Waste-to-Ammonia: A sustainable pathway for energy transition

IF 16.3 1区工程技术 Q1 ENERGY & FUELS

Renewable and Sustainable Energy Reviews Pub Date : 2024-10-20 DOI:10.1016/j.rser.2024.115012

Mohammad Moosazadeh , Asal Mansourimarand , Shahram Ajori , Vahid Taghikhani , ChangKyoo Yoo

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Abstract

Ammonia, with its exceptional storage and transportation characteristics, emerges as a promising hydrogen carrier that can play a crucial role in this transition. This study investigates the techno-economic and environmental feasibility of utilizing produced water (PW), a waste product in oil and gas production, for ammonia production (AP). Accordingly, three distinct scenarios of utilizing the PW to produce ammonia are analyzed: i) fossil fuel-based (FF) AP without CO₂ capture (gray), ii) FF-based AP with CO₂ capture module (blue), and iii) a solar-thermal based AP (green). Results suggest that the blue system offers a compromise between environmental impact and economic feasibility, achieving a significant reduction in CO₂ emissions of 0.605 kg CO₂/kg NH₃ compared with the 1.87 kg CO₂/kg NH₃, where gray, blue, and green AP are associated with the values of $435.63/tNH₃, $480.41/tNH₃, and $955.05/tNH₃, respectively. Moreover, this study highlights the influence of carbon tax policy on the cost of the FF-based gray systems, while becoming unprofitable above $104.75/tCO₂. Analysis of AP costs across shale formations reveals variations in product cost with salt concentrations, with the Bakken and Haynesville formations exhibiting the highest cost per ton of ammonia of $433 and $426/tNH₃ for blue and gray systems, respectively. Notably, it is observed that the formations with high solar radiation and low salinity including Permian and Niobrara show potential for green ammonia with payback periods of 13 and 15 years, respectively. This can be used as reliable benchmark to propose a model for achieving sustainable society.

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废物变氨气：能源转型的可持续途径

氨具有出色的储存和运输特性，是一种前景广阔的氢载体，可在这一转变过程中发挥关键作用。本研究探讨了利用石油和天然气生产过程中产生的废水（PW）生产氨水（AP）的技术经济和环境可行性。因此，本研究分析了利用采出水生产合成氨的三种不同方案：i) 基于化石燃料（FF）的不捕集二氧化碳的合成氨（灰色）；ii) 基于化石燃料（FF）的带有二氧化碳捕集模块的合成氨（蓝色）；iii) 基于太阳能-热能的合成氨（绿色）。结果表明，蓝色系统在环境影响和经济可行性之间实现了折中，与 1.87 kg CO2/kg NH3 相比，显著减少了 0.605 kg CO2/kg NH3 的二氧化碳排放量，灰色、蓝色和绿色 AP 的相关价值分别为 435.63 美元/tNH3、480.41 美元/tNH3 和 955.05 美元/tNH3。此外，本研究还强调了碳税政策对基于氟化纤维的灰色系统成本的影响，超过 104.75 美元/tCO2 将变得无利可图。对不同页岩层的氨水成本分析表明，产品成本随盐浓度的变化而变化，巴肯页岩层和海恩斯维尔页岩层的蓝色和灰色系统每吨氨水的成本最高，分别为 433 美元和 426 美元/tNH3。值得注意的是，太阳辐射强、盐度低的地层（包括二叠纪和尼奥布拉克）显示出绿色合成氨的潜力，投资回收期分别为 13 年和 15 年。这可以作为可靠的基准，为实现可持续社会提出一种模式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Renewable and Sustainable Energy Reviews 工程技术-能源与燃料

CiteScore

31.20

自引率

5.70%

发文量

1055

审稿时长

62 days

期刊介绍： The mission of Renewable and Sustainable Energy Reviews is to disseminate the most compelling and pertinent critical insights in renewable and sustainable energy, fostering collaboration among the research community, private sector, and policy and decision makers. The journal aims to exchange challenges, solutions, innovative concepts, and technologies, contributing to sustainable development, the transition to a low-carbon future, and the attainment of emissions targets outlined by the United Nations Framework Convention on Climate Change. Renewable and Sustainable Energy Reviews publishes a diverse range of content, including review papers, original research, case studies, and analyses of new technologies, all featuring a substantial review component such as critique, comparison, or analysis. Introducing a distinctive paper type, Expert Insights, the journal presents commissioned mini-reviews authored by field leaders, addressing topics of significant interest. Case studies undergo consideration only if they showcase the work's applicability to other regions or contribute valuable insights to the broader field of renewable and sustainable energy. Notably, a bibliographic or literature review lacking critical analysis is deemed unsuitable for publication.