Design and Development of a Solar-Powered Smart Heater

Renewable energy sources are those that replenish naturally without depletion. Example of such sources are bioenergy, hydropower, geothermal, wind and solar energy sources. The alarming rate of global energy demand and consumption necessitates an immediate solution for energy conservation and maximum efficiency of new technological gadgets now being built. As a gadget, a solar water heater transforms dc electricity into heat energy, which is then transferred to the water in which it is immersed. The size of the heater is determined by its design, capacity, and intended purpose; it might be for household or industrial use. As an alternative to conventional electric water heaters, this effort focuses on the design and development of a solar-powered smart water heater. In tests using a variety of settings, the solar-powered smart heater that was constructed performed admirably. The components used include a PIC16F876A microcontroller, a 12 V/300 W monocrystalline PV, a 12 V/ 40 A charge controller, and 12 V / 150 W dc submersible heating element among others The temperature control capacity of the fabrication makes it useful in water management system applications such as in aquaculture fingerling hatchery, hot water dispenser and shower among others. The system showed excellent performance in water temperature control using a 150 watts dc heater. Keywords:Solar, heater, photo-voltaic, temperature-controlled, direct current, alternating current .

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Analysis and comparison of methods for the preparation of domestic hot water from district heating system, selected renewable and non-renewable sources in low-energy buildings

E3S Web of Conferences ◽

10.1051/e3sconf/20183003001 ◽

2018 ◽

Vol 30 ◽

pp. 03001

Author(s):

Maciej Knapik

Keyword(s):

Renewable Energy ◽

Energy Demand ◽

Renewable Energy Sources ◽

District Heating ◽

Heating System ◽

Hot Water ◽

Low Energy ◽

Energy Sources ◽

District Heating System ◽

Domestic Hot Water

The article presents an economic analysis and comparison of selected (district heating, natural gas, heat pump with renewable energy sources) methods for the preparation of domestic hot water in a building with low energy demand. In buildings of this type increased demand of energy for domestic hot water preparation in relation to the total energy demand can be observed. As a result, the proposed solutions allow to further lower energy demand by using the renewable energy sources. This article presents the results of numerical analysis and calculations performed mainly in MATLAB software, based on typical meteorological years. The results showed that system with heat pump and renewable energy sources Is comparable with district heating system.

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Impact of location characteristics on renewable energy production for a group of buildings

E3S Web of Conferences ◽

10.1051/e3sconf/201911600084 ◽

2019 ◽

Vol 116 ◽

pp. 00084

Author(s):

Krystian Szczerbak

Keyword(s):

Renewable Energy ◽

Heat Pump ◽

Energy Demand ◽

Renewable Energy Sources ◽

Heat Pumps ◽

Hot Water ◽

Energy Sources ◽

Solar Collectors ◽

Single Family ◽

Northern Regions

The climate in Poland is slightly disparate in each region. The differences in temperature not always come along with the intensity of solar radiation in 5 climate zones. South of the country is colder, but well irradiated by the Sun and northern regions have milder climate, but are less irradiated. This fact alone makes people consider the suitability and safety of using renewable energy sources such as air-to-water heat pumps, solar collectors and photovoltaics instead of more traditional, fossil fuel powered sources. This paper presents a comparison analysis of energy demand and the cost for heating in a group of single-family buildings by 4 variants (gas boiler, gas boiler and solar collectors, air-to-water heat pump, air-to-water heat pump and photovoltaics) in 5 chosen cities in each polish climate zone. Calculations were done for space heating and domestic hot water energy demand, CO2 emissions and cumulative costs for all variants and locations. The results confirm the inconsistency of polish climate and have shown profitability and utility of renewable energy sources.

