The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia
Distributed multi-energy systems based on polygeneration, when compared with the traditional power plants, show significant primary energy savings and CO2 emissions reduction due to the high integration of mixed-energy sources and increased penetration of renewable energy sources. The high integrati...
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sg-ntu-dr.10356-1604622022-07-22T08:14:59Z The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia Mazzoni, Stefano Nastasi, Benedetto Ooi, Sean Desideri, Umberto Comodi, Gabriele Romagnoli, Alessandro School of Mechanical and Aerospace Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Mechanical engineering Multi-Energy Systems District Cooling Distributed multi-energy systems based on polygeneration, when compared with the traditional power plants, show significant primary energy savings and CO2 emissions reduction due to the high integration of mixed-energy sources and increased penetration of renewable energy sources. The high integration of these systems requires optimized master-planning and operating strategies for dealing with significant variability in the end-user demands (electricity, heating and cooling), with the intermittency of renewable energy source availability and integration of energy storage technologies for peak shaving operation. Many optimization variables characterize master-planning and optimal dispatch problems, and advanced algorithms are adopted to solve the calculations. In the paper, a new developed energy optimal planning software platform, the ©E-OPT, allows for simultaneously solving problems of master-planning and optimized operations with short computational time. The ©E-OPT novelty features rely on advanced performance maps modelling approach based on the extensive ©E-OPT database of commercially available components. The ©E-OPT software platform capabilities have been validated in a real case study in Singapore, allowing for the complete retrofitting of polygeneration systems in a district cooling arrangement in an industrial estate. In comparison with the design proposed by a well-established consulting firm, after having performed the validation step, the ©E-OPT software platform shows up to −30% in capital investment during the master-planning phase, and up to 12% in primary energy savings and 15% the CO2 pollutant emissions reduction, thanks to the optimized dispatch strategy. National Research Foundation (NRF) This research is supported by the National Research Foundation, Prime Minister’s Office, Singapore under its Energy NIC grant (NRF Award No.: NRF-ENIC-SERTD-SMES-NTUJTCI3C-2016) . 2022-07-22T08:14:59Z 2022-07-22T08:14:59Z 2021 Journal Article Mazzoni, S., Nastasi, B., Ooi, S., Desideri, U., Comodi, G. & Romagnoli, A. (2021). The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia. Applied Thermal Engineering, 199, 117532-. https://dx.doi.org/10.1016/j.applthermaleng.2021.117532 1359-4311 https://hdl.handle.net/10356/160462 10.1016/j.applthermaleng.2021.117532 2-s2.0-85115770404 199 117532 en NRF-ENIC-SERTD-SMES-NTUJTCI3C-2016 Applied Thermal Engineering © 2021 Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Multi-Energy Systems District Cooling Mazzoni, Stefano Nastasi, Benedetto Ooi, Sean Desideri, Umberto Comodi, Gabriele Romagnoli, Alessandro The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia |
| description |
Distributed multi-energy systems based on polygeneration, when compared with the traditional power plants, show significant primary energy savings and CO2 emissions reduction due to the high integration of mixed-energy sources and increased penetration of renewable energy sources. The high integration of these systems requires optimized master-planning and operating strategies for dealing with significant variability in the end-user demands (electricity, heating and cooling), with the intermittency of renewable energy source availability and integration of energy storage technologies for peak shaving operation. Many optimization variables characterize master-planning and optimal dispatch problems, and advanced algorithms are adopted to solve the calculations. In the paper, a new developed energy optimal planning software platform, the ©E-OPT, allows for simultaneously solving problems of master-planning and optimized operations with short computational time. The ©E-OPT novelty features rely on advanced performance maps modelling approach based on the extensive ©E-OPT database of commercially available components. The ©E-OPT software platform capabilities have been validated in a real case study in Singapore, allowing for the complete retrofitting of polygeneration systems in a district cooling arrangement in an industrial estate. In comparison with the design proposed by a well-established consulting firm, after having performed the validation step, the ©E-OPT software platform shows up to −30% in capital investment during the master-planning phase, and up to 12% in primary energy savings and 15% the CO2 pollutant emissions reduction, thanks to the optimized dispatch strategy. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Mazzoni, Stefano Nastasi, Benedetto Ooi, Sean Desideri, Umberto Comodi, Gabriele Romagnoli, Alessandro |
| format |
Article |
| author |
Mazzoni, Stefano Nastasi, Benedetto Ooi, Sean Desideri, Umberto Comodi, Gabriele Romagnoli, Alessandro |
| author_sort |
Mazzoni, Stefano |
| title |
The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia |
| title_short |
The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia |
| title_full |
The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia |
| title_fullStr |
The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia |
| title_full_unstemmed |
The adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in South-East Asia |
| title_sort |
adoption of a planning tool software platform for optimized polygeneration design and operation – a district cooling application in south-east asia |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160462 |
| _version_ |
1739837420185059328 |