Energy management

Energy management includes planning and operation of energy production and energy consumption units. Objectives are resource conservation, climate protection and cost savings, while the users have permanent access to the energy they need. It is connected closely to environmental management, production management, logistics and other established business functions. The VDI-Guideline 4602 released a definition which includes the economic dimension: “Energy management is the proactive, organized and systematic coordination of procurement, conversion, distribution and use of energy to meet the requirements, taking into account environmental and economic objectives”.[1]

Energy efficiency

Base line of energy assessment

One of initial step for effective energy coast control program is perform by the base line energy assessment , it will examine the existing wealth of total energy use by the government or any of the sub body under the government or privet organization .this program will step up the reference point for the further improvement in energy efficiency. energy efficiency can be further improve the existing energy use and bench marking of every individual section like area ,sub area as wall as industry etc .

Organizational integration

It is important to integrate the energy management in the organizational structure, so that the energy management can be implemented. Responsibilities and the interaction of the decision makers should be regularized. The delegation of functions and competencies extend from the top management to the executive worker. Furthermore, a comprehensive coordination can ensure the fulfillment of the tasks.

It is advisable to establish a separate organizational unit “energy management” in large or energy-intensive companies. This unit supports the senior management and keeps track. It depends on the basic form of the organizational structure, where this unit is connected. In case of a functional organization the unit is located directly between the first (CEO) and the second hierarchical level (corporate functions such as production, procurement, marketing). In a divisional organization, there should be a central and several sector-specific energy management units. So the diverse needs of the individual sectors and the coordination between the branches and the head office can be fulfilled. In a matrix organization the energy management can be included as a matrix function and thus approach most functions directly.

Energy management in operational functions

Facility management

Facility management is an important part of energy management, because a huge proportion (average 25 per cent) of complete operating costs are energy costs. According to the International Facility Management Association (IFMA), facility management is "a profession that encompasses multiple disciplines to ensure functionality of the built environment by integrating people, place, processes and technology."

The central task of energy management is to reduce costs for the provision of energy in buildings and facilities without compromising work processes. Especially the availability and service life of the equipment and the ease of use should remain the same. The German Facility Management Association (GEFMA e.V.) has published guidelines (e.g. GEFMA 124-1 and 124-2), which contain methods and ways of dealing with the integration of energy management in the context of a successful facility management.[2] In this topic the facility manager has to deal with economic, ecological, risk-based and quality-based targets. He tries to minimize the total cost of the energy-related processes (supply, distribution and use).[3]

The Passivhaus uses a combination of low-energy building techniques and technologies.

The most important key figure in this context is kilowatt-hours per square meter per year (kWh/m²a). Based on this key figure properties can be classified according to their energy consumption.

In comparison, the Passive house (Passivhaus in German) ultra-low-energy standard, currently undergoing adoption in some other European countries, has a maximum space heating requirement of 15 kWh/m²a. A Passive House is a very well-insulated and virtually air-tight building. It does not require a conventional heating system. It is heated by solar gain and internal gains from people. Energy losses are minimized.[5]

There are also buildings that produce more energy (for example by solar water heating or photovoltaic systems) over the course of a year than it imports from external sources. These buildings are called energy-plus-houses.[6]

In addition, the work regulations manage competencies, roles and responsibilities. Because the systems also include risk factors (e.g., oil tanks, gas lines), you must ensure that all tasks are clearly described and distributed. A clear regulation can help to avoid liability risks.[7]

Logistics

Carriage of goods

Logistics is the management of the flow of resources between the point of origin and the point of destination in order to meet some requirements, for example of customers or corporations. Especially the core logistics task, transportation of the goods, can save costs and protect the environment through efficient energy management. The relevant factors are the choice of means of transportation, duration and length of transportation and cooperation with logistics service providers.

The logistics causes more than 14% percent of CO2 emissions worldwide. For this reason the term Green Logistics is becoming increasingly important.

Possible courses of action in terms of green logistics are:[8]

Besides transportation of goods, the transport of persons should be an important part of the logistic strategy of organizations. In case of business trips it is important to attract attention to the choice and the proportionality of the means of transport. It should be balanced whether a physical presence is mandatory or a telephone or video conference is just as useful. Home Office is another possibility in which the company can protect the environment indirectly.[9]

Energy procurement

Procurement is the acquisition of goods or services. Energy prices fluctuate constantly, which can significantly affect the energy bill of organizations. Therefore poor energy procurement decisions can be expensive. Organizations can control and reduce energy costs by taking a proactive and efficient approach to buying energy. Even a change of the energy source can be a profitable and eco-friendly alternative.[10]

Production

Production is the act of creating output, a good or service which has value and contributes to the utility of individuals.[11] This central process may differ depending on the industry. Industrial companies have facilities that require a lot of energy. Service companies, in turn, do not need many materials, their energy-related focus is mainly facility management or Green IT. Therefore the energy-related focus has to be identified first, then evaluated and optimized.

