Organization of production: Difference between revisions

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{{infobox4
|list1=
<ul>
<li>[[Production line]]</li>
<li>[[Types of projects]]</li>
<li>[[Production cycle]]</li>
<li>[[Product cost]]</li>
<li>[[Workplace]]</li>
<li>[[Internal transport system]]</li>
<li>[[International logistics]]</li>
<li>[[Logistics]]</li>
<li>[[Waste stream]]</li>
</ul>
}}
'''[[Organization]] of [[production]]''' involves coordinated implementation of various processes i.e.: [[planning]] of operations, operative scheduling and quantity control. In particular, the manufacturing [[process]] consists of:
'''[[Organization]] of [[production]]''' involves coordinated implementation of various processes i.e.: [[planning]] of operations, operative scheduling and quantity control. In particular, the manufacturing [[process]] consists of:
* '''[[research and development]] processes''', including: the preparation of the production, supply and [[training]] of staff,  
* '''[[research and development]] processes''', including: the preparation of the production, supply and [[training]] of staff,  
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'''According to organizational characteristics of processes:'''
'''According to organizational characteristics of processes:'''
* Cell production -all partial processes of all products produced are done in one cell along with the accepted range of cooperative relations with other units.  
* Cell production - all partial processes of all products produced are done in one cell along with the accepted range of cooperative relations with other units.  
* Manufactured product -all operations and processes necessary for the implementation of the product regardless of the production cells in which they are carried out, and what is the scope of cooperative relations with other cells involved in the production of production of the product,  
* Manufactured product - all operations and processes necessary for the implementation of the product regardless of the production cells in which they are carried out, and what is the scope of cooperative relations with other cells involved in the production of production of the product,  
* [[Group technology]] -implementation of a complex process plant for the whole family simple or complex production programs. Production assortment, can undergo groups of similar treatment processes as part or group of similar assembly of final products consisting a greater number of parts, sub-assemblies and assemblies.  
* [[Group technology]] - implementation of a complex process plant for the whole family simple or complex production programs. Production assortment, can undergo groups of similar treatment processes as part or group of similar assembly of final products consisting a greater number of parts, sub-assemblies and assemblies.  


In addition, each process is considered both in terms of production cells and in terms of the product:
In addition, each process is considered both in terms of production cells and in terms of the product:
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* [[Mass production]]
* [[Mass production]]
* [[Unitary production]]
* [[Unitary production]]
==Examples of Organization of production==
# ''' Lean Manufacturing''': [[Lean manufacturing]] is a production philosophy that seeks to eliminate waste in the [[production process]]. It emphasizes the use of high-quality inputs, [[continuous process]] improvement, and efficient use of resources. Lean production systems focus on reducing waste by streamlining operations and eliminating non-value-added activities. This includes reducing inventory levels and eliminating redundant processes.
# ''' Just-in-Time (JIT) Manufacturing''': Just-in-time manufacturing is a production philosophy that seeks to reduce inventory levels and improve [[efficiency]] by scheduling production only when it is needed. The goal of JIT is to reduce the amount of [[work]]-in-process (WIP) inventory and to make sure that the right parts are available when needed. This allows for more efficient use of resources and allows for more rapid response to customer [[demand]].
# ''' [[Total Quality Management]] (TQM)''': Total [[quality management]] is a production philosophy that seeks to ensure that all products and services meet the highest standards of quality. It focuses on [[customer satisfaction]], [[continuous improvement]], and the use of statistical techniques to identify and eliminate defects in products and processes.
# ''' [[Six Sigma]]''': Six Sigma is a production philosophy that seeks to reduce defects and improve efficiency in the manufacturing process. It involves the use of [[statistical methods]] to identify and eliminate defects in the production process. It emphasizes the use of data and metrics to drive [[process improvement]].


