Coursecode: wb3412
Coursename: Bulk Materials
Handling Systems and Equipment
DUT creditpoints: 2.5
ECTS creditpoints: 4 |
| Subfaculty of
Mechanical Engineering and Marine technology |
| Lecturer(s):
Gerstel, dr.ir. A.W. |
Tel.: 015-2786706 |
Catalog data:
Bulkterminals, logistics, grabcranes, beltconveyors, stacking equipment, wheel-on-boom
reclaimers, weighing and dosing, bulk materials properties and mechanics, silos, hoppers,
feeders, mammothsilo's, conventional blending piles, circular piles, homogenizing,
buffering, wheelreclaimers and scrapers. |
Course year: 4
Period: 0/0/2/2
Hours p/w: 2
Other hours: 0/0/2/2
Assessment: Oral
Assessm.period(s): 1, 3, 4
(see academic calendar) |
Prerequisites:
wb3406a, wb2307, wb2302, ctme209, wb3408a. |
Follow up:
wb3407a, wb3407b |
| Detailed
description of topics: Analysis of the design and operation of bulkterminals. Functions
and requirements, lay-out, input-, output- and
other handling equipment. Discussion of several concepts for the
slewing upperpart of stacker-reclaimers equipped with
wheel-on-boom. Concepts to support the lower part with wheels and
bogies on the rails.
Strategies of the building and recovery of the storage piles. Regular
versus random built stockpiles in the stockyard lanes. Consequences in view of
outputcapacity and use of ground area. Alternative machine for wheel-on-boom devices,
operating over the width of the storage lane.
Equipment and strategies for loading inland ships and barges with
bulkmaterial.
Logistic aspects regarding number and lengths of unloading berths,
waiting time of ships, pattern of arrival and degree of occupation of the unloading
cranes.
Construction and functioning of beltconveyors, determination of
resistance forces. Accelaration of the input material. Driving force and power at the
driving drum, possibilities of a two drum drive. Types of belt stretching devices.
Combined operation of electric motor and fluid clutch during start of the conveyor.
Optimisation of the trough of the conveyor.
Weighing and dosing, necessity and location of weighing devices in
bulk materials handling facilities. Several weighing principles, static weighing of silos,
dynamic weighing of belt conveyor load.
Analysis and judgment of several types of feeders from viewpoint of
process control and mechanics.
Blending pile systems, composing, homogenisation and buffering
function. Building and reclaiming strategies and equipment. Construction and functioning
of scraper and wheelreclaimer. Application of probality theory to predict homogenisation
efficiency.
Characteristics of bulk material as cohesion, adhesion, distribution
of particle sizes, specific mass and internal friction. Elementary mechanics, stresses and
forces, circles of Mohr, angle of repose, active and passive shearing of the material.
Construction and operation of silos, formulas for vertical and
wallpressure, analysis of bridging in the hopper. Material flow patterns in the silo.
Mammothsilos, construction and operation of the input- and
outputequipment, especially the screwconveyor. Massflow and resistance forces on the screw
in relation to the diameter, the pitch of the screw, as well as the number of revolutions
around the srcew axis and the central column.
|
Course
material:
A.W.Gerstel: Bulk Material and Equipment. Drawings and annotations. |
| References
from literature: Bulk Solids Handling, International Journal
Book "Silos and feeders", F.J.C.Rademacher, c.s
|
Remarks
(specific information about assesment, entry requirements, etc.):
Main subject in final study in Transport Technology |
| Goals:Explanation and demonstration of methods for the analysis and
design of bulk handling systems and equipment.
Application and integration of basic disciplines in the design
proces. Learning thinking in materials movements and behaviour. Intuitive and mathematical
judgment. Specification of selection criteria.
|
| Computer
use: |
| Laboratory
projects: |
| Design
content: 100 % |