Abstract
A transition to renewable energy sources and a circular economy has increased interest in renewable resources not usually considered as energy sources or plant nutrient resources. Horse manure exemplifies this, as it is sometimes recycled but not often used for energy purposes. The purpose of this study was to explore horse manure management in a Swedish municipality and prospects for energy recovery. The case study includes a survey of horse manure practices, environmental assessment of horse manure treatment in a biogas plant, including associated transport, compared to on-site unmanaged composting, and finally a simplified economic analysis. It was found that horse manure management was characterized by indoor collection of manure most of the year and storage on concrete slabs or in containers, followed by direct application on arable land. Softwood was predominantly used as bedding, and bedding accounted for a relatively small proportion (13%) of the total mix. Anaerobic digestion was indicated to reduce potential environmental impact in comparison to unmanaged composting, mainly due to biogas substituting use of fossil fuels. The relative environmental impact from transport of manure from horse facilities to anaerobic digestion plant was small. Results also indicate a relatively high cost for horse keepers to change from composting on site to anaerobic digestion in a centralized plant.
Highlights
Lower energy use and reduced emissions of carbon dioxide are included in circular economy strategies (CES), as is re-use of raw materials currently handled as waste [1]
global warming potential (GWP) and cumulative energy demand (CED) are significantly lower for anaerobic digestion, categories
The analysis indicated that if waste cooking oil Hydrotreated Vegetable Oil (HVO) is used, GWP from transport is reduced by 90% and CED is reduced by 86%
Summary
Lower energy use and reduced emissions of carbon dioxide are included in circular economy strategies (CES), as is re-use of raw materials currently handled as waste [1]. Anaerobic digestion is a waste-to-energy (WTE) technology supporting CES, where biological waste is converted to bioenergy and biofertilizer [2]. Nutrient recycling through organic fertilizers represents one step towards a circular economy as it turns waste management problems into economic opportunities. This reduces dependence on imported phosphates [1]. Environmental impact, and energy and nutrient recovery from horse manure, depends on collection practices, use of bedding material, manure storage and present manure usage [4]
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