==Advantages of Organization of production==
==Advantages of Organization of production==
Organization of production brings a number of benefits to the whole production process. The main advantages of [[organizing]] production are:  
Organization of production brings a number of benefits to the whole production process. The main advantages of [[organizing]] production are:  
* '''Increased Efficiency''': Proper organization of production helps to optimize the workflow and therefore increase the efficiency of the entire production process. This can be achieved through the implementation of proper planning, scheduling and control systems.  
* '''Increased [[Efficiency]]''': Proper organization of production helps to optimize the workflow and therefore increase the efficiency of the entire production process. This can be achieved through the implementation of proper planning, scheduling and control systems.  
* '''Reduced Waste''': A well-organized production [[system]] facilitates the [[identification]] and elimination of potential sources of wastage. This helps to reduce costs and improve the overall productivity of the production process.  
* '''Reduced Waste''': A well-organized production [[system]] facilitates the [[identification]] and elimination of potential sources of wastage. This helps to reduce costs and improve the overall productivity of the production process.  
* '''Improved Quality''': Organizing production helps to reduce the chances of errors in processes and therefore improve the quality of the final product. This is achieved through the use of up-to-date tools and techniques, such as automated [[quality control]] systems.  
* '''Improved Quality''': Organizing production helps to reduce the chances of errors in processes and therefore improve the quality of the final product. This is achieved through the use of up-to-date tools and techniques, such as automated [[quality control]] systems.  
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* '''Time constraints''': The production process often [[needs]] to be completed within a specific timeline, and if this is not met, then the product can suffer in quality or not be completed at all.
* '''Time constraints''': The production process often [[needs]] to be completed within a specific timeline, and if this is not met, then the product can suffer in quality or not be completed at all.
* '''[[Cost]]''': Producing a product can be a costly operation, with raw materials, labor, and overhead costs all needing to be taken into account.
* '''[[Cost]]''': Producing a product can be a costly operation, with raw materials, labor, and overhead costs all needing to be taken into account.
* '''Quality control''': Quality control is essential in production to ensure that the end product meets customer expectations. This can be difficult to manage if the production process is complex and involves many stages.
* '''Quality control''': Quality control is essential in production to ensure that the end product meets [[customer expectations]]. This can be difficult to manage if the production process is complex and involves many stages.
* '''Flexibility''': It can be difficult to adjust production processes quickly to accommodate [[customer needs]] or to keep up with changing technology.
* '''Flexibility''': It can be difficult to adjust production processes quickly to accommodate [[customer needs]] or to keep up with changing technology.
* '''[[Risk]] of failure''': Any production process carries a risk of failure, which can be costly in terms of time and [[money]] if it is not properly managed.
* '''[[Risk]] of failure''': Any production process carries a risk of failure, which can be costly in terms of time and [[money]] if it is not properly managed.
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==Other approaches related to Organization of production==
==Other approaches related to Organization of production==
Organization of production involves a wide range of approaches, activities and processes such as:
Organization of production involves a wide range of approaches, activities and processes such as:
* Planning of operations This includes activities such as the identification of customer needs, the development of production plans and the implementation of quality control measures. It also includes the management of materials, equipment, personnel and resources.
* Planning of operations - This includes activities such as the identification of customer needs, the development of production plans and the [[implementation of quality]] control measures. It also includes the management of materials, equipment, personnel and resources.
* Operative scheduling This involves setting up and monitoring the production process to ensure that the desired output is achieved in the specified time frame.
* Operative scheduling - This involves setting up and monitoring the production process to ensure that the desired output is achieved in the specified time frame.
* Quantity control This includes activities such as maintaining production targets, monitoring inventory and quality control.
* Quantity control - This includes activities such as maintaining production targets, monitoring inventory and quality control.


In summary, organization of production involves coordinated implementation of several processes. These processes include planning of operations, operative scheduling and quantity control. All these activities are designed to ensure that the desired output is achieved in the specified time frame and that customer needs are met.
In summary, organization of production involves coordinated implementation of several processes. These processes include planning of operations, operative scheduling and quantity control. All these activities are designed to ensure that the desired output is achieved in the specified time frame and that customer needs are met.
{{infobox5|list1={{i5link|a=[[Production line]]}} &mdash; {{i5link|a=[[Production process]]}} &mdash; {{i5link|a=[[Production cycle]]}} &mdash; {{i5link|a=[[Single minute exchange of die]]}} &mdash; {{i5link|a=[[Process innovation]]}} &mdash; {{i5link|a=[[Computer integrated manufacturing]]}} &mdash; {{i5link|a=[[Internal transport system]]}} &mdash; {{i5link|a=[[Continuous process]]}} &mdash; {{i5link|a=[[Process layout]]}} }}