Production planning and control

Usually, production is the area with the largest energy consumption within an organization. Therefore also the production planning and control becomes very important. It deals with the operational, temporal, quantitative and spatial planning, control and management of all processes that are necessary in the production of goods and commodities. The "production planner" should plan the production processes so that they operate in an energy efficient way. For example, strong power consumer can be moved into the night time. Peaks should be avoided for the benefit of a unified load profile.

The impending changes in the structure of energy production require an increasing demand for storage capacity. The Production planning and control has to deal with the problem of limited storability of energy. In principle there is the possibility to store energy electrically, mechanically or chemically. Another trend-setting technology is lithium-based electrochemical storage, which can be used in electric vehicles or as an option to control the power grid. The German Federal Ministry of Economics and Technology realized the significance of this topic and established an initiative with the aim to promote technological breakthroughs and support the rapid introduction of new energy storage.[12]

Maintenance

Maintenance is the combination of all technical and administrative actions, including supervision actions, intended to retain an item in, or restore it to, a state in which it can perform a required function.[13] Detailed maintenance is essential to support the energy management. Hereby power losses and cost increases can be avoided.[14]

Energy management challenge

Through the energy efficiency it management is remain the key for the any industrial user across globe , to achieve the energy management goal for the federal government or industry the efficiency of water and energy resources play a vital role

Examples of how it is possible to save energy and costs with the help of maintenance:

Information technology

The center of an environmental and resource saving structure of information technology is Green IT. In the article Harnessing Green IT: Principles and Practices, San Murugesan defines the field of green computing as "the study and practice of designing, manufacturing, using, and disposing of computers, servers, and associated subsystems—such as monitors, printers, storage devices, and networking and communications systems — efficiently and effectively with minimal or no impact on the environment.”[15] This includes the optimization of resource consumption during manufacturing, operation and disposing of computers. With the help of IT, work processes can be eliminated or improved energetically.[16]

Approaches:

Energy strategies

A long-term energy strategy should be part of the overall strategy of a company. This strategy may include the objective of increasing the use of renewable energies. Furthermore, criteria for decisions on energy investments, such as yield expectations, are determined.[18] By formulating an energy strategy companies have the opportunity to avoid risks and to assure a competitive advance against their business rivals.[19]

Potential energy strategies

According to Kals there are the following energy strategies:[20]

In reality, you usually find hybrid forms of different strategies.

Energy strategies of companies

Many companies are trying to promote its image and time protect the climate through a proactive and public energy strategy. General Motors (GM) strategy is based on continuous improvement. Furthermore they have six principles: e.g. restoring and preserving the environment, reducing waste and pollutants, educating the public about environmental conservation, collaboration for the development of environmental laws and regulations.[21]

Nokia created its first climate strategy in 2006. The strategy tries to evaluate the energy consumption and greenhouse gas emissions of products and operations and sets reduction targets accordingly.[22] Furthermore, their environmental efforts is based on four key issues: substance management, energy efficiency, recycling, promoting environmental sustainability.[23]

The energy strategy of Volkswagen (VW) is based on environmentally friendly products and a resource-efficient production according to the "Group Strategy 2018".[24] Almost all locations of the Group are certified to the international standard ISO 14001 for environmental management systems.[25]

When looking at the energy strategies of companies it is important to you have the topic greenwashing in mind. This is a form of propaganda in which green strategies are used to promote the opinion that an organization's aims are environmentally friendly.[26]

Energy strategies of politics

Even many countries formulate energy strategies. The Swiss Federal Council decided in May 2011 to resign nuclear energy medium-dated. The nuclear power plants will be shut down at the end of life and will not be replaced. In Compensation they put the focus on energy efficiency, renewable energies, fossil energy sources and the development of water power.[27]

The European Union has clear instructions for its members. The "20-20-20-targets" include, that the Member States have to reduce greenhouse gas emissions by 20% below 1990 levels, increase energy efficiency by 20% and achieve a 20% share of renewable energy in total energy consumption by 2020.[28]

Ethical and normative basis of the energy strategies

The basis of every energy strategy is the corporate culture and the related ethical standards applying in the company.[29] Ethics, in the sense of business ethics, examines ethical principles and moral or ethical issues that arise in a business environment. Ethical standards can appear in company guidelines, energy and environmental policies or other documents.

