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Logistics - Managing effective logistics : A case study related to Swedish companiesOuati, Nisrine Jr, Vidot, Loïc Jr January 2008 (has links)
<p>This research gives an insight into the difficulties found to handle logistics and presents solution to manage logistics saving costs without sacrificing customer satisfaction.</p>
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Logistics - Managing effective logistics : A case study related to Swedish companiesOuati, Nisrine Jr, Vidot, Loïc Jr January 2008 (has links)
This research gives an insight into the difficulties found to handle logistics and presents solution to manage logistics saving costs without sacrificing customer satisfaction.
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Incorporation of Micro-Machined Sensor Technology for Increased Accuracy at Reduced CostCook, F. Paul 11 1900 (has links)
International Telemetering Conference Proceedings / October 30-November 02, 1995 / Riviera Hotel, Las Vegas, Nevada / Benefiting from the Automotive world, Micro-Machined Sensor Technology moves into the Military arena with greater accuracy at a reduced price tag. Advances in Micro-Machining have produced silicone cantilever beam Sensors which meet or exceed some Military environmental specifications while providing a higher overall accuracy, compared to traditional cantilever beam designs. There are several companies such as Motorola, Analog Devices, Sensym, Silicone Designs, and NovaSensor to name a few who have established product lines in Accelerometers and Pressure Transducers. This paper describes an experience utilizing micro-technology Accelerometers which were designed to replace older technology sensors.
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Article: Reducing the electricity cost of a three-pipe water pumping system : a case study using software / White RautenbachRautenbach, John White January 2004 (has links)
Efficient control is often the most cost-effective option to improve on the running cost
of a Three-Pipe Water Pumping System. However, the effect of changing the control
strategy (i.e. on energy consumption) is usually difficult to predict. To obtain this
information more easily, a new simulation tool, QUICKcontrol, was developed. This
new tool was used to investigate the energy cost savings potential in a Three-Pipe
Water Pumping System. The influence of pump scheduling, dam level set points,
control parameters and different combinations thereof was investigated. The
simulation models were firstly verified with measurements obtained from the existing
system to confirm their accuracy for realistic control retrofit simulations. With the aid
of the integrated simulation tool it was possible to predict savings of R 195'000 per year with an average 3.8 MW of load shifted. / Thesis (M.Ing. (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2005.
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Article: Reducing the electricity cost of a three-pipe water pumping system : a case study using software / White RautenbachRautenbach, John White January 2004 (has links)
Efficient control is often the most cost-effective option to improve on the running cost
of a Three-Pipe Water Pumping System. However, the effect of changing the control
strategy (i.e. on energy consumption) is usually difficult to predict. To obtain this
information more easily, a new simulation tool, QUICKcontrol, was developed. This
new tool was used to investigate the energy cost savings potential in a Three-Pipe
Water Pumping System. The influence of pump scheduling, dam level set points,
control parameters and different combinations thereof was investigated. The
simulation models were firstly verified with measurements obtained from the existing
system to confirm their accuracy for realistic control retrofit simulations. With the aid
of the integrated simulation tool it was possible to predict savings of R 195'000 per year with an average 3.8 MW of load shifted. / Thesis (M.Ing. (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2005.
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Studie průběhu zakázky organizací / The Study of Order Processing in OrganizationsKopáč, Martin January 2017 (has links)
My diploma thesis is focused on study of processes during the engagement in electronics manufacturing service provider in Nová Dubnica – Slovakia. This thesis is divided to three main parts. First part is concerned with the theoretical knowledge. Second part focusing on the analysis of the current status of processes in order. In the last part, with correct research of important points of view during the managing of customer’s solution and adjustment of effective remedial measures, we will be able to improve satisfaction of our customers, optimise inventory level or even save time and costings.
