Operator's manual for crusher, jaw, diesel and electric driven, wheel mounted, pneumatic tires, 75 ton per hour, Eagle crusher model 5157 and 5157A (NSN 3820-00-783-7311), Eagle crusher model 5157B (NSN 3820-00-880-0540), component of crushing and screening plant, diesel and electric driven, wheel mounted, 75 ton per hour.

"September 1991."

Direct support and general support maintenance repair parts and special tools lists (including depot maintenance repair parts and special tools lists) : crushing and screening plant, diesel engine driven, semitrailer MTD, 35 ton per hour capacity, Army model 2A-2A, NSN 3820-00-878-4285, Iowa Manufacturing Company model 2A-2A, primary unit, Army model 2A2PRIM ...

Includes index.

Organizational maintenance repair parts and special tools lists : crushing and screening plant, diesel engine driven, semitrailer MTD, 35 ton per hour capacity, Army model 2A-2A, NSN 3820-00-878-4285, Iowa Manufacturing Company model 2A-2A, primary unit, Army model 2A2PRIM, NSN 3820-00-851-6728, Iowa Manufacturing Company model 2A-2B and secondary unit Army model 2A2SEC ...

Includes index.

Direct support, general support, and depot maintenance manual : crusher, jaw, diesel engine driven, semitrailer mounted, 35 ton per hour capacity (Iowa Manufacturing Company model 2A-2A), FSN 3820-851-6728, component of crushing and screening plant, diesel engine driven, FSN 3820-878-4285.

"May 1968."

Direct support, general support, and depot maintenance manual : crusher, screening unit, diesel engine driven, semitrailer mounted, 35 ton per hour capacity (Iowa Manufacturing Company model 2A-2B), FSN 3820-938-7942, component of crushing and screening plant, diesel engine driven, FSN 3820-878-4285.

"June 1968."

Operator and organizational maintenance manual : crusher, jaw, diesel engine driven, semitrailer mounted, 35 ton per hour capacity (Iowa Manufacturing Company model 2A-2A), FSN 3820-851-6728, component of crushing and screening plant, diesel engine driven, FSN 3820-878-4285.

"September 1970."

Unit, direct support, and general support maintenance repair parts and special tools lists : crusher, roll, diesel and electric driven, wheel mounted, pneumatic tires, 75 ton per hour, NSN 3820-00-788-5999, Eagle crusher model 5230B, NSN 3820-00-876-7876, Eagle crusher model 5230D and model 5230D, component of crushing and screening plant ....

"September 1991."

Unit, direct support, and general support maintenance repair parts and special tools lists : crusher, jaw, diesel and electric driven, wheel mounted, pneumatic tires, 75 ton per hour, NSN 3820-00-783-7311, Eagle crusher models, model 5157 ... component of crushing and screening plant ....

"September 1991."

Low moisture mud from solid bowl decanters

The high moisture content of mill mud (typically 75–80% for Australian factories) results in high transportation costs for the redistribution of mud onto cane farms. The high transportation cost relative to the nutrient value of the mill mud results in many milling companies subsidising the cost of this recycle to ensure a wide distribution across the cane supply area. An average mill would generate about 100 000 t of mud (at 75% moisture) in a crushing season. The development of mud processing facilities that will produce a low moisture mud that can be effectively incorporated into cane land with existing or modified spreading equipment will improve the cost efficiency of mud redistribution to farms; provide an economical fertiliser alternative to more farms in the supply area; and reduce the potential for adverse environmental impacts from farms. A research investigation assessing solid bowl decanter centrifuges to produce low moisture mud with low residual pol was undertaken and the results compared to the performance of existing rotary vacuum filters in factory trials. The decanters were operated on filter mud feed in parallel with the rotary vacuum filters to allow comparisons of performance. Samples of feed, mud product and filtrate were analysed to provide performance indicators. The decanter centrifuge could produce mud cakes with very low moistures and residual pol levels. Spreading trials in cane fields indicated that the dry cake could be spread easily by standard mud trucks and by trucks designed specifically to spread fertiliser.

A further step in the modelling of the mechanical behaviour of bagasse

A better understanding of the behaviour of prepared cane and bagasse during the crushing process is believed to be an essential prerequisite for further improvements to the crushing process. Improvements could be made, for example, in throughput, sugar extraction, and bagasse moisture. The ability to model the mechanical behaviour of bagasse as it is squeezed in a milling unit to extract juice would help identify how to improve the current process to reduce final bagasse moisture. However an adequate mechanical model for bagasse is currently not available. Previous investigations have proven with certainty that juice flow through bagasse obeys Darcy’s permeability law, that the grip of the rough surface of the grooves on the bagasse can be represented by the Mohr- Coulomb failure criterion for soils, and that the internal mechanical behaviour of the bagasse is critical state behaviour similar to that for sand and clay. Current Finite Element Models (FEM) available in commercial software have adequate permeability models. However, the same commercial software do not contain an adequate mechanical model for bagasse. Progress has been made in the last ten years towards implementing a mechanical model for bagasse in finite element software code. This paper builds on that progress and carries out a further step towards obtaining an adequate material model.

Design of an experimental apparatus to analyse bagasse behaviour in a chute

Pressure feeder chutes are pieces of equipment used in sugar cane crushing to increase the amount of cane that can be put through a mill. The continuous pressure feeder was developed with the objective to provide a constant feed of bagasse under pressure to the mouth of the crushing mills. The pressure feeder chute is used in a sugarcane milling unit to transfer bagasse from one set of crushing rolls to a second set of crushing rolls. There have been many pressure feeder chute failures in the past. The pressure feeder chute is quite vulnerable and if the bagasse throughput is blocked at the mill rollers, the pressure build-up in the chute can be enormous, which can ultimately result in failure. The result is substantial damage to the rollers, mill and chute construction, and downtimes of up to 48 hours can be experienced. Part of the problem is that the bagasse behaviour in the pressure feeder chute is not understood well. If the pressure feeder chute behaviour was understood, then the chute geometry design could be modified in order to minimise risk of failure. There are possible avenues for changing pressure feeder chute design and operations with a view to producing more reliable pressure feeder chutes in the future. There have been previous attempts to conduct experimental work to determine the causes of pressure feeder chute failures. There are certain guidelines available, however pressure feeder chute failures continue. Pressure feeder chute behaviour still remains poorly understood. This thesis contains the work carried out between April 14th 2009 and October 10th 2012 that focuses on the design of an experimental apparatus to measure forces and visually observe bagasse behaviour in an attempt to understand bagasse behaviour in pressure feeder chutes and minimise the risk of failure.