Abstract
Efforts are made to develop a high-precision high-resolution seismic reflection method, high-efficiency method for measurement in the bored hole, coal potentiality assessment system, and so forth. For the development of the seismic reflection method, studies are conducted to properly deal with a situation where there are high-velocity layers at levels shallower than the object coal bed, and a conclusion is reached that quake generation based on the pseudorandom binary sequence code will be the best for the purpose. The system was tested for verification in a producing coal mine. As for measurement in the bored hole, an on-site test was conducted for a geophysical logging system capable of determining the total sulfur content, ash, and the like, and the system was found to supply high-quality data. In developing the coal potentiality assessment system, studies were made about the basic concept of the coordination of the system with the coal GIS (geographical information system) dealing with spatial data and about the functions of the system, and a conceptual design was prepared. (NEDO)
Citation Formats
None.
Report on fiscal 2000 basic survey for coal resource exploration. Survey for development of new exploration technology (Exploration of shallow layers on the land); 2000 nendo sekitan shigen kaihatsu kiso chosa hokokusho. Shintansa gijutsu chosa kaihatsu (rikuiki senso tansa).
Japan: N. p.,
2001.
Web.
None.
Report on fiscal 2000 basic survey for coal resource exploration. Survey for development of new exploration technology (Exploration of shallow layers on the land); 2000 nendo sekitan shigen kaihatsu kiso chosa hokokusho. Shintansa gijutsu chosa kaihatsu (rikuiki senso tansa).
Japan.
None.
2001.
"Report on fiscal 2000 basic survey for coal resource exploration. Survey for development of new exploration technology (Exploration of shallow layers on the land); 2000 nendo sekitan shigen kaihatsu kiso chosa hokokusho. Shintansa gijutsu chosa kaihatsu (rikuiki senso tansa)."
Japan.
@misc{etde_20237494,
title = {Report on fiscal 2000 basic survey for coal resource exploration. Survey for development of new exploration technology (Exploration of shallow layers on the land); 2000 nendo sekitan shigen kaihatsu kiso chosa hokokusho. Shintansa gijutsu chosa kaihatsu (rikuiki senso tansa)}
author = {None}
abstractNote = {Efforts are made to develop a high-precision high-resolution seismic reflection method, high-efficiency method for measurement in the bored hole, coal potentiality assessment system, and so forth. For the development of the seismic reflection method, studies are conducted to properly deal with a situation where there are high-velocity layers at levels shallower than the object coal bed, and a conclusion is reached that quake generation based on the pseudorandom binary sequence code will be the best for the purpose. The system was tested for verification in a producing coal mine. As for measurement in the bored hole, an on-site test was conducted for a geophysical logging system capable of determining the total sulfur content, ash, and the like, and the system was found to supply high-quality data. In developing the coal potentiality assessment system, studies were made about the basic concept of the coordination of the system with the coal GIS (geographical information system) dealing with spatial data and about the functions of the system, and a conceptual design was prepared. (NEDO)}
place = {Japan}
year = {2001}
month = {Sep}
}
title = {Report on fiscal 2000 basic survey for coal resource exploration. Survey for development of new exploration technology (Exploration of shallow layers on the land); 2000 nendo sekitan shigen kaihatsu kiso chosa hokokusho. Shintansa gijutsu chosa kaihatsu (rikuiki senso tansa)}
author = {None}
abstractNote = {Efforts are made to develop a high-precision high-resolution seismic reflection method, high-efficiency method for measurement in the bored hole, coal potentiality assessment system, and so forth. For the development of the seismic reflection method, studies are conducted to properly deal with a situation where there are high-velocity layers at levels shallower than the object coal bed, and a conclusion is reached that quake generation based on the pseudorandom binary sequence code will be the best for the purpose. The system was tested for verification in a producing coal mine. As for measurement in the bored hole, an on-site test was conducted for a geophysical logging system capable of determining the total sulfur content, ash, and the like, and the system was found to supply high-quality data. In developing the coal potentiality assessment system, studies were made about the basic concept of the coordination of the system with the coal GIS (geographical information system) dealing with spatial data and about the functions of the system, and a conceptual design was prepared. (NEDO)}
place = {Japan}
year = {2001}
month = {Sep}
}