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ENERGY AUDIT – METHOD FOR ENERGY CONSERVATION IN HOTELS

Tourism and hospitality management ◽

10.20867/thm.14.2.14 ◽

2007 ◽

Vol 14 (2) ◽

pp. 349-358

Author(s):

Zeljka Hrs Borkovic ◽

Biljana Kulisic ◽

Margareta Zidar

Keyword(s):

Renewable Energy ◽

Energy Conservation ◽

Energy Demand ◽

Renewable Energy Sources ◽

Hotel Industry ◽

Hot Water ◽

Energy Sources ◽

Energy Audit ◽

Increasing Demand ◽

Near Future

: In the very near future, energy efficient hotels will cease to be the exception but will be the rule. Energy conservation and the intelligent utilization of renewable energy sources are prerequisite for sustainable development of tourism. Due to global warming and increased standards in hotel industry, there is an increasing demand for energy for cooling in general, although this is especially reflected in hotel industry peaking in summer period. Furthermore, energy demand for hot water and food and beverages preparation in a hotel increases proportionally with the number of tourists. All these energy issues are overburdening the ever competing hotel industry. Hotels, in order to optimize their energy costs and implementation of renewable energy sources utilization, have to perform energy audit - an analysis of thermal performance and energy systems of building with the purpose to determent its energy efficiency or non-efficiency. This paper combines energy audit methodology with properties of energy consumption in hotel industry with an aim to provide guidelines for modern hotel energy management.

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Economic and environmental analysis of a hybrid solar, wind and pumped storage hydroelectric energy source: a Polish perspective

Bulletin of the Polish Academy of Sciences Technical Sciences ◽

10.1515/bpasts-2017-0093 ◽

2017 ◽

Vol 65 (6) ◽

pp. 859-869 ◽

Cited By ~ 2

Author(s):

J. Jurasz ◽

J. Mikulik

Keyword(s):

Energy Source ◽

Energy Demand ◽

Renewable Energy Sources ◽

Rapid Development ◽

Energy System ◽

Mixed Integer ◽

Energy Sources ◽

Hydroelectric Energy ◽

Solar Powered ◽

Pumped Storage

AbstractThis paper introduces a mixed integer non-linear mathematical model for a simulation of a hybrid energy source consisting of photovoltaics (PV), wind turbines (WT) and pumped storage hydroelectricity (PSH). The concept of PV–WT–PSH has been well described and evaluated for sparsely populated or remote areas such as islands. Here, due to the rapid development of renewable energy sources and most importantly the variable (non-dispatchable) energy sources such as wind and solar, the idea of wind and solar powered PSHs has been investigated in the context of the national energy system. The economic and environmental impact of the proposed hybrid has been assessed. The results reveal that to cover almost 40% of the energy demand one should expect the energy cost to increase by 25%.

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ANALISYS OF THERMAL EFFICIENCY OF A MODIFIED SOLAR COLLECTOR TYPE EVACUATED TUBE

Revista de Engenharia Térmica ◽

10.5380/reterm.v13i1.62056 ◽

2014 ◽

Vol 13 (1) ◽

pp. 03

Author(s):

E. Avallone ◽

A. I. Sato ◽

V. L. Scalon ◽

A. Padilha

Keyword(s):

Solar Collector ◽

Renewable Energy Sources ◽

Experimental Tests ◽

Clean Energy ◽

Hot Water ◽

Energy Sources ◽

Transient Heat Flow ◽

Important Approach ◽

Experimental Problem ◽

Evacuated Tube

The need of renewable energy sources due to climate change and thus the search for clean energy sources, justify the growing investment on new types of solar collectors. The research has contributed to this expansion in the scope of solar concentrator collectors, with the efficiency as the main goal. Many works have been developed in order to optimize the thermal stratification of the fluid inside the tubes and heat reservoirs, as well as mathematical modeling considering the problem as transient heat flow as boundary condition. In this work is studied experimentally, the heating of the water by solar collector modified from the conventional evacuated tube, focusing on efficiency. With the help of CFD software, a theoretical analysis is done to visualize the phenomenon, assuming the same boundary conditions and geometric experimental problem. An important approach concerns the physical separation of the flows of both cold and hot water inside the evacuated tube. The system performance was analyzed using experimental tests performed outdoors with sunlight.