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Integration of electricity cost saving interventions on a water distribution utility / Wynand Johannes Jacobus BreytenbachBreytenbach, Wynand Johannes Jacobus January 2014 (has links)
Electrical energy has become a very important and integrated part of the current era. Electricity cost saving interventions, such as load shifting, form part of demand side management (DSM) interventions. DSM interventions have been successfully implemented in the past to ensure reliable supply of electricity during the Eskom peak periods. It has been established that there is a need to implement an electricity cost saving intervention on a large water distribution utility.
This dissertation focuses on the integration of electricity cost saving interventions on a water distribution utility. An investigation methodology, as well as an integration strategy for implementing an electricity cost saving intervention were developed. This study expands on the importance of an integrated approach. It further discusses the shortcomings of the current control philosophies of a large water distribution utility in South Africa.
A load shifting project was implemented as an electricity cost saving intervention on a large water distribution utility in South Africa. The proposed integrated strategy was simulated and an optimised approach developed. It was found that the implementation of the strategy was limited due to process constraints and increasing water demand.
Utilising the large combined installed capacity of the pumps in the water distribution utility and the storage capacity, the strategy was implemented and cost savings obtained. It was concluded that load shifting was possible on individual pumping stations in the water distribution utility subsystems, and could, therefore, be quantified to an integrated approach. / MIng (Mechanical Engineering), North-West University, Potchefstroom Campus, 2015
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Integration of electricity cost saving interventions on a water distribution utility / Wynand Johannes Jacobus BreytenbachBreytenbach, Wynand Johannes Jacobus January 2014 (has links)
Electrical energy has become a very important and integrated part of the current era. Electricity cost saving interventions, such as load shifting, form part of demand side management (DSM) interventions. DSM interventions have been successfully implemented in the past to ensure reliable supply of electricity during the Eskom peak periods. It has been established that there is a need to implement an electricity cost saving intervention on a large water distribution utility.
This dissertation focuses on the integration of electricity cost saving interventions on a water distribution utility. An investigation methodology, as well as an integration strategy for implementing an electricity cost saving intervention were developed. This study expands on the importance of an integrated approach. It further discusses the shortcomings of the current control philosophies of a large water distribution utility in South Africa.
A load shifting project was implemented as an electricity cost saving intervention on a large water distribution utility in South Africa. The proposed integrated strategy was simulated and an optimised approach developed. It was found that the implementation of the strategy was limited due to process constraints and increasing water demand.
Utilising the large combined installed capacity of the pumps in the water distribution utility and the storage capacity, the strategy was implemented and cost savings obtained. It was concluded that load shifting was possible on individual pumping stations in the water distribution utility subsystems, and could, therefore, be quantified to an integrated approach. / MIng (Mechanical Engineering), North-West University, Potchefstroom Campus, 2015
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Identifying demand market participation opportunities available in cement plants / Izak Daniël KrügerKrüger, Izak Daniël January 2014 (has links)
South African cement manufacturers are under financial pressure. Sales have declined due to
the 2008 recession and electricity costs have tripled from 2005 to 2012. Electricity cost
savings are therefore more important than ever. Unfortunately retrofitting highly energyefficient
equipment is not ideal. These installations are costly and take a long time to
implement. Alternative strategies that can produce quick results in reducing electricity costs
are needed. One such alternative is a programme called Demand Market Participation
(DMP).
The DMP programme was implemented by Eskom, South Africa’s national electricity utility,
to reduce electricity demand during supply shortages. This programme offers potential cost
savings for clients with excess production capacity. Clients such as cement plants can switch
off non-essential production equipment in Eskom’s peak demand periods for a financial
incentive. To maximise the benefits for both the clients and Eskom, accurate electricity
forecasting is needed, as are systems enabling a quick response to load reduction requests.
In this study DMP opportunities on typical cement plants were identified. A DMP strategy to
assist cement plants was developed to achieve maximum cost savings without influencing
production, quality and safety. An existing energy management system (EnMS) was adapted
to incorporate the new DMP participation strategy. The new EnMS and DMP strategy were
implemented at a South African cement plant, resulting in savings of R220 000 per month.
