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Relevant bibliographies by topics / Green gas network

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Journal articles

Academic literature on the topic 'Green gas network'

Author: Grafiati

Published: 10 March 2023

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Journal articles on the topic "Green gas network"

1

Pan, Kan, Anrui Li, Zheng Yang, et al. "Research on Green Energy Internet Planning Model." E3S Web of Conferences 293 (2021): 03031. http://dx.doi.org/10.1051/e3sconf/202129303031.

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This paper intends to take power system planning as the main module, while considering the requirements and constraints of natural gas network and transportation network construction and use the energy hub model to analyse the energy transmission and transformation relationship between different networks, to realize the power system, natural gas network, and transportation. Integrated energy system planning for the network. To verify the effectiveness of the proposed PMIES planning method, an improved Garver test system is used for simulation. The system includes a 7-node natural gas network s

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2

Ekhtiari, Ali, Damian Flynn, and Eoin Syron. "Green Hydrogen Blends with Natural Gas and Its Impact on the Gas Network." Hydrogen 3, no. 4 (2022): 402–17. http://dx.doi.org/10.3390/hydrogen3040025.

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With increasing shares of variable and uncertain renewable generation in many power systems, there is an associated increase in the importance of energy storage to help balance supply and demand. Gas networks currently store and transport energy, and they have the potential to play a vital role in longer-term renewable energy storage. Gas and electricity networks are becoming more integrated with quick-responding gas-fired power plants, providing a significant backup source for renewable electricity in many systems. This study investigates Ireland’s gas network and operation when a variable gr

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3

Ekhtiari, Ali, Damian Flynn, and Eoin Syron. "Investigation of the Multi-Point Injection of Green Hydrogen from Curtailed Renewable Power into a Gas Network." Energies 13, no. 22 (2020): 6047. http://dx.doi.org/10.3390/en13226047.

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Renewable electricity can be converted into hydrogen via electrolysis also known as power-to-H2 (P2H), which, when injected in the gas network pipelines provides a potential solution for the storage and transport of this green energy. Because of the variable renewable electricity production, the electricity end-user’s demand for “power when required”, distribution, and transmission power grid constrains the availability of renewable energy for P2H can be difficult to predict. The evaluation of any potential P2H investment while taking into account this consideration, should also examine the ef

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4

Pellegrini, Marco, Alessandro Guzzini, and Cesare Saccani. "A Preliminary Assessment of the Potential of Low Percentage Green Hydrogen Blending in the Italian Natural Gas Network." Energies 13, no. 21 (2020): 5570. http://dx.doi.org/10.3390/en13215570.

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The growing rate of electricity generation from renewables is leading to new operational and management issues on the power grid because the electricity generated exceeds local requirements and the transportation or storage capacities are inadequate. An interesting option that is under investigation by several years is the opportunity to use the renewable electricity surplus to power electrolyzers that split water into its component parts, with the hydrogen being directly injected into natural gas pipelines for both storage and transportation. This innovative approach merges together the conce

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5

Qiu, Yue, Suyang Zhou, Jinyi Chen, Zhi Wu, and Qiteng Hong. "Hydrogen-Enriched Compressed Natural Gas Network Simulation for Consuming Green Hydrogen Considering the Hydrogen Diffusion Process." Processes 10, no. 9 (2022): 1757. http://dx.doi.org/10.3390/pr10091757.

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Transporting green hydrogen by existing natural gas networks has become a practical means to accommodate curtailed wind and solar power. Restricted by pipe materials and pressure levels, there is an upper limit on the hydrogen blending ratio of hydrogen-enriched compressed natural gas (HCNG) that can be transported by natural gas pipelines, which affects whether the natural gas network can supply energy safely and reliably. To this end, this paper investigates the effects of the intermittent and fluctuating green hydrogen produced by different types of renewable energy on the dynamic distribut

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6

Cavana, Marco, Enrico Vaccariello, and Pierluigi Leone. "Pressure management in smart gas networks for increasing hydrogen blending." E3S Web of Conferences 334 (2022): 03003. http://dx.doi.org/10.1051/e3sconf/202233403003.

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The injection of hydrogen into existing gas grids is acknowledged as a promising option for decarbonizing gas systems and enhancing the integration among energy sectors. Nevertheless, it affects the hydraulics and the quality management of networks. When the network is fed by multiple infeed sites and hydrogen is fed from a single injection point, non-homogeneous hydrogen distribution throughout the grid happens to lead to a reduction of the possible amount of hydrogen to be safely injected within the grid. To mitigate these impacts, novel operational schemes should therefore be implemented. I

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7

Younes, Maram Bani. "Towards Green Driving: A Review of Efficient Driving Techniques." World Electric Vehicle Journal 13, no. 6 (2022): 103. http://dx.doi.org/10.3390/wevj13060103.

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The exponential increase in the number of daily traveling vehicles has exacerbated global warming and environmental pollution issues. These problems directly threaten the continuity and quality of life on the planet. Several techniques and technologies have been used and developed to reduce fuel consumption and gas emissions of traveling vehicles over the road network. Here, we investigate some solutions that assist drivers to follow efficient driving tips during their trips. Advanced technologies of communications or vehicle manufacturing have enhanced traffic efficiency over road networks. I

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8

Grossi, G., F. Arpino, M. Bertone, et al. "Natural gas system decarbonization by green hydrogen injection: a distributed approach." IOP Conference Series: Earth and Environmental Science 1106, no. 1 (2022): 012004. http://dx.doi.org/10.1088/1755-1315/1106/1/012004.

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Abstract The large-scale penetration of renewable sources in the European energy system is leading to management and control issues on the electricity distribution network, due to the randomness of the energy coming from these sources and to the lack of adequate storage capacities. In this regard, an interesting solution currently being considered is represented by Power-to-Gas technology and chemical energy storage. In fact, renewable electricity surplus can be used to power water electrolysers producing green hydrogen to be injected in natural gas pipelines, with the dual effect of solving p

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9

Cheung, Mario Ho Tak. "Green energy recovery by blending treated biogas into town gas pipeline networks." Special Issue with Awarded and Shortlisted Papers from the HKIE Outstanding Paper Award for Young Engineers/Researchers 2020 27, no. 4 (2021): 173–82. http://dx.doi.org/10.33430/v27n4thie-2020-0021.

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Biogas can be converted into treated biogas or synthetic natural gas, which can be blended into town gas pipeline network at a designed mixing ratio. Specific gravity and calorific value of biogas are adjusted to satisfy gas safety and quality standard. Carbon dioxide pressure swing adsorption is selected and applied for specific gravity reduction and calorific value enrichment. 95% nitrogen, defined according to the flammability plot, is mixed with biogas for tuning the calorific value at the end of the process end. Gas interchangeability of the gas mixture of treated biogas and town gas was

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10

Cheung, Mario Ho Tak. "Green energy recovery by blending treated biogas into town gas pipeline networks." Special Issue with Awarded and Shortlisted Papers from the HKIE Outstanding Paper Award for Young Engineers/Researchers 2020 27, no. 4 (2021): 173–82. http://dx.doi.org/10.33430/v27n4thie-2020-0021.

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Abstract:

Biogas can be converted into treated biogas or synthetic natural gas, which can be blended into town gas pipeline network at a designed mixing ratio. Specific gravity and calorific value of biogas are adjusted to satisfy gas safety and quality standard. Carbon dioxide pressure swing adsorption is selected and applied for specific gravity reduction and calorific value enrichment. 95% nitrogen, defined according to the flammability plot, is mixed with biogas for tuning the calorific value at the end of the process end. Gas interchangeability of the gas mixture of treated biogas and town gas was

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