doc. Ing. Jiří Vaněk, Ph.D.

Department of Electrical and Electronic Technology (UETE)

The student of Computer projecting of production, logistics and ecology (BPPV) is able to:
- explain the meaning and define the most essential structure of a company.
- choose the appropriate method for technological design.
- design a project using the MS Project.
- explain the production logistics company.
- describe the standard ISO 14000 and related standards.

The subject knowledge on the secondary school level is required.

Not applicable.

Not applicable.

Sule, D., R.:Manufacturing Facilities, PWS Boston (EN)
Cedarleaf, J.:Plant Layout and Flow Improvement,Bluecreek, P.C. Washington (CS)
Kubálek T., Kubálková M., Řízení projektů v MS Office Project, CPress (CS)
Kališ J., Říha M., MS Office Projekt, CPress (CS)
Bazala J., Logistika v praxi, Verlag Dashofer (CS)
Zelenka A.,Volf L., Poskočilová, Projektování výrobních systémů, ČVUT 2009 (CS)
Zelenka A., Preclík V, Racionalizace výroby, ČVUT 2004 (CS)
Špinka J., Vaněk J, Elektronické texty přednášek
LACKO, B.; JEŽKOVÁ, Z.; ŠVEC, J.; KREJČÍ, H. Projektové řízení - Jak zvládnout projekty. Brno: Akademické centrum studentských aktivit, 2014, 382 s. (CS)

Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations.

Practice attendance is obligatory
Final exam:
seminary task - max. 20p
final exam - max 80p
Requirements for successful completion of the subject can be specified by guarantor’s regulation updated for every academic year.

Czech

Not applicable.

Introduction- projecting of production systems, structure and organization of production plant.
Procedure of eleborating technological project, initial bases for technological project, production costs , theory of mass operation at technological projecting.
Analysis of initial situation, preliminary calculations, number of employers. number of machines need, size of necessary area, building
Capacity calculation, time study, machine coupling,design of technical equipment, analysis of production costs.
Projecting of production control and testing,TQM,ISO 9 000.
Production logistic, choice of production layout, technological flow, layout of machines and equipment, interference.
Production logistics- course time.
Projection of adjacent plants, case productions, maitenance.
Logistic of suplies, logistic of storage, logistic of distribution, controlling.
Ekological aspects, ISO 14 000, projecting of working environment.
Plant nad workshops layout, flow lines, Sankey´s diagram.
Projecting energy systems, electric power, HVAC-heating, ventilation, air conditioning, gas distribution, data lines.
Economic evaluation.

The aim of course is to manage problems of projecting production systems and logistics. To become familiar with the basic concepts and with the methodics of activities at technological projecting, with procedures and choosed methods concerning participation of a technologist at elaboration of production projects. During the computer practice the students become familiar with computer support of technological projecting.

The content and forms of instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year.

• Programme EEKR-B Bachelor's

  branch B-MET , 3. year of study, summer semester, 6 credits, optional specialized
  

39 hours, compulsory

doc. Ing. Jiří Vaněk, Ph.D.

eLearning: currently opened course