==References==
==References==
* Askin, R. G., & Standridge, C. R. (1993). ''Modeling and analysis of manufacturing systems''. John Wiley & Sons Inc.
* Askin, R. G., & Standridge, C. R. (1993). ''Modeling and analysis of manufacturing systems''. John Wiley & Sons Inc.
* Chase, R. B., Aquilano, N. J., & Jacobs, F. R. (1995). ''Production and operations management: manufacturing and services''.
* Chase, R. B., Aquilano, N. J., & Jacobs, F. R. (1995). ''Production and [[operations management]]: manufacturing and services''.
* Cochran, D. S., Arinez, J. F., Duda, J. W., & Linck, J. (2002). ''[http://systemdesignllc.com/pdf/paper01.pdf A decomposition approach for manufacturing system design]''. Journal of manufacturing systems, 20(6), 371-389.
* Cochran, D. S., Arinez, J. F., Duda, J. W., & Linck, J. (2002). ''[http://systemdesignllc.com/pdf/paper01.pdf A decomposition approach for manufacturing system design]''. Journal of manufacturing systems, 20(6), 371-389.
* Gunasekaran, A., Martikainen, T., & Yli-Olli, P. (1993). ''Flexible manufacturing systems: An investigation for research and applications''. European journal of [[operational research]], 66(1), 1-26.
* Gunasekaran, A., Martikainen, T., & Yli-Olli, P. (1993). ''Flexible manufacturing systems: An investigation for research and applications''. European journal of [[operational research]], 66(1), 1-26.
[[Category:Production management]]
[[Category:Production management]]

Latest revision as of 01:42, 18 November 2023

Organization of production involves coordinated implementation of various processes i.e.: planning of operations, operative scheduling and quantity control. In particular, the manufacturing process consists of:

  • research and development processes, including: the preparation of the production, supply and training of staff,
  • manufacturing processes, which are divided into:
    • manufacturing process including the implementation of the basic operations: technology, control, transport, storage, assembly, and manufacturing services,
    • secondary manufacturing process associated with the management of technological equipment, maintenance, operation management tool, energy, storage of raw materials and finished products as well as external transport,
    • service process involve administrative actions, security, safety and cleaning,
  • distribution processes and customer service, responsible for sales and efficient service.

Classification of production processes

Fig.1. Organization of production forms

Due to the wide variety of industrial products and technologies, basic manufacturing processes are classified according to the following criteria:

According to continuity of the time processes are divided into:

  • Discrete, process may be interrupted after each operation without compromising the quality of the final product, these processes are typical of the electrical industry, automotive, steel, textile, printing,
  • Continuous, in which product of labour goes without interrupting across all the steps and phases of the process in a forced order of operations, they are suitable for heavy chemical industry, cement, power and heat, the petrochemical industry,

According to type of technology used:

  • Acquisition or mining of natural resources of the land, water, air. Most comes from mining of raw materials such as coal, iron ore, crude oil,
  • Processing processes - leading to the transformation of physical and chemical properties of raw materials and obtain completely new materials. The products of these processes are often subjected to further processing or machining. A typical example of these processes is metallurgy, thermal power electricity, processing of agricultural raw materials,
  • Machining processes - entail a change in shape and surface, characteristics or internal structure of the material metal, wood, plastic by grinding, polishing, painting, cutting, laser machining, welding;
  • Assembly processes - combining the product of two or more components, and bring it to a state ready for use, for example: twisting, crimping, welding, riveting;
  • Removal processes - carried out in the renovation and repair of technical equipment to replace worn parts or to repair it;
  • Natural and biotechnological processes - this group includes processes involving the use of living organisms or biologically active cells to produce desired compounds, and other structures, as well as for the disposal of harmful substances in terms of structures and excessive pollution irreversible consumption of energy (for example, fermentation, souring and corrosion of metals, Wood decay)

According to organizational characteristics of processes:

  • Cell production - all partial processes of all products produced are done in one cell along with the accepted range of cooperative relations with other units.
  • Manufactured product - all operations and processes necessary for the implementation of the product regardless of the production cells in which they are carried out, and what is the scope of cooperative relations with other cells involved in the production of production of the product,
  • Group technology - implementation of a complex process plant for the whole family simple or complex production programs. Production assortment, can undergo groups of similar treatment processes as part or group of similar assembly of final products consisting a greater number of parts, sub-assemblies and assemblies.

