成本计算方法在葡萄牙住宅太阳能热系统资本成本估算中的应用

Q1 Social Sciences
A. Ferreira, Ângela Silva
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引用次数: 3

摘要

对环境破坏的担忧不仅需要改变能源的消耗方式,还需要改变能源生产方式。能源使用与经济增长之间的密切关系暴露了持续监测能源消耗的必要性,如果不评估从能源转换为最终用途的资本和运营成本,就无法实现这一点。在满足小型建筑行业的能源需求方面,太阳能热系统与其他可再生资源相比几乎没有什么优势。太阳能热技术可以在实现欧洲设定的脱碳目标方面发挥主导作用。国际能源署(IEA)的报告显示,在能源组合的情况下,太阳能供暖有可能覆盖16%以上的低温用热。在欧洲,到2020年,这一份额可能转化为太阳能热装机容量增长45%,设定了一个具有挑战性的目标,即到2020年人均安装集热器面积达到1平方米,到2050年达到1.3平方米。本工作的主要目标是定义一种成本计算方法,该方法能够根据特定住宅建筑的系统规模和能源需求来估计太阳能热系统的资本成本。成本计算方法包括通过整合热力学系数和成本系数来推导每个组件的成本表达式,并根据这类技术进行调整,同时考虑真实的市场数据。该模型针对里斯本的一个参考住宅进行了验证,该住宅有4人居住,根据DHW计算,估计能源需求为2037 kWh/年。参考场景的结果显示,至少需要4平方米的太阳能收集器,系统成本从703.2欧元/平方米到763.2欧元/平米不等,具体取决于可接受的储罐容量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of a Costing Methodology to Estimate Capital Costs of Solar Thermal Systems in Residential Portuguese Context
The concerns regarding the environmental damage require changes not only on how the energy is consumed but also how it is produced. The close relationship between energy use and the economic growth exposes the need for continuous monitoring of energy consumption, which cannot be achieved without assessing capital and operational costs from its conversion to end-use. Solar thermal systems offer few advantages over other renewable resources to meet the energy demand in the small-scale building sector. Solar-thermal technologies can play a leading role in meeting the decarbonisation targets set in Europe. The reports from the International Energy Agency (IEA) shows that solar heating has the potential to cover more than 16% of the low-temperature heat use in energy mix scenario. In Europe, this share might translate into 45% growth of the installed solar thermal capacity by 2020, setting a challenging target of 1 m2 of collector area installed per capita by 2020 and of 1.3 m2 by 2050. The main objective of the present work is to define a costing methodology able to estimate the capital cost of solar-thermal systems according to the system size and energy requirements of a specific residential building. The costing methodology consists of the derivation of a cost expression for each component by integrating thermodynamic and cost coefficients, adjusted for this kind of technology, and also taking into account real market data. The model was validated for a reference dwelling in Lisbon, with an occupation of 4 people with an estimated energy need of 2 037 kWh/year in terms of DHW. Results of the reference scenario show that is required at least 4 m2 of solar collector and the system cost ranges from 703.2€ per m2 to 763.2€ per m2, depending on the acceptable storage tank capacity.
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来源期刊
International Journal of Sustainable Energy Planning and Management
International Journal of Sustainable Energy Planning and Management Social Sciences-Geography, Planning and Development
CiteScore
7.60
自引率
0.00%
发文量
18
审稿时长
30 weeks
期刊介绍: The journal is an international interdisciplinary journal in Sustainable Energy Planning and Management combining engineering and social science within Energy System Analysis, Feasibility Studies and Public Regulation. The journal especially welcomes papers within the following three focus areas: Energy System analysis including theories, methodologies, data handling and software tools as well as specific models and analyses at local, regional, country and/or global level. Economics, Socio economics and Feasibility studies including theories and methodologies of institutional economics as well as specific feasibility studies and analyses. Public Regulation and management including theories and methodologies as well as specific analyses and proposals in the light of the implementation and transition into sustainable energy systems.
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