1 / 77

VIRGINIA

H AZARD A LERT L IVE T OMORROW. VIRGINIA. DIVISION OF MINES. INSTRUCTORS GUIDE.

berenicew
Download Presentation

VIRGINIA

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. HAZARDALERTLIVETOMORROW VIRGINIA DIVISION OF MINES INSTRUCTORS GUIDE This complete mine emergency training program developed by the Division of Mines (DM) was designed to increase the technical knowledge and safety awareness of mining personnel and to provide up-to-date mine emergency training materials and a 90-Day Mine Emergency Evacuation and Firefighting record book. Mine emergency preparedness and emergency incident training efforts have been intensified with special emphasis devoted to Virginia fires/inundations, explosions and mine explosion, fire and inundation training exercises and gas detection training. As Virginia and national coal mines advance in close proximity to old abandoned mines, the recognition and reaction to possible inundations of water, methane and blackdamp (low oxygen) present a tremendous potential for explosions, serious accidents and fatalities. Nothing is more important than mine emergency training. This instructor’s guide and associated PowerPoint presentation was developed for local and national use by DM, industry, MSHA, private and educational institution trainers. This guide will enhance the capability of instructors to provide quality, effective mine emergency training and can be used in various types of training classes including: (1) new miner; (2) annual refresher; (3) experienced miner training; and (4) supervisory retraining.

  2. MINE EMERGENCIES EXPLOSIONS – FIRES - INUNDATIONS The disasters at Sago, Alma and Kentucky Darby has made each of us realize that we must re-evaluate the quality and effectiveness of our mine emergency preparedness. Conditions in the mine as well as training, especially the donning of SCSR’s, always provide potential risks if we aren’t fully prepared and react properly to any mine emergency situation. Effective emergency escape procedures and donning of SCSR’s has become paramount as miners lives have been lost. We must do more and do it better to fully prepare ourselves and our nations miners to be able to safely react to any mine emergency situation.

  3. MINE EMERGENCIES EXPLOSIONS – FIRES - INUNDATIONS The following are basic mine emergency safety keypoints in addressing mine explosions, fires, gas and water inundations, etc. that all trainers and coal miners should be familiar with. A lack of effective training or knowledge of emergency procedures could result in serious injury or even death if you aren’t properly trained and don’t know how to react properly to a mine emergency. Always Remember: If you fail to plan, then you can plan to fail. Never Forget:Nothing is more important than mine emergency and SCSR training. • You must always be confident that you know how to properly donn an SCSR. You never know when you may have to exit the mine wearing one. Underground coal miners have perished when a mine emergency occurred and the miners could not properly donn an SCSR due to inadequate, ineffective training. If you don’t wear an SCSR on your person, then always keep it readily accessible at all times and know where other SCSR’s may be stored underground.

  4. Know your mine ventilation and emergency escapeway systems. Know how the air flows in your mine. Know where and how water drains in your mine and how water accumulations affect the mine ventilation system(especially travelways and escapeways). Make sure all miners are familiar with the emergency escapeway routes and where the lifeline is located. Always keep the lifeline advanced to at least the loading point/section transformer area. EVERYONE’S LIFE MAY DEPEND ON IT!!! • Keep your escapeway map up-to-date and know where it is located at all times. You never know when this map may have to be used to escape safely from the mine. • Know the elevations of your mine. Be familiar with all low places in your mine, because water and or low oxygen that enters your mine will flow to these low-lying areas. Be familiar with water drainage and pumps located in the travelways and escapeway entries and other areas of the mine and what may happen if the pumps are deenergized.

  5. Be familiar with your mine map, underlays, overlays, etc. and know where any old mines adjacent to, under or over your mine are located. You must recognize and understand possible warning signs and hazards associated with mining near abandoned works or old mines. Review and know the signs that may indicate your mine is mining in close proximity to old workings in your mine or another mine. Can you name three (3) indicators of mining in close proximity to old works? • VI.You must understand the information provided on mine maps. What does the “extent of mining or mining boundaries” identified with “dotted lines” indicate? Dotted lines signify that such mine workings or boundaries MAY OR MAY NOT be accurate. But, this does not mean that old mine workings or boundaries identified with “solid lines” are always 100% accurate. • 1.     1. Changes in color, texture or softness of the coal, • 2.     2. Water coming thru the coal, mine floor, roof or ribs, • 3. Cracks in the coal, mine floor, ribs, etc.