In addition, each process is considered both in terms of production cells and in terms of the product:

  • simple process - relates to a simple product of the manufacturing process, the individual parts (element), assuming that it is executed within the same type of technology,
  • complex process - involves the production of a simple device performed within two or more kinds of technology, that is within two or more phases of the process,

According to the means used, processes are divided into:

  • Manual processes - operations are performed with the use of hand tools and appliances
  • Machine processes - operations are performed with the use of machinery and mechanical appliances powered by electric or other sources of energy,
  • Instrument processes - are physico-chemical and are used in specially adapted to these processes rooms, they operate in continuous or discrete actions and usually concern such reactions as: reduction, neutralization, evaporation, burning, melting, mixing, filtration, centrifugation.
  • Automated processes - done by rigid and flexible systems (FMS),
  • Computer-aided (CAM) and computer-integrated (CIM) processes.

See also:

Advantages of Organization of production

Organization of production brings a number of benefits to the whole production process. The main advantages of organizing production are:

  • Increased Efficiency: Proper organization of production helps to optimize the workflow and therefore increase the efficiency of the entire production process. This can be achieved through the implementation of proper planning, scheduling and control systems.
  • Reduced Waste: A well-organized production system facilitates the identification and elimination of potential sources of wastage. This helps to reduce costs and improve the overall productivity of the production process.
  • Improved Quality: Organizing production helps to reduce the chances of errors in processes and therefore improve the quality of the final product. This is achieved through the use of up-to-date tools and techniques, such as automated quality control systems.
  • Improved Communication: A well-organized production process helps to facilitate better communication between all stakeholders, thus leading to smoother coordination and better decision-making.
  • Increased Productivity: An organized production system ensures that each task is completed on time and within budget, thus leading to higher levels of productivity. This, in turn, helps to reduce production costs and maximize profits.

Limitations of Organization of production

Organization of production involves coordinating and implementing various processes. However, this is not without its limitations. These limitations include:

  • Time constraints: The production process often needs to be completed within a specific timeline, and if this is not met, then the product can suffer in quality or not be completed at all.
  • Cost: Producing a product can be a costly operation, with raw materials, labor, and overhead costs all needing to be taken into account.
  • Quality control: Quality control is essential in production to ensure that the end product meets customer expectations. This can be difficult to manage if the production process is complex and involves many stages.
  • Flexibility: It can be difficult to adjust production processes quickly to accommodate customer needs or to keep up with changing technology.
  • Risk of failure: Any production process carries a risk of failure, which can be costly in terms of time and money if it is not properly managed.

Other approaches related to Organization of production

Organization of production involves a wide range of approaches, activities and processes such as:

  • Planning of operations - This includes activities such as the identification of customer needs, the development of production plans and the implementation of quality control measures. It also includes the management of materials, equipment, personnel and resources.
  • Operative scheduling - This involves setting up and monitoring the production process to ensure that the desired output is achieved in the specified time frame.
  • Quantity control - This includes activities such as maintaining production targets, monitoring inventory and quality control.

In summary, organization of production involves coordinated implementation of several processes. These processes include planning of operations, operative scheduling and quantity control. All these activities are designed to ensure that the desired output is achieved in the specified time frame and that customer needs are met.


Organization of productionrecommended articles
Production lineProduction processProduction cycleSingle minute exchange of dieProcess innovationComputer integrated manufacturingInternal transport systemContinuous processProcess layout

References

  • Askin, R. G., & Standridge, C. R. (1993). Modeling and analysis of manufacturing systems. John Wiley & Sons Inc.
  • Chase, R. B., Aquilano, N. J., & Jacobs, F. R. (1995). Production and operations management: manufacturing and services.
  • Cochran, D. S., Arinez, J. F., Duda, J. W., & Linck, J. (2002). A decomposition approach for manufacturing system design. Journal of manufacturing systems, 20(6), 371-389.
  • Gunasekaran, A., Martikainen, T., & Yli-Olli, P. (1993). Flexible manufacturing systems: An investigation for research and applications. European journal of operational research, 66(1), 1-26.