This translates into an annual cost-saving potential of R2-million for the plant, and an R13-
million cost-saving potential for the total South African cement industry. / MIng (Mechanical Engineering), North-West University, Potchefstroom Campus, 2014
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Energy Audit and Accounting for Riksbyggen Fastighetsservice, GävleLiu, Yuanyuan, Shen, Yang January 2009 (has links)
<p>Riksbyggen Fastighetsservice is a company whose businesses cope with building construction and related services. The local office of Riksbyggen Fastighetsservice in Gävle has been studied in this project. The local office locates in Näringen 20:4, which was constructed in 1989.</p><p> </p><p>The aim of this project is to make a diagnosis of the current situation; find out the most applicable way of optimizing the operation of the facility in order to reduce the energy consumption, to study costs and possible savings and provide assistance with future energy management. </p><p> </p><p>Firstly, a study of Energy Balance was conducted. The transmission losses was 57761 KWh; mechanical ventilation losses 3855 KWh; hot tap water heat losses 9579 KWh; natural transmission and infiltration 6897 KWh. On the other hand, heat gain from internal heat was 12707 KWh; solar radiation 8521 KWh; and supply heat 56806 KWh.</p><p> </p><p>Secondly, the energy costs have been checked out. 29655 KWh of electricity was consumed in 2008. 5948 KWh was used by 20 fuses electricity and 23707 KWh was for 25 fuses. Lighting, electrical equipment and machine composed the electricity consumption. Lighting consumes 13278 KWh; equipment consumes 6452 KWh; and machine consumes 9925 KWh. Lighting electricity was composed by office lighting and workshop lighting with 4798 KWh and 8480 KWh respectively.</p><p> </p><p>Electricity cost is very complicated and flexible in Sweden according to effect and consumption. The total cost of electricity consists of electricity commerce fee and electricity transmission net. Electricity commerce fee includes annual fixed fee, electricity fee, energy certificate and tax. Electricity transmission fee includes annual fixed transmission fee, grid fee and tax. Tax plays vital important role which results in huge total cost. The local office spent 43356 kr on electricity in 2008. 4798 kr was spent on office lighting, and 8480 kr was spent on workshop lighting.</p><p> </p><p>On the other hand district heating fee is composed by annual fixed fee, effect fee, energy fee and tax. The local office spent 37142 kr on 56.806 MWh of district heating in 2008. Thus, the local office purchased 86461 KWh of energies and spent 80498 kr in total in 2008.</p><p> </p><p>Thirdly, to assist its energy traces and management, three tables were designed. One table is for annual energy consumption and cost in each month with all information of sub-terms on costs. One table is for annual electricity consumption for each electrical equipment and cost in accordance. Another table is for district heating consumption and cost. </p><p> </p><p>At last, energy saving possibilities was explored. One way is applying improvements or maintenance of the office construction. The result of Energy Balance shows that transmission losses were 57761 KWh which occupies 74% of the total losses, and it is the biggest bite. As the office was constructed in 1989, if improvements and maintenance can be applied to the insulation of floor, roof and walls, or change the windows, the heat losses can be reduced.</p><p> </p><p>However, the other solution might be much more applicable and financial sound. Just go to Clas Ohlson to buy LED 1 W and 3 W lamps to replace the current bulbs. Spending 3009 kr to buy 51 LED incandescent bulbs of 1W effect, and 3576 kr on 24 LED fluorescent of 3W effect, will save 12057 kr every year. The lighting electricity consumption will be reduced from 13278 KWh / year to 264 KWh / year. Instead of spending 16017 kr on lighting, 98% will be reduced, and only 318 kr will be paid. Moreover, the payback is really nice, only 0.42 year. Action! The sooner the better! 20% of energy cost will be saved!</p>
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