Paria Sefeedpari scite author profile

The global consumption of dairy produce is forecasted to increase by 19% per person by 2050. However, milk production is an intense energy consuming process. Coupled with concerns related to global greenhouse gas emissions from agriculture, increasing the production of milk must be met with the sustainable use of energy resources, to ensure the future monetary and environmental sustainability of the dairy industry. This body of work focused on summarizing and reviewing dairy energy research from the monitoring, prediction modelling and analyses point of view. Total primary energy consumption values in literature ranged from 2.7 MJ kg−1 Energy Corrected Milk on organic dairy farming systems to 4.2 MJ kg−1 Energy Corrected Milk on conventional dairy farming systems. Variances in total primary energy requirements were further assessed according to whether confinement or pasture-based systems were employed. Overall, a 35% energy reduction was seen across literature due to employing a pasture-based dairy system. Compared to standard regression methods, increased prediction accuracy has been demonstrated in energy literature due to employing various machine-learning algorithms. Dairy energy prediction models have been frequently utilized throughout literature to conduct dairy energy analyses, for estimating the impact of changes to infrastructural equipment and managerial practices.

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Prognostication of environmental indices in potato production using artificial neural networks

Khoshnevisan

Rafiee

Omid

et al. 2013

Journal of Cleaner Production

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Paria Sefeedpari

Wind speed and power density analysis based on Weibull and Rayleigh distributions (a case study: Firouzkooh county of Iran)

Energy and economic analysis of rice production under different farm levels in Guilan province of Iran

Energy consumption and CO2 emissions analysis of potato production based on different farm size levels in Iran

Energy Consumption on Dairy Farms: A Review of Monitoring, Prediction Modelling, and Analyses

Prognostication of environmental indices in potato production using artificial neural networks

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