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Modelling of an Optimized Microgrid Model by Integrating DG Distributed Generation Sources to IEEE 13 Bus System

European Journal of Electrical Engineering and Computer Science ◽

10.24018/ejece.2021.5.2.309 ◽

2021 ◽

Vol 5 (2) ◽

pp. 18-25

Author(s):

Bisma Imtiaz ◽

Imran Zafar ◽

Cui Yuanhui

Keyword(s):

Renewable Energy ◽

Distributed Generation ◽

Energy Demand ◽

High Reliability ◽

Renewable Energy Sources ◽

Energy Sources ◽

Efficient Manner ◽

Matlab Simulink ◽

Control Scheme ◽

Power Quality Improvement

Due to the rapid increase in energy demand with depleting conventional sources, the world’s interest is moving towards renewable energy sources. Microgrid provides easy and reliable integration of distributed generation (DG) units based on renewable energy sources to the grid. The DG’s are usually integrated to microgrid through inverters. For a reliable operation of microgrid, it must have to operate in grid connected as well as isolated mode. Due to sudden mode change, performance of the DG inverter system will be compromised. Design and simulation of an optimized microgrid model in MATLAB/Simulink is presented in this work. The goal of the designed model is to integrate the inverter-interfaced DG’s to the microgrid in an efficient manner. The IEEE 13 bus test feeder has been converted to a microgrid by integration of DG’s including diesel engine generator, photovoltaic (PV) block and battery. The main feature of the designed MG model is its optimization in both operated modes to ensure the high reliability. For reliable interconnection of designed MG model to the power grid, a control scheme for DG inverter system based on PI controllers and DQ-PLL (phase-locked loop) has been designed. This designed scheme provides constant voltage in isolated mode and constant currents in grid connected mode. For power quality improvement, the regulation of harmonic current insertion has been performed using LCL filter. The performance of the designed MG model has been evaluated from the simulation results in MATLAB/ Simulink.

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Energy Management System for Hybrid Microgrids

Electrotehnica, Electronica, Automatica ◽

10.46904/eea.21.69.2.1108003 ◽

2021 ◽

Vol 69 (2) ◽

pp. 21-30

Author(s):

Nasreddine ATTOU ◽

Sid-Ahmed ZIDI ◽

Mohamed KHATIR ◽

Samir HADJERI

Keyword(s):

Energy Management ◽

Electricity Market ◽

Management System ◽

Energy Demand ◽

Renewable Energy Sources ◽

Supply And Demand ◽

Energy Sources ◽

Variable Load ◽

Energy Management System ◽

Price Variation

Energy management in grid-connected Micro-grids (MG) has undergone rapid evolution in recent times due to several factors such as environmental issues, increasing energy demand and the opening of the electricity market. The Energy Management System (EMS) allows the optimal scheduling of energy resources and energy storage systems in MG in order to maintain the balance between supply and demand at low cost. The aim is to minimize peaks and fluctuations in the load and production profile on the one hand, and, on the other hand, to make the most of renewable energy sources and energy exchanges with the utility grid. In this paper, our attention has been focused on a Rule-based energy management system (RB EMS) applied to a residential multi-source grid-connected MG. A Microgrid model has been implemented that combines distributed energy sources (PV, WT, BESS), a number of EVs equipped with the Vehicle to Grid technology (V2G) and variable load. Different operational scenarios were developed to see the behaviour of the implemented management system during the day, including the random demand profile of EV users, the variation in load and production, grid electricity price variation. The simulation results presented in this paper demonstrate the efficacy of the suggested EMS and confirm the strategy's feasibility as well as its ability to properly share power among different sources, loads and vehicles by obeying constraints on each element.