The most relevant ethical ideas for the energy management are:

See also

Management of energy in a particular context:

External links

References

  1. VDI-Guideline VDI 4602, page 3, Beuth Verlag, Berlin 2007.
  2. "GEFMA: Energiemanagement Grundlagen und Leistungsbild" (PDF). Retrieved 14 April 2016.
  3. "viewed 10. November 2012". Energy20.net. 2010-02-03. Retrieved 2013-12-31.
  4. "Features of ENERGY STAR Qualified New Homes." - EnergyStar.gov, Retrieved 7 March 2008.
  5. "retrieved 8 December 2012". Passiv.de. Retrieved 2013-12-31.
  6. "retrieved 3 December 2012". Plusenergiehaus.de. Retrieved 2013-12-31.
  7. Johannes Kals: Betriebliches Energiemanagement - Eine Einführung, p. 75 – 77, Kohlhammer, Stuttgart 2010, ISBN 978-3-17-021133-9
  8. "abgerufen am 10. November 2012". Iml.fraunhofer.de. 2013-12-20. Retrieved 2013-12-31.
  9. Johannes Kals: Betriebliches Energiemanagement - Eine Einführung. Kohlhammer, Stuttgart 2010, ISBN 978-3-17-021133-9, p.103-105.
  10. "retrieved 10 November 2012". Energieagentur.nrw.de. Retrieved 2013-12-31.
  11. Kotler, P., Armstrong, G., Brown, L., and Adam, S. (2006) Marketing, 7th Ed. Pearson Education Australia/Prentice Hall.
  12. "retrieved 6 December 2012" (in German). Bmwi.de. 2012-04-24. Retrieved 2013-12-31.
  13. British Standard Glossary of terms (3811:1993)
  14. "abgerufen am 12. November 2012". Ps-consulting.de. 2013-11-21. Retrieved 2013-12-31.
  15. San Murugesan, “Harnessing Green IT: Principles and Practices,” IEEE IT Professional, January–February 2008, pp 24-33.
  16. Johannes Kals: Betriebliches Energiemanagement - Eine Einführung, p. 147 - 148, Kohlhammer, Stuttgart 2010, ISBN 978-3-17-021133-9.
  17. "abgerufen am 12. November 2012" (in German). Fr-online.de. Retrieved 2013-12-31.
  18. J. Kals, K. Würtenberger: IT-unterstütztes Energiemanagement in: HMD - Praxis der Wirtschaftsinformatik HMD, Heft 285/2012, S. 73-81.
  19. Johannes Kals: Betriebliches Energiemanagement - Eine Einführung. Kohlhammer, Stuttgart 2010, ISBN 978-3-17-021133-9, p. 181.
  20. Johannes Kals: Betriebliches Energiemanagement - Eine Einführung. Kohlhammer, Stuttgart 2010, ISBN 978-3-17-021133-9, p. 182-184.
  21. "retrieved 21. December 2012". Gm.com. 2012-01-13. Retrieved 2013-12-31.
  22. Global  Change country. "retrieved 22. December 2012". Nokia.com. Retrieved 2013-12-31.
  23. Global  Change country. "retrieved 22. December 2012". Nokia.com. Retrieved 2013-12-31.
  24. "retrieved 22. December 2012.". Volkswagenag.com. Retrieved 2013-12-31.
  25. retrieved 22. December 2012. Archived November 14, 2012, at the Wayback Machine.
  26. "retrieved 16.01.2013". Greenwashingindex.com. Retrieved 2013-12-31.
  27. "retrieved 14. December 2012". Bfe.admin.ch. 2013-12-12. Retrieved 2013-12-31.
  28. "retrieved 14. December 2012" (in German). Bmwi.de. 2012-07-04. Retrieved 2013-12-31.
  29. J. Kals, K. Würtenberger: IT-unterstütztes Energiemanagement in: HMD - Praxis der Wirtschaftsinformatik HMD, Heft 285/2012, p. 73.
  30. Johannes Kals: Betriebliches Energiemanagement - Eine Einführung. Kohlhammer, Stuttgart 2010, ISBN 978-3-17-021133-9, p. 200.
  31. 1 2 Johannes Kals: Business Ethics and Corporate Energy Management, in: Karczewski, Leszek; Kretek, Henryk (eds): Odpowiedzialny biznes i konsumerysm wyzwaniem XXI Wieku (Responsible Business and Responsible Consumerism as a Challenge of the 21st Century), Polen, Raciborz 2012, p. 6.
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