2000 31 Fatalities since 1984 Fatalities by location Location A: 9 Fatalities Location B: 7 Fatalities Location C: 4 Fatalities Location D: 4 Fatalities Location E: 2 Fatalities Locations F, G, H, I, and J: 1 Fatality E F G I C H D J A B

Safety-Zone Approach Not effective for the operator of a remote-controlled continuous miner during the mining cycle.

Actual Operator Location Arrangement of six RF receivers on machine. RF Transmitter located on operator. Field strength is used to estimate distances between the transmitter and the receivers. Operator s location is based on the estimated distances. Source: Matrix Development / Joy Mining Machinery

Triangulation Machine Operator

Proximity Detection Challenges To design a system that Enables the operator to work anywhere around the machine. Knows precisely where the operator, and other miners in proximity of the machine, are located. Allows only specific movements of the machine to be constrained so that the operator can not be injured.

Surface Control Center Communications and Tracking Power Supplies PS CS GN PS Power Supply Shaft, Slope, or Drift Gateway Node PS Node N N PS PS N N PS

Communications and Tracking Required by the Mine Improvement and New Emergency Response Act (MINER Act) Systems must be designed and installed to maximize their survivability after a mine disaster, such as an explosion or fire. Therefore must have a permissible battery backup power supply.

Mesh System Nodes are arranged in a mesh pattern The system determines the best route If a node fails the system reconfigures itself and determines a new route

Tracking System Radio Frequency Identification (RFID) 1 2 3 4 5 6 Location: Node 4

Lithium-Ion Batteries Lithium-ion batteries are being used by some communications and tracking systems as the backup power supply. Advantages: Lightweight, High energy density, Wide variety of shapes and sizes, No memory effect, and Low self-discharge rate.

Safety Issues: Some Types of Lithium-Ion Batteries Overheating or overcharging can result in thermal runaway and cell rupture. Also, during the manufacturing process, tiny pieces of metal may unintentionally be deposited in the electrolyte. The metal particles may puncture the separator and cause a short circuit. The flammable electrolyte may ignite, causing a fire. A temperature increase results in a pressure increase, and the battery may explode.

Possibility of Lithium-Ion Battery Fires

Conclusions As technology progresses, we must always consider the associated consequences from a health and safety perspective. As we introduce new safety technology into mines, we must be sure that we are not inadvertently creating other safety problems.

Thank You!