Renewable energy sources : engineering, technology, innovation : ICORES 2017
The world economy in the production of electricity and heat, is increasingly based on the use of renewable energy sources to replace partially or totally fossil fuels. Biofuels provide an opportunity for energy production in many sectors while maintaining ecological conditions. Having regard to e...
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Energy; Renewable energy sources
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my.uniten.dspace-137822020-03-31T00:58:48Z Renewable energy sources : engineering, technology, innovation : ICORES 2017 Edited by Krzysztof Mudryk, Sebastian Werle Energy; Renewable energy sources -- Congresses; TECHNOLOGY & ENGINEERING -- Mechanical; Thermodynamics; Mass transfer; Heat -- Transmission; Heat engineering; Environmental engineering; Clean energy industries; Renewable energy sources; Biotechnology; Science -- Energy; Technology & Engineering -- Environmental -- General; Science -- Mechanics -- Dynamics -- Thermodynamics; Technology & Engineering -- Power Resources -- General; Alternative & renewable energy sources & technology; Environmental science, engineering & technology; Engineering thermodynamics; Energy technology & engineering; Renewable energy sources; Biotechnology; Engineering; Electronic books The world economy in the production of electricity and heat, is increasingly based on the use of renewable energy sources to replace partially or totally fossil fuels. Biofuels provide an opportunity for energy production in many sectors while maintaining ecological conditions. Having regard to energy security in all regions of the country and the guarantee of sufficient resources for energy production, it must be constantly searched for new and locally available raw materials for the production of environmentally friendly fuel, whose physicochemical parameters will fully implement efficient combustion or incineration. Fruit processing plants offer post-production waste, which can be used as biomass. At the turn of the last years they developed a number of kilns, whose aim is to get the plant product with a humidity below 15%. Laboratory tests conducted at Kielce University of Technology, demonstrated the possibility of using agro biomass as a component of the mixtures of waste wood for their energy efficiency. Analytical moisture, heat of combustion, calorific value, and ash participation were analyzed. It has shown the difference in the residue of the same mixture at two temperatures of incineration. The possibility of increasing the amount of biomass as a renewable source of energy becomes a reality, both in industry and in private farms. To stop the process of environmental pollution, which has recently been intensified more and more, one should be more broadly interested in the use of post-production waste of plant origin, available on the domestic market. 2020-03-31T00:58:46Z 2020-03-31T00:58:46Z 2018 Book http://dspace.uniten.edu.my/jspui/handle/123456789/13782 en Springer |
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Energy; Renewable energy sources -- Congresses; TECHNOLOGY & ENGINEERING -- Mechanical; Thermodynamics; Mass transfer; Heat -- Transmission; Heat engineering; Environmental engineering; Clean energy industries; Renewable energy sources; Biotechnology; Science -- Energy; Technology & Engineering -- Environmental -- General; Science -- Mechanics -- Dynamics -- Thermodynamics; Technology & Engineering -- Power Resources -- General; Alternative & renewable energy sources & technology; Environmental science, engineering