Case Study: Promoting Sustainable Energy Greenhouse Heating Systems to Small-Scale Local Farms

J. Ferrell, Ok-Youn Yu, Heiyoung Kim
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引用次数: 1

Abstract

Biomass energy generated from livestock manure, other agricultural by-products and food waste can be an affordable greenhouse-heating energy source for those seeking lower energy costs. Appalachian State University, North Carolina (NC), USA, has built a 6.1 m × 9.1 m greenhouse, called the “Nexus” to test the integrated sustainable energy heating system for growing season extension with less energy cost. This is done by using on-farm biomass resources/wastes such as agricultural waste and wood chips to produce energy coupled with solar water heating to store and supplement required thermal inputs. Growing season extension with heated greenhouses increases the availability of local food throughout the year, expands available markets and increases farmers’ profits. Nexus includes an above ground 5,680-L water storage tank and an aquaculture pond. It is supported by a small-scale pyrolysis system, an anaerobic digestion system, solar thermal and compost heating. The preliminary result showed that compared to a conventional space heating system, about 30% of energy was saved to keep the greenhouse temperature available for growing by radiation from the water storage tank. The main purpose of this study was to test the proposed greenhouse heating systems developed at Nexus by implementing pilot systems on two local farms. Pyrolysis and solar thermal system in conjunction with heat storage and delivery system for each farm were built and tested in order to demonstrate how to reduce greenhouse energy use. This paper describes the results of the case study, which showed significant energy savings that can promote the resource-limited farmers’ interest.
案例研究:在当地小型农场推广可持续能源温室供暖系统
从牲畜粪便、其他农业副产品和食物垃圾中产生的生物质能,对于那些寻求降低能源成本的人来说,可以成为一种负担得起的温室加热能源。美国北卡罗莱纳州(NC)的阿巴拉契亚州立大学(Appalachian State University)建造了一个6.1米× 9.1米的温室,名为“Nexus”,以测试综合可持续能源供暖系统,以更低的能源成本延长生长期。这是通过利用农场生物质资源/废物(如农业废物和木屑)产生能源,再加上太阳能热水来储存和补充所需的热输入来实现的。通过加热温室延长生长季节,增加了全年当地食品的供应,扩大了可用市场,增加了农民的利润。Nexus包括一个5680升的地上储水箱和一个水产养殖池。它由一个小型热解系统、一个厌氧消化系统、太阳能热和堆肥加热系统支持。初步结果表明,与传统的空间供暖系统相比,通过储水箱的辐射可以节省约30%的能源,以保持温室温度适合生长。这项研究的主要目的是通过在两个当地农场实施试点系统来测试Nexus开发的温室加热系统。为演示如何减少温室能源的使用,在每个农场建立并测试了热解和太阳能热系统以及储热和输送系统。本文描述了案例研究的结果,表明显著的能源节约可以促进资源有限的农民的利益。
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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