TY - JOUR
T1 - Mechanized material handling systems design and routing
AU - Ravindran, A.
AU - Foote, B. L.
AU - Badiru, A.
AU - Leemis, L.
AU - Williams, Larry
PY - 1988
Y1 - 1988
N2 - Tinker AFB (TAFB) is the prime Air Force rework facility for jet engine parts that support standard engines. The wear and tear on the engine parts of the various aircraft currently produces about 10 million individual requirements annually for part inspection and subsequent discard or rework. Past practices have resulted in extremely long flow times for rework and a burgeoning requirement for conveyor capacity. A new concept, called the Modular Repair Center (MRC), is being implemented to correct the problem. The MRC's have most of the processes necessary to inspect and repair components of a given engine assembly. They have the advantage of reducing the number of long moves, giving more accountability for quality and better tracking. A large network model of TAFB facility has been developed to determine the required work-in-process storage, conveyor capacity, shortest routes for parts to flow from one MRC to another and the maximum flow along each conveyor section. The model was analyzed using Floyd's shortest route algorithm. It resulted in reducing the "bottlenecks" on certain conveyor sections by rerouting some of the flow along low density traffic links and thus reducing the need for extra converyor capacity. Simple formulas were designed to estimate the number of pallets generated by disassembly and each MRC to provide the demand requirements for conveyor capacity.
AB - Tinker AFB (TAFB) is the prime Air Force rework facility for jet engine parts that support standard engines. The wear and tear on the engine parts of the various aircraft currently produces about 10 million individual requirements annually for part inspection and subsequent discard or rework. Past practices have resulted in extremely long flow times for rework and a burgeoning requirement for conveyor capacity. A new concept, called the Modular Repair Center (MRC), is being implemented to correct the problem. The MRC's have most of the processes necessary to inspect and repair components of a given engine assembly. They have the advantage of reducing the number of long moves, giving more accountability for quality and better tracking. A large network model of TAFB facility has been developed to determine the required work-in-process storage, conveyor capacity, shortest routes for parts to flow from one MRC to another and the maximum flow along each conveyor section. The model was analyzed using Floyd's shortest route algorithm. It resulted in reducing the "bottlenecks" on certain conveyor sections by rerouting some of the flow along low density traffic links and thus reducing the need for extra converyor capacity. Simple formulas were designed to estimate the number of pallets generated by disassembly and each MRC to provide the demand requirements for conveyor capacity.
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U2 - 10.1016/0360-8352(88)90004-6
DO - 10.1016/0360-8352(88)90004-6
M3 - Article
AN - SCOPUS:0023849279
SN - 0360-8352
VL - 14
SP - 251
EP - 270
JO - Computers and Industrial Engineering
JF - Computers and Industrial Engineering
IS - 3
ER -