  6. VII. Barometric pressure – coal miners must have a basic knowledge of barometric pressure to fully understand the relationship of weather fronts moving through with the barometric pressure dropping and methane liberation in a coal mine. • The barometric pressure drops when weather fronts (cold, rain, snow, etc.) start moving in and through the area; • As the pressure drops, more methane is liberated because the normal barometric pressure that helps stabilize and hold the methane in place is reduced; • More methane is liberated out into active mine workings behind seals etc. • More methane will be liberated in mines that normally liberate gas on a regular basis and methane may be found in mines where not normally detected except when weather fronts are moving through and the barometric pressure is dropping.

  7. The first action that should be taken underground if a mine emergency such as an explosion, fire or inundation of gas or water does occur is to account for all miners underground in your assigned work area, face, belt drive, etc. The outside (surface) person should be properly trained that his/her first course of action after receiving report of an underground emergency is to attempt to contact and inform everyone located underground about the type and location of the emergency. The outside person should also be properly trained on how to notify State, Federal and mine rescue officials. Miners located in all areas of the mine should be alerted to the emergency as soon as possible to also expedite their timely evacuation. This timely notification of miners located on a different working section during the Pennsylvania Quecreek mine water inundation saved the lives of nine (9) coal miners and timely notification/evacuation from a Virginia coal mine in which an ignition/mine fire occurred in 2005 may very well have saved the lives of 93 underground miners. NEVER FORGET: Lives are at Risk. Timely notification and evacuation has to happen and everyone that goes into the mine must be properly trained in the emergency procedures to be followed.

  8. Rehearse fire fighting and mine emergency escape procedures. Everyone should know what they should and should not do and where they should go from any location in the mine if a mine emergency occurs. Miners should be trained and retrained during ninety-day emergency evacuation/fire drills and annual retraining to proceed immediately to a designated location and all miners accounted for at a designated location if a mine emergency does occur. The designated location on a working section should usually be the mantrip station, which in most cases will be in or near the intake escapeway and lifeline entry. • Remember: if your mine fan is exhausting and your mine cuts into another mine, then contaminants including methane, carbon dioxide, low oxygen, etc. will be drawn out of the old mine into your mine. The rate of flow of gases into your mine will depend on the mine ventilation system, elevations of both mines in relation to each other, and whether or not mine gases in the old mine are pressurized. If your mine fan is blowing, then your mine’s ventilation will have a tendency to keep pressure against the mine gases from the old mine, but pressurized mine gases from the old mine could override your ventilation system and enter your mine. Know and understand your mine ventilation system. Know how the beltline entry is ventilated and in what direction a fire and/or smoke would travel if located in the beltline entry.

  9. Never use a SCSR to enter a known or suspected dangerous atmosphere (smoke, cut into old mines, etc.) other than to escape. Only mine rescue teams wearing proper apparatus should enter such areas. SCSR’s should only be used for escape purposes. • If a mine emergency does occur: The person or persons discovering an emergency situation should immediately attempt to contact and inform surface personnel from the first accessible telephone of the following: • Where and what happened; conditions present at incident area; • Any miners to be left in the mine and their condition, location, etc; • Time and number of crew members leaving a particular location; • Method and direction of escape (walking, crawling, riding, and entry traveled, etc.). The surface person should attempt to alert other miners in the mine immediately upon receiving information about the emergency.

  10. Never reverse or change existing ventilation direction, except under the direction of DM, MSHA, company and mine rescue officials. Coal miners are trained and retrained to exit a mine using the intake escapeway entries during mine emergencies and reversing or altering ventilation in the designated intake escapeway entry(ies) could cause serious injuries or death to the miners. • No person should enter a mine to attempt rescue of miners where a mine emergency exists, except under the direction of DM, MSHA, company and mine rescue officials. • Mine fires create special dangers to workers located underground including: (1) restricted or zero visibility while attempting escape from the mine; (2) extreme heat that affects the body, lungs and the mine roof; (3) smoke; (4) carbon monoxide, carbon dioxide and toxic smoke tars. • REMEMBER: Most underground fires that aren’t controlled in 30 minutes usually result in sealing the mine, hopefully with everyone out of the mine. 30 MINUTES – Is the “Golden Time” that we live by in the coal mining industry to get an underground fire under control or else usually the mine will have to be sealed.

  11. VIRGINIA - INUNDATIONS • 1995 – 2006: Virginia has experienced 54 incidents of unintentionally mining into abandoned mines, old works, sealed areas, etc. Virginia has experienced 20 of these type incidents from 2000-2006. • Results of these incidents: • Water inundations • Blackdamp (low oxygen, carbon dioxide) • Explosive gases (methane concentrations) Remember: Pressure differentials between active and abandoned works can result in rapid flow of gases from old works, especially when exhausting mine fans are used and scrubbers are on a miner that holes through!!

  12. MINE SITE TRAINING ON INUNDATIONS

  13. Accidental Cut Throughs can lead to: • Inundation of water. • Inundation of oxygen deficient air and/or methane. • Downtime • Loss of equipment. • LOSS OF LIFE! 200 Ft. MINING LIMIT

  14. 200 Ft. MINING LIMIT

  15. PREVENT ACCIDENTAL HOLE THROUGHS INTO ABANDONED MINE WORKINGS SAFETY KEYPOINTS: • Consider all mine workings (active and abandoned) located adjacent, above or below mining areas; determine location of workings and water levels. De-water mine workings if necessary. • Perform a diligent search for the final, dated, and signed maps of old workings in mines above, below, or adjacent to mining areas. • Gather information about mining in or near old or abandoned mines by interviewing local sources, former miners, and walk or examine outcrops. • Evaluate surface subsidence and geological structures; rock strata make-up, dip and pitch of the seam, elevations, and faults.

  16. Analyze prudent mine design; provide sufficient barrier pillars and evaluate interburden thickness; compare mine surveys from a common base line. • Consider the use of directional, long-hole drilling to ensure adequate barriers around mining areas. • Drill bore holes in advance of mining activities as required by State and Federal laws. • Have a specific emergency response plan when mining near old works. Consider and review elements of that plan frequently with all affected miners.

  17. GAS/WATER INUNDATIONS – SCENARIO TRAINING Part I • The location and extent of the gas or water inundation, if known, shall be reported immediately to the authorized person located on the surface. The authorized person located on the surface shall do the following immediately upon receiving information that a gas or water inundation has occurred. • Contact the responsible person or designee at the mine, supervisors and/or personnel in all available areas of the mine; • Notify Division of Mines and MSHA officials immediately, at once without delay after confirming the incident and within 15 minutes; • Notify mine rescue teams and other support personnel as directed by the responsible person or his designee.

  18. Underground personnel evacuating should, if possible and time permitting, contact surface personnel from the first accessible telephone and provide the following information: • Location and extent of gas or water inundation, if known, and conditions present at your location; • Any miners evacuating from the mine and their location, conditions, etc; • Number of miners leaving a particular location; • Direction, entry and method of evacuation (riding, walking, crawling, etc.) • All mine personnel not required for emergency response shall evacuate form the mine by the quickest, most practical means, which may very, depending on the situation, post-inundation conditions, availability of transportation equipment, etc. • All underground personnel shall be accounted for, assembled to prepare for evacuation and withdrawn to a location designated by the responsible person or his designee. • The electrical power to the affected equipment and/or area of the mine shall be deenergized as directed by the responsible person or his designee.

  19. All underground personnel not required for emergency response shall evacuate from the mine – identify primary escapeway and alternate (secondary) escapeway entries. • FIRST CHOICE – The entry traveled during your normal mode of transportation into and out of the mine is usually the quickest and is usually the primary or alternate (secondary) escapeway. The entry traveled into and out of the mine should be traveled until conditions such as physical obstructions prevent further evacuation in this entry. Diesel-powered equipment will become inoperative in high concentrations of methane and in irrespirable atmospheres. Battery-powered equipment must not be operated in explosive atmospheres. This decision should be based on the entry which would provide the most practical safest and most expedient evacuation from the mine. REMEMBER: You can always ride faster than you can walk or crawl and with conditions permitting, ride as far as you possibly can. • SECOND CHOICE – Generally, the other escapeway not normally used to enter and exit the mine. • THIRD CHOICE – An alternate entry not selected as the first or second choice.

  20. Each miner shall have an SCSR in their possession and an additional SCSR readily accessible or on the transportation equipment. The additional SCSR storage locations are shown on both the mine map (surface) and escapeway map. Identify locations of stored SCSR’s, if applicable. Miners should don a self-rescue device when smoke, odor, fire, or any contaminated atmosphere is encountered. Miners are encouraged to don self-rescue devices whenever they believe they are exposed to a toxic or irrespirable atmosphere. Mine operators are encouraged to provide air quality detectors so that miners will be able to better identify hazardous atmospheres. • Lifelines or equivalent devices are provided in both the primary and secondary (alternate) escapeway entries. • Additional SCSR’s are stored on active working sections; sections being installed or removed; and at rehabilitation sites; and are located at crosscut no.(s) ____ and ____ and are physically attached to the lifelines or equivalent devices. Reflective, direction signs are conspicuously posted in each entry that identify each storage location. • During evacuation, the miners should get an escapeway map, if applicable, to take with them.

  21. If walking or crawling, the supervisor should travel in front with all persons using the lifeline to ensure no one is left behind. The miners should regulate their travel speed to accommodate the slower personnel in the group. • All miners should know and understand the following: • The mine emergency escapeways; • Mine gases including methane, low oxygen, blackdamp, carbon dioxide, etc. would enter your mine from another mine or from underlying, overlying or adjacent strata; • The rate of flow of gases into your mine depends on your ventilation system, elevations of other mines, if applicable, in relation to your mine and whether or not the mine gases are pressurized; • Mine gases will have a tendency to be drawn into your mine from adjacent/underlying/overlying strata, old mines, etc., if your mine fan is exhausting;

  22. Mine ventilation associated with a blowing fan will have a tendency to apply some pressure against the inundating mine gases but pressurized gases entering your mine could override your mine ventilation system. • The mine ventilation system; • Mine elevations (coal contour lines) and all low places, dips, etc. in your mine – water and blackdamp (carbon dioxide) will flow to low-lying areas; • Where and how water drains in your mine and how water accumulations affect the mine ventilation system, especially in escapeway entries; • The mine water drainage system and pumps located in the emergency escapeway entries and the result when such pumps are deenergized.

  23. The miners should consider traveling to the highest, most accessible area of the mine and/or barricading or entering a refuge chamber only when all escape routes are blocked or too hazardous to travel and should only be considered as a last resort. If all possible means of escape are exhausted and moving to higher ground or barricading is the only alternative, then barricade using all available resources to make the barricaded area airtight as possible while knowing that one (1) cubic yard of air per person per hour is required for survival. A note should be left outside the barricade indicating the number of miners and time the barricade was built. Oxygen tanks, water, food, all available SCSR’s and a sounding device for striking roof supports for seismic location from the surface must be taken into the barricade.

  24. GAS/WATER INUNDATION – SCENARIO TRAINING Part II MINERS – ON SECTION, OTHER SECTIONS AND OUTBY AREAS • Account for and assemble applicable personnel to prepare for evacuation. The responsible person will initiate and conduct immediate evacuation when imminent danger exists. • Report type, location and extent of gas or water inundation, if known, to surface personnel. • Evacuate all personnel not required for emergency response. • Evaluate status of ventilation and ventilation controls: altered, destroyed, removed, installed, etc. • Evaluate air qualities and quantities in areas of the mine. • Evaluate status/location of electrical and mechanical equipment/vehicles. • Evaluate extent of the gas or water inundation area.

  25. EVACUATION PROCEDURES Transportation Equipment Available Travel by transportation equipment the safest and most expedient entry (primary or alternate escapeway) to the surface, shift/slope bottom, etc. Transportation Equipment Unavailable Travel (walk/crawl) the primary or alternate escapeway entry – whichever provides the safest and most expedient travelway to the surface, shaft/slope bottom, etc.

  26. CONDITIONS REQUIRING IMMEDIATE DONNING OF SCSR’S • Miners should don a self-rescue device when smoke, odor, fire, or any contaminated atmosphere is encountered. • Miners are encouraged to don self-rescue devices whenever they believe they are exposed to a toxic or irrespirable atmosphere. • Mine operators are encouraged to provide air quality detectors so that miners will be able to better identify hazardous atmospheres.

  27. MINE EMERGENCY - INUNDATIONS Why is quality mine emergency training so important? LIVES ARE AT RISK ARE WE PREPARED FOR THIS? Quecreek Before • REMEMBER: • Lives depend on the quality and effectiveness of this training. We never know when we may need this training but we must always train to be prepared! Quecreek After

  28. Quecreek Water Inundation

  29. Mine Emergency Inundation Exercise 2006 Good Luck Coal Co. Got Rich Coal Company (Abandoned 06-58) Scoop Miner Bolter 200 ft. Drill Zone Std. S.C. Off Std. S. C. 1460 C C C C C P.C. 1490 1450 C C X Mantrips 1480 Phone C 1470 1440 D CC #43 1430 Pump No. 4 belt drive (No. 3 and 2 drives are at 1000’ intervals going outby. #1 is on the surface. Mine phones are located at each belt drive. Phone Mining Height – 42” #1 #5 #4 #2 #3 (Belt)

  30. MINE EMERGENCY INUNDATION EXERCISE 2006 The attached map will be used to work this mine emergency inundation problem. A series of questions will be asked as situations occur as a result of the mine emergency. Answers to these questions are provided, however, all of the answers may not be correct. There will be at least one correct answer for each question, however, more than one answer may be correct. Miners lives may be saved or lost based on the critical, life-saving decisions that they have to make while working through the exercise and attempting to escape from the mine. Select the correct answers.

  31. GOOD LUCK COAL COMPANY MINE HISTORY  AVERAGE WORKING HEIGHT – 42” VENTILATION SYSTEM – EXHAUSTING FAN INFORMATION– 36” FAN, 75HP – 550 VAC MOTOR Nine (9) persons are working on the section that is located 4000’ from the surface. The crew consists of the foreman, electrician, face utility man, continuous miner operator and helper, two (2) shuttle car operators, a roof bolting machine operator and a helper. A SCSR storage plan for this mine has not been approved, therefore, SCSR’s are required to be worn or located within 25 feet of employees. The designated intake escapeway is #4 entry and the lifeline is installed up to the 4th crosscut outby the face area.

  32. Mine personnel produce coal on the day shift and three (3) men entered the mine to perform belt maintenance work. This mine was projected to turn left to maintain a distance of 200 feet from the old mine. The section foreman had observed for the past 400 feet that the coal had become softer than in other areas of the mine, small cracks could be seen occasionally running from the right rib of #5 entry into the mine floor and occasionally some water was seen coming through the cracks. The preshift examination of the face areas conducted at 5:30 AM revealed the following: #1 entry - .1% Ch4 and 20.8% O2 #2 entry - .8% Ch4 and 20.8% O2 #3 entry- .5% Ch4 and 20.8% O2 #4 entry- .2% Ch4 and 20.8% O2 #5 entry - .1% Ch4 and 19.5% O2

  33. The roof bolter is located in #5 entry where bolts are being installed by the bolter operator and his helper. The continuous miner is located in the #4 entry where coal is being produced. The utility man is operating the scoop in #3 entry. The foreman and repairman are marking centers in #1 entry. The three beltmen are checking and cleaning the beltlines. The section crew arrived on the section, and the section foreman examined all working places. The foreman gave a safety talk on mining near old works, and the hazards of cutting into areas containing large amounts of water. After the safety talk, the crew began work where their equipment was located.

  34. Question A • What other information could have, and possibly should have been discussed during this safety talk based on the mine map and information provided? • The explosive range of carbon dioxide and all the possible ignition sources. Incorrect – carbon dioxide is non-explosive. But other facts about carbon dioxide should be discussed: 1. It is a major constituent of “blackdamp”; 2. It has a specific gravity of 1.529 and is heavier than air; 3. It will be found near the mine floor, flowing on top of water from an old mine, found in sealed areas, etc.; 4. It will flow toward low lying areas (down dip into lower elevations very similar to water flow); 5. It has an acid taste at high concentrations. 2. The mine map should have been reviewed to draw emphasis on the location and elevations of the old mine and hazards associated with mining near old works. Correct – All coal miners should know the effect of elevations and what to anticipate if you cut into an old mine. Every coal miner should know where water and/or low oxygen (blackdamp) would flow if you cut into an old mine.

  35. Correct – Every coal miner should have a thorough knowledge of blackdamp: what it is, how it behaves, effects on the body, etc. Knowing these characteristics could save your life. Blackdamp: 1. Is a generic term for an oxygen deficient atmosphere; 2. Will usually contain a high level of carbon dioxide; 3. Will not usually contain sufficient oxygen to support life; 4. Will usually flow to low-lying areas (down dip – similar to water); 5. Has various effects on the body depending on the amount of oxygen including: increased rate and labored breathing, dizziness, weakness, headache, nausea, vomiting, sick feeling, etc. Oxygen Characteristics: 1. 21% - normal air 2. 17% - rapid, deep breathing 3. 15% - rapid heart rate, dizziness, headache, nausea, vomiting, sick feeling 4. 9% - unconsciousness 3. The facts about a low oxygen atmosphere (blackdamp) and review of the escapeway system of the mine.

  36. 4. The importance of knowing how to properly don and the location of each person’s SCSR. Correct – Every coal miner should not have any doubt that they can properly don an SCSR. Every time you look at your family, close your eyes and rehearse SCSR donning procedures in your mind. Just think, both of these are very important in your life.

  37. The roof bolter operator de-energizes the bolting machine and informs the helper that he has a very severe headache. The operator and helper take a break. The operator took three (3) Tylenol tablets and resumes bolting operations. Ten minutes later the operator de-energizes the bolting machine again and tells the helper that his headache is much worse, and that he feels sort of weak, dizzy, and nauseated. The helper goes to the #1 entry and gets the foreman. Upon arrival, the foreman determines that the bolter operator is probably taking the flu and directs him to go to the feeder and telephone one of the belt maintenance men to come and get him and take him outside. The bolter operator does as the foreman instructs him.

  38. QUESTION B What evaluation or examinations could or should have been conducted by the foreman? 1. Tests for methane and low oxygen should have been conducted immediately after entering the area due to the location of the old mine. Correct - The location of the old mine and recent cracks in the right rib and mine floor in #5 entry should have prompted these tests. 2. Four test holes should have been drilled in line with the last row of roof bolts. Incorrect. Has no validity in this situation.

  39. 3. The immediate area should have been examined for cracks along the right rib or mine floor that had been seen previously for the past 400 feet in this area. If cracks were observed, methane and oxygen tests should have been conducted immediately at those cracks. Correct - The location of the old mine should have prompted a thorough examination for cracks in the rib and mine floor and tests for methane and low oxygen should have been conducted. 4. The resin should have been removed from the mine and analyzed to determine if it had any toxic affects that may have caused the bolter operator’s headache. Incorrect. Most likely not a factor.

  40. The belt maintenance man and the bolter operator started toward the surface. The foreman and the bolter helper resume work. The foreman travels to #1 entry to get the electrician to help the bolter helper install bolts. The foreman stays with the bolter helper and electrician to insure that they can install resin bolts properly. The bolter helper suddenly develops a severe headache, and feels dizzy and nauseated. The foreman and electrician also develop a slight headache.

  41. QUESTION C What should the foreman do now? 1. Evacuate the mine. Overall correct, but does the foreman know why he is evacuating the mine? 2. Conduct an oxygen test immediately because men in this area are displaying the effects of low oxygen to the body. Correct - A low oxygen test should have been conducted when the foreman, bolter helper and electrician also developed headaches in this area. 3. Continue work as normal, because it is normal that bolter operators that install resin roof bolts get headaches. Incorrect.

  42. 4. Travel to the surface and call the mine operator who is on vacation in Virginia Beach. Incorrect. The foreman should be conducting examinations and tests to identify hazardous conditions that are affecting his crew members and evacuate the mine if necessary.

  43. While the foreman, electrician and bolter helper are still located in #5 entry, the three men start to experience breathing problems and the foreman realizes that he may have a serious problem. The foreman conducts an oxygen test and detects 16% oxygen.

  44. QUESTION D What should the foreman do now? 1. Evacuate the area and immediately remove the electrician and bolter helper from this area with him. Correct. Removal of the bolter helper and electrician from this area is the foreman’s first responsibility. Everything in a coal mine is secondary to the safety of mining personnel. 2. Examine the immediate area to evaluate a possible source of the low oxygen while evacuating from the area with his crew. Correct. Remember, oxygen at this level increases the breathing rate, causes breathing problems and headaches. When a foreman detects this level oxygen, his first responsibility is the removal of his personnel to a safe work area or evacuation from the mine. An examination of the immediate area to verify the low oxygen source may be conducted as the foreman is withdrawing his personnel from this location (entry face area, etc.) but only a brief examination should be attempted. Oxygen at this level and below becomes dangerous very quickly. If not already located in this area, then a foreman should not enter such area except when necessary to evacuate the mine.

  45. 3. Continue to work because the oxygen detector is probably incorrect, because it hasn’t worked properly for the past three weeks. Incorrect. Anytime a foreman suspects that his methane – oxygen detector is not operating properly, then another properly calibrated detector should be obtained. 4. Evacuate the mine. Correct, but does the foreman realize why he is evacuating the mine?

  46. The foreman realizes that something really serious is wrong, and starts across the section to gather up all the crew. At this time, the foreman has the bolter helper, electrician, and one shuttle car operator with him. As the foreman comes across the last open crosscut at the entrance of #4 entry, the miner helper and shuttle car operator come running out of the working face area, yelling that they had cut into an old mine and that the miner operator had become unconscious and was lying beside the continuous miner. Water, six inches in depth, is flowing from the #4 entry face area down #4 entry, across the last open crosscut toward and down #5 entry.

  47. QUESTION E What should the foreman do now? 1. Don his SCSR and go get the miner operator. Incorrect, this is a very sensitive thought but may cost the foreman his life. Also, SCSR’s are used only for escape purposes and should not be used to enter an oxygen deficient area. 2. Gather up the remaining crew members and start to the surface out #4 entry – the designated escapeway. Correct, but the foreman should make oxygen tests during travel. This is the lowest side of the section and any low oxygen coming from the old mine would flow toward this area. The first option and the first choice is to always travel the designated intake escapeway as far as possible until blocked or unless unsafe to do so due to contaminants such as fire, gases, smoke, etc. The second option should be another intake entry. The third option and is the case in this mine emergency exercise is the belt entry. The return entries are the last choices of emergency evacuation but may have to be attempted if all other entries are blocked.

  48. 3. Gather up the remaining crew members, travel #2 entry to the surface because water is flowing down the #4 and #5 entries. Incorrect, travel in #2 entry would place the crew in contaminated return air. 4. Travel by the section transformer and get the mine emergency escapeway map that is located in the first aid box. Correct. If possible, the crew should get the mine emergency escapeway map before starting evacuation during a mine emergency situation. After discussing all responses, answer the following question: Question: After reviewing the mine map and elevations identified in both mines, where will the water and any possible “blackdamp” flow into Good Luck Coal Company? (review mine map) Answer: Water and any possible “blackdamp” will flow down #4 and #5 entries toward low-lying areas (some water and blackdamp will flow across the section and outby into #1 and #2 entries).

  49. The mine foreman takes an oxygen test in the last open crosscut at the entrance of #4 entry face area and detects 14% oxygen and is experiencing severe breathing problems. The foreman then travels on across the section through the LOCC and has assembled his remaining crew members, including the utility man, in the last open crosscut, at the entrance of #2 entry working face area. At this time, the shuttle car operator and miner helper tell the foreman that they left their SCSR’s on their respective equipment.

  50. QUESTION F What should the foreman and crew do now? 1. Send the shuttle car operator and miner helper back to get their SCSR’s and instruct everyone else to don their SCSR. Incorrect. The SCSR’s could save their lives later in this mine emergency, but going back into an oxygen deficient atmosphere is not recommended. This act may cost these two miners their lives. The other miners may or may not don their SCSR’s, but they must evaluate the time that it takes to get to the surface, as compared to one hour that most SCSR’s are designed to last. 2. Proceed to escape from the mine out the #2 entry because the water is flowing down #4 and #5 entries. Incorrect. They would be traveling in possibly contaminated return air.

More Related