当地葡萄酒厂整合葡萄枝条能源转换系统用于热电联产的技术经济分析

IF 3.2 4区 工程技术 Q3 ENERGY & FUELS
Nicoló Morselli, Marco Puglia, Gerardo Capozzolo, Giulio Allesina, Alberto Muscio, Paolo Tartarini, Simone Pedrazzi
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引用次数: 0

摘要

本研究提出将葡萄树修剪下来的枝条进行能源转换,为当地酒厂提供能源,重点是位于意大利摩德纳卡尔皮的 Riunite & CIV 分酒厂,探索通过生物质气化发电和供热的可能性。Matlab-Simulink 模型用于评估将储能系统与热电联产系统结合使用时可实现的节能效果。在这种情况下,结果表明可以节省酒厂所需的 30% 的电能和 60% 的热能。然而,高昂的投资和运营成本阻碍了该项目的经济可行性。DPB受生物质成本和能源价格的影响很大,根据不同的调查方案,电价高于0.30(\div>\)0.57欧元/千瓦时的情况下,投资是有利可图的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A technical-economic analysis of integrating vine prunings energy conversion systems for CHP production in local wineries

A technical-economic analysis of integrating vine prunings energy conversion systems for CHP production in local wineries

This study proposes the energy conversion of vine prunings to supply energy to local wineries, with a focus on the Riunite & CIV branch winery located in Carpi (Modena, Italy), exploring the possibility of generating both electricity and heat through biomass gasification. A Matlab-Simulink model is used to evaluate the energy savings that can be achieved when an energy storage system is coupled with the combined heat and power generation system. Within this context, the results showed that it is possible to save \(\approx \)30% of the electricity and \(\approx \)60% of the thermal energy demanded by the winery. However, the economic viability of the project is hindered by high investment and operation costs. DPB is strongly affected by the cost of biomass and the energy prices, resulting in a profitable investment for electricity prices higher than 0.30 \(\div>\)0.57 €/kWh according to the different scenarios investigated.

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来源期刊
Energy Efficiency
Energy Efficiency ENERGY & FUELS-ENERGY & FUELS
CiteScore
5.80
自引率
6.50%
发文量
59
审稿时长
>12 weeks
期刊介绍: The journal Energy Efficiency covers wide-ranging aspects of energy efficiency in the residential, tertiary, industrial and transport sectors. Coverage includes a number of different topics and disciplines including energy efficiency policies at local, regional, national and international levels; long term impact of energy efficiency; technologies to improve energy efficiency; consumer behavior and the dynamics of consumption; socio-economic impacts of energy efficiency measures; energy efficiency as a virtual utility; transportation issues; building issues; energy management systems and energy services; energy planning and risk assessment; energy efficiency in developing countries and economies in transition; non-energy benefits of energy efficiency and opportunities for policy integration; energy education and training, and emerging technologies. See Aims and Scope for more details.
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