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Application of Life-cycle Assessment for the Study of Carbon and Water Footprints of the 16.5 MWe Wind Farm in Villonaco, Loja – Ecuador

10.20944/preprints202110.0399.v1 ◽

2021 ◽

Author(s):

Alberto Tama Franco

Keyword(s):

Climate Change ◽

Life Cycle ◽

Energy Demand ◽

Wind Farm ◽

Renewable Energy Sources ◽

Electric Energy ◽

Electricity Production ◽

Energy Sources ◽

Cumulative Energy ◽

Cumulative Energy Demand

Wind technology is considered to be among the most promising types of renewable energy sources, and due to high oil prices and growing concerns about climate change and energy security, it has been the subject of extensive considerations in recent years, including questions related to the relative sustainability of electricity production when the manufacturing, assembly, transportation and dismantling processes of these facilities are taken into account. The present article evaluates the environmental impacts, carbon emissions and water consumption, derived from the production of electric energy of the Villonaco wind farm, located in Loja-Ecuador, during its entire life cycle, using the Life Cycle Analysis method. Finally, it is concluded that wind energy has greater environmental advantages, since it has lower values of carbon and water footprints than other energy sources. Additionally, with the techniques Cumulative Energy Demand and Energy Return on Investment, sustainability in the production of electricity from wind power in Ecuador is demonstrated; and, that due to issues of vulnerability to climate change, the diversification of its energy mix is essential considering the inclusion of non-conventional renewable sources such as solar or wind, this being the only way to reduce both the carbon footprint and the water supply power.

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Selection of Renewable Energy Sources for Buildings

Advances in Civil and Industrial Engineering - Design Solutions for nZEB Retrofit Buildings ◽

10.4018/978-1-5225-4105-9.ch003 ◽

2018 ◽

pp. 69-97

Author(s):

Hanna Irena Jędrzejuk

Keyword(s):

Renewable Energy ◽

Energy Demand ◽

Renewable Energy Sources ◽

Short Review ◽

Biomass Energy ◽

Energy Sources ◽

Legal Regulations ◽

Zero Energy Building ◽

Standard Application ◽

Technical Systems

This chapter describes a general issue of selecting renewable energy sources (RES) and technical systems. To achieve the nearly zero-energy building (nZEB) standard, application of an RES (e.g., solar, wind, geothermal, hydropower, and biomass energy) is necessary. Each type of RES has specific characteristics and can be used to produce electricity and/or heat in certain systems. A short review of various systems using renewable energy sources is presented. To find the required and satisfactory solution that guaranties meeting the nZEB standard, an analysis must be carried out considering a number of aspects: local availability, structure and time-dependence of energy demand, building construction, economic conditions, legal regulations, and specific requirements. Finally, two examples of modernisation towards the nZEB standard are included.

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Replacing Fossil Fuels and Nuclear Power with Renewable Energy: Utopia or Valid Option? A Swiss Case Study of Bioenergy

Energies ◽

10.3390/en13082051 ◽

2020 ◽

Vol 13 (8) ◽

pp. 2051 ◽

Cited By ~ 1

Author(s):

Renato Lemm ◽

Raphael Haymoz ◽

Astrid Björnsen Gurung ◽

Vanessa Burg ◽

Tom Strebel ◽

...

Keyword(s):

Renewable Energy ◽

Energy Demand ◽

Renewable Energy Sources ◽

Regional Scale ◽

Energy Sources ◽

Potential Contribution ◽

Swiss Canton ◽

Future System ◽

Conversion Technologies ◽

The Impact

The transition towards a reliable, sustainable, low-carbon energy system is a major challenge of the 21st century. Due to the lower energy density of many renewable energy sources, a future system is expected to be more decentralized, leading to significant changes at the regional scale. This study analyzes the feasibility of the energy transition in the Swiss canton of Aargau as an illustrative example and explores different strategies to satisfy the local demand for electricity, heat, and fuel by 2035. In particular, we assess the potential contribution of biomass. Four scenarios demonstrate what energy demand proportion could be covered by bioenergy if different priorities were given to the provision of heat, electricity, and fuel. The impact of improved conversion technologies is also considered. The results show that the sustainably available renewable energy sources in canton Aargau will probably not be sufficient to cover its forecasted energy demand in 2035, neither with present nor future biomass conversion technologies. At best, 74% of the energy demand could be met by renewables. Biomass can increase the degree of autarky by a maximum of 13%. Depending on the scenario, at least 26–43% (2500–5700 GWh) of total energy demand is lacking, particularly for mobility purposes.

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