原文传递
Optimal Design and Operation of Temporary Power Installations: Case Study on CO_2 and Cost Savings for Outdoor Festivals in the Netherlands
| 题名: | Optimal Design and Operation of Temporary Power Installations: Case Study on CO_2 and Cost Savings for Outdoor Festivals in the Netherlands |
| 正文语种: | eng |
| 作者: | van Oosten, Jim;Lampropoulos, Ioannis;Weimann, Lukas;van Sark, Wilfried |
| 作者单位: | Univ Utrecht Energy Sci Princetonlaan 8a NL-3584 CB Utrecht Netherlands|Watt Now Mospl 18C NL-1032 JX Amsterdam Netherlands|Greener Power Solut Naritaweg 52 NL-1043 BZ Amsterdam Netherlands;Univ Utrecht Copernicus Inst Sustainable Dev Energy & Resources Grp Princetonlaan 8a NL-3584 CB Utrecht Netherlands;Univ Utrecht Copernicus Inst Sustainable Dev Energy & Resources Grp Princetonlaan 8a NL-3584 CB Utrecht Netherlands;Univ Utrecht Copernicus Inst Sustainable Dev Energy & Resources Grp Princetonlaan 8a NL-3584 CB Utrecht Netherlands |
| 摘要: | Outdoor music festivals and construction sites are relying on temporary power installations for electricity supply. Diesel generators are still the dominant source for these applications. Cost and diesel consumption data are gathered from different field applications, to simulate different configurations of diesel generators in parallel, based on heuristic modeling and linear programming. The model is tested on 27 historical energy demand profiles from 10 different outdoor music festivals which took place in the Netherlands between 2015 and 2018 to calculate the expected potential cost and carbon dioxide (CO2) savings. Better sizing of single generators can reduce the CO2 emissions by 17% and costs by 20% on average. The application of multiple generators in parallel can enhance these savings to 32% and 23%, respectively, thereby increasing the savings on both CO2 emissions and costs. The application of batteries in a diesel-hybrid configuration was not part of the optimization model, but a case study showed that the application of batteries in a diesel-hybrid configuration can lead to a CO2 reduction of 35.3%. |
| 出版年: | 2021 |
| 期刊名称: | Journal of Urban Planning and Development |
| 卷: | 147 |
| 期: | 3 |
相关文献
- Low emission power
- Positive protection Temporary steel barrier provides cost savings on toll road project
- Discussion of "Sustainable Design of Reinforced Concrete Structures through CO2 Emission Optimization" by DongHun Yeo and Florian A. Potra
- Biokraftstoffe sparen CO_2
- Effect of Geometry and Control on the Probability of Breakdown and Capacity at Freeway Merges
- Halbe Fahrzeit, null CO_2
检索历史
应用推荐
