Schneider Electric(TM) Sustainability Research Institute, Towards New Energy Systems and Process Electrification: Optimizing Renewable Energy Integration and Grid Costs for Electrified Ammonia Production
Schneider Electric(TM) Sustainability Research Institute, Towards New Energy Systems and Process Electrification: Optimizing Renewable Energy Integration and Grid Costs for Electrified Ammonia Production
Driving the Transition to Sustainable Ammonia Production through Advanced Techno-Economic Analysis
通過先進的技術經濟分析推動可持續氨生產的轉型
NORTHAMPTON, MA / ACCESSWIRE / July 3, 2024 / Schneider Electric
Download the Schneider Electric Sustainability Research Institute report
馬薩諸塞州北安普敦 / ACCESSWIRE / 2024年7月3日 / Schneider Electric
下載Schneider Electric可持續性研究所報告
By Thomas Kwan
作者:Thomas Kwan
By integrating and optimizing new energy systems, ammonia production costs can be significantly reduced, even with high variability in grid energy costs and the intermittent nature of renewable energy.
通過整合和優化新能源系統,即使在格網能源成本高度可變和可再生能源間歇性的情況下,氨生產成本也可以顯著降低。
Driving the Transition to Sustainable Ammonia Production through Advanced Techno-Economic Analysis
通過先進的技術經濟分析推動可持續氨生產的轉型
The global energy transition and the urgent need to decarbonize the chemicals industry have brought renewed focus on the potential of electrified ammonia production (e-ammonia) as a pathway to sustainable, low-carbon ammonia.
全球能源轉型和快速去碳化化工行業,使得電氣化氨製造(e-ammonia)成爲可持續、低碳氨的途徑備受關注。
This study is a comprehensive techno-economic analysis, based on a novel modeling approach and extensive sensitivity analysis.
本研究是基於新穎的建模方法和廣泛的敏感性分析進行的全面技術經濟分析。
Our research has significant implications for the agriculture and chemical sectors, suggesting that integrating onsite renewable energy and smart control systems can enhance the efficiency and cost-effectiveness of ammonia production, providing a promising avenue for cost savings in chemical production.
我們的研究對農業和化學行業有着重要的意義,建議將場內可再生能源和智能控制系統融合,以提高氨生產的效率和成本效益,爲化工生產的成本節約提供了有前途的途徑。
Our findings
我們的發現
This study combines systems approach, the integration of digital and electrification technologies, and the comprehensive optimization of the entire production process to achieve the lowest possible costs and highest efficiency. Furthermore, it extensively modeled different cost structures from the grid.
該研究通過系統方法、數字化和電氣化技術的整合以及整個生產過程的全面優化來實現成本最低和效率最高。此外,它從網格不同的成本結構廣泛建模。
Integration of Renewable Energy and Advanced Process Controls
The study demonstrates that integrating renewable energy sources and advanced process controls can significantly reduce ammonia production costs from electrified processes (e-ammonia).Reliability through Process Electrification and Digital Technologies
Smart and flexible production systems that can adapt to grid pricing fluctuations and weather variations (e.g., solar PV and wind energy) can be an advantage. Proper optimization through electrification and digital technologies unlocks these benefits.The importance of hydrogen storage
Hydrogen storage (a.k.a. hydrogen buffering) is essential in e-ammonia production and cost optimization. It can be used as a seasonal or highly cyclic buffer depending on the energy mix and costs, adapting to system conditions (when smartly managed/controlled, see point 2 above).Significant reduction of emissions
Emissions from e-ammonia production are dependent on the grid's emission factor; however, increased reliance on on-site renewables significantly reduces the associated emissions for producing e-ammonia. When produced with 100% renewable energy, the process is virtually free of emissions.
可再生能源和先進工藝控制的整合
該研究表明,整合可再生能源和先進的工藝控制可以顯著降低電氣化工藝(e-ammonia)的氨生產成本。通過電氣化和數字技術實現可靠性
可以適應網格定價波動和天氣變化(例如,太陽能光伏和風能)的智能靈活生產系統可以是優勢。通過電氣化和數字技術的適當優化可以釋放這些好處。儲氫的重要性
在e-ammonia生產和成本優化中,儲氫(即氫緩衝)是必不可少的。它可以根據不同的能源組合和成本用作季節性或高度週期性的緩衝,可以根據系統條件進行調整(當明智地管理/控制時,請參見第2點)。顯著降低排放
e-ammonia生產的排放取決於電網的排放因子;然而,對場內可再生能源的依賴度越來越高,生產e-ammonia的相關排放量就會顯著降低。當使用100%可再生能源生產時,該過程幾乎不排放任何物質。
To access the rest of the findings and the full report, click here.
要訪問其他發現和完整報告,請單擊此處。
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在3blmedia.com上查看來自施耐德電氣的其他多媒體資源和更多ESG故事。
Contact Info:
Spokesperson: Schneider Electric
聯繫信息:
發言人:施耐德電氣
SOURCE: Schneider Electric
來源:施耐德電氣。
譯文內容由第三人軟體翻譯。