Operator's manual : truck, lift, fork, electric, solid rubber tires, 4000 pound capacity, Army model MHE-196, Baker model FTD-040-EE, FSN 3930-709-6342, 100 in. lift ....

"February 1965."

Operator and organizational maintenance manual for truck, lift, fork, EMD, solid rubber tired wheels, 4000 lbs. capacity, 144 and 180 in lift, Army model MHE 227, Allis Chalmers models ACE40AEE144 ....

"February 1975."

Field and depot maintenance manual : truck, lift, fork, electric, solid rubber tires, 4,000 lbs capacity, 144 in. lift, Clark model 337450, Army model MHE 185, FSN 3930-086-6677.

"December 1963."

Operator and organizational maintenance manual : truck, lift, fork, electric, solid rubber tires, 4,000 lbs capacity, 144 in. lift, Clark model 337450, Army model MHE 185, FSN 3930-086-6677.

"December 1963."

Unit, direct support, and general support maintenance repair parts and special tools lists : truck, forklift, EMD, solid rubber tired wheels, 2000 lb capacity, 144 in. lift, Army model MHE 219, (NSN 3930-00-151-4432) : Allis-Chalmers model FE20-24EE.

"March 1992."

Organizational maintenance manual : truck, lift, fork, electric, solid rubber tires, 4000 pound capacity, Army model MHE-196, Baker model FTD-040-EE, FSN 3930-709-6342 (100-in. lift), FSN 3930-709-6341 (130-in. lift), FSN 3930-709-6358 (144-in. lift).

"April 1965."

Organizational maintenance repair parts and special tools list for truck, lift, fork, gasoline engine driven, solid rubber tires, 127 inch lift, 2000 pound capacity, Army model MHE 229, Clark Equipment Co. model 2329397 (NSN 3930-00-315-9699).

Includes index.

Unit, direct support, and general support maintenance ... : truck, lift, fork, gasoline engine driven, solid rubber tires, 127 inch lift, 2000 lb capacity, Army model MHE-229, Clark Equipment Co. model 2329397, NSN 3930-00-315-9699.

"February 1991."

Direct support and general support maintenance manual for truck, lift, fork, gasoline engine driven, solid rubber tires, 127 inch lift, 2000 pound capacity (Army model MHE 229) (Clark Equipment model 2329397), NSN 3930-00-315-9699.

"30 April 1975."

A dynamic mathematical model for sequential leach bed anaerobic digestion of organic fraction of municipal solid waste

A mathematical model that describes the operation of a sequential leach bed process for anaerobic digestion of organic fraction of municipal solid waste (MSW) is developed and validated. This model assumes that ultimate mineralisation of the organic component of the waste occurs in three steps, namely solubilisation of particulate matter, fermentation to volatile organic acids (modelled as acetic acid) along with liberation of carbon dioxide and hydrogen, and methanogenesis from acetate and hydrogen. The model incorporates the ionic equilibrium equations arising due to dissolution of carbon dioxide, generation of alkalinity from breakdown of solids and dissociation of acetic acid. Rather than a charge balance, a mass balance on the hydronium and hydroxide ions is used to calculate pH. The flow of liquid through the bed is modelled as occurring through two zones-a permeable zone with high flushing rates and the other more stagnant. Some of the kinetic parameters for the biological processes were obtained from batch MSW digestion experiments. The parameters for flow model were obtained from residence time distribution studies conducted using tritium as a tracer. The model was validated using data from leach bed digestion experiments in which a leachate volume equal to 10% of the fresh waste bed volume was sequenced. The model was then tested, without altering any kinetic or flow parameters, by varying volume of leachate that is sequenced between the beds. Simulations for sequencing/recirculating 5 and 30% of the bed volume are presented and compared with experimental results. (C) 2002 Elsevier Science B.V. All rights reserved.

Alkaline nitro-benzene oxidation of model compounds and solid fuel derivatives

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Drying kinetic analysis of municipal solid waste using modified page model and pattern search method

This work studied the drying kinetics of the organic fractions of municipal solid waste (MSW) samples with different initial moisture contents and presented a new method for determination of drying kinetic parameters. A series of drying experiments at different temperatures were performed by using a thermogravimetric technique. Based on the modified Page drying model and the general pattern search method, a new drying kinetic method was developed using multiple isothermal drying curves simultaneously. The new method fitted the experimental data more accurately than the traditional method. Drying kinetic behaviors under extrapolated conditions were also predicted and validated. The new method indicated that the drying activation energies for the samples with initial moisture contents of 31.1 and 17.2 % on wet basis were 25.97 and 24.73 kJ mol−1. These results are useful for drying process simulation and industrial dryer design. This new method can be also applied to determine the drying parameters of other materials with high reliability.