Combinational Approach of Energy Management for Sustainable Food and Crop Storage Facilities: A Research Concept

This research project focuses on the optimization of the hybrid energy system together with the assistance of thin-film coatings aiming to achieve self-sustainable food and crop storage facilities which will run effectively with its own generated energy. An infrastructure will be designed and constructed that will comprise a hybrid power generation system accompanied by thin-film coated semitransparent and non-transparent construction materials for energy saving. Thin-film low emissivity (Low-E) type coatings will assist the transparent or semitransparent construction materials to reflect most of the infrared (IR-mostly heat) and UV spectra of sunlight without interrupting the visible spectrum and will lead to saving energy consumption by reducing the heat and lighting during day time

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An Introduction and Costing of a Biomass/Wind/Pv Hybrid Energy System for Electricity Micro-Generation to Domestic Buildings in Armidale NSW, Australia

Global Journal For Research Analysis ◽

10.15373/22778160/apr2014/23 ◽

2012 ◽

Vol 3 (4) ◽

pp. 70-74 ◽

Cited By ~ 3

Author(s):

Yasser Maklad ◽

Keyword(s):

Energy System ◽

Hybrid Energy System ◽

Hybrid Energy

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An intelligent strategy for hybrid energy system management

Renewable Energy and Power Quality Journal ◽

10.24084/repqj17.372 ◽

2019 ◽

Vol 17 ◽

pp. 550-554 ◽

Cited By ~ 1

Author(s):

I. Riverón ◽

◽

J.F. Gómez ◽

B. González ◽

J. Albino Méndez

Keyword(s):

Energy System ◽

System Management ◽

Hybrid Energy System ◽

Hybrid Energy

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Nuclear Hybrid Energy System Reliability Model Progress Report

10.2172/1615830 ◽

2017 ◽

Author(s):

Askin Guler Yigitoglu ◽

Thomas Harrison ◽

Michael Scott Greenwood

Keyword(s):

System Reliability ◽

Energy System ◽

Progress Report ◽

Reliability Model ◽

Hybrid Energy System ◽

Hybrid Energy

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Active Load Simulation Study of Solar and Wind Hybrid Energy System in Stand-alone Mode of Operation

Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering) ◽

10.2174/2352096511666180117145330 ◽

2018 ◽

Vol 11 (2) ◽

pp. 194-202

Author(s):

Lakshman Rao S. Paragond ◽

CIJI Pearl Kurian ◽

B.K Singh

Keyword(s):

Simulation Study ◽

Energy System ◽

Hybrid Energy System ◽

Hybrid Energy ◽

Active Load ◽

Mode Of Operation ◽

Load Simulation

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Optimal Sizing of an Island Hybrid Microgrid Based on Improved Multi-Objective Grey Wolf Optimizer

Processes ◽

10.3390/pr8121581 ◽

2020 ◽

Vol 8 (12) ◽

pp. 1581

Author(s):

Wenqiang Zhu ◽

Jiang Guo ◽

Guo Zhao ◽

Bing Zeng

Keyword(s):

Power Supply ◽

Tidal Current ◽

System Optimization ◽

Energy System ◽

Energy Sources ◽

Grey Wolf Optimizer ◽

Grey Wolf ◽

Hybrid Energy System ◽

Hybrid Energy ◽

Multi Objective

The hybrid renewable energy system is a promising and significant technology for clean and sustainable island power supply. Among the abundant ocean energy sources, tidal current energy appears to be very valuable due to its excellent predictability and stability, particularly compared with the intermittent wind and solar energy. In this paper, an island hybrid energy microgrid composed of photovoltaic, wind, tidal current, battery and diesel is constructed according to the actual energy sources. A sizing optimization method based on improved multi-objective grey wolf optimizer (IMOGWO) is presented to optimize the hybrid energy system. The proposed method is applied to determine the optimal system size, which is a multi-objective problem including the minimization of annualized cost of system (CACS) and deficiency of power supply probability (DPSP). MATLAB software is utilized to program and simulate the hybrid energy system. Optimization results confirm that IMOGWO is feasible to optimally size the system, and the energy management strategy effectively matches the requirements of system operation. Furthermore, comparison of hybrid systems with and without tidal current turbines is undertaken to confirm that the utilization of tidal current turbines can contribute to enhancing system reliability and reducing system investment, especially in areas with abundant tidal energy sources.

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