A METHOD AND SYSTEM FOR DETECTING AND REDUCING METHANE HAZARD IN VICINITY OF A LONGWALL

A METHOD AND SYSTEM FOR DETECTING AND REDUCING METHANE HAZARD IN VICINITY OF A LONGWALL

A method of detecting and reducing methane hazard in the longwall area is characterized in that the regions of stress (N) concentration are periodically localized on the longwall panel length by a passive velocity tomography using seismometers (8) and low-frequency geophones (9). These data are comp...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: GOŁĄBEK, ADAM, ISAKOW, ZBIGNIEW, SICIŃSKI, KAZIMIERZ
Format: Patent
Sprache:eng ; fre
Schlagworte:
ALARM SYSTEMS
DETECTING MASSES OR OBJECTS
EARTH DRILLING
FIXED CONSTRUCTIONS
GEOPHYSICS
GRAVITATIONAL MEASUREMENTS
INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIRCHEMICAL OR PHYSICAL PROPERTIES
MEASURING
MINING
ORDER TELEGRAPHS
PHYSICS
SAFETY DEVICES, TRANSPORT, FILLING-UP, RESCUE, VENTILATION, ORDRAINING IN OR OF MINES OR TUNNELS
SIGNALLING
SIGNALLING OR CALLING SYSTEMS
TESTING
Online-Zugang:Volltext bestellen
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:A method of detecting and reducing methane hazard in the longwall area is characterized in that the regions of stress (N) concentration are periodically localized on the longwall panel length by a passive velocity tomography using seismometers (8) and low-frequency geophones (9). These data are compared with current seismoacoustic measurements localizing places (M) of groups of crashes accompanying cracking of the rock mass in the longwall panel length, with measurements of methane concentration and the air flow in the working. The places of stress (N) concentration in front of the longwall are additionally localized with an active attenuation-damping tomography taking into account a shearer (13) position relative to the working (B). Then, these variables are correlated in time and space, and after finding that the correlation coefficient exceeds predetermined critical value, preventive procedures to minimize methane hazard are initiated. In the measurement system the seismic recording system (1), methanometric system (3), executive system (6), and warning module (7) are connected to the microprocessor analytical system (5). The seismic recording system (1) with attached at least four seismometers (8), at least four low-frequency geophones (9) and at least two strain sensors (10), is connected to the seismoacoustic recording system (2) with at least four geophones (11), and to the position and operation control system (4) of the shearer (13) with a shearer position sensor (12). Procédé pour détecter et réduire le risque d'une présence de méthane dans la zone d'une longue taille, caractérisé en ce que la concentration des régions de contrainte (N) est périodiquement localisée sur la longueur du panneau de longue taille par une tomographie passive de vitesse sismique utilisant des sismographes (8) et géophones à basse fréquence (9). Ces données sont comparées à des mesures sismo-acoustiques actuelles localisant les emplacements (M) d'ensembles d'effondrements accompagnant des fissurations de la masse rocheuse dans la longueur de panneau de longue taille, à des mesures de concentration en méthane et de l'écoulement d'air sur le lieu d'exploitation. Les emplacements de concentration des contraintes (N) à l'avant de la longue taille sont en outre localisés au moyen d'une tomographie active mesurant l'amortissement-atténuation en prenant en compte la position d'une haveuse (13) par rapport au lieu d'exploitation (B). Ensuite, ces variables sont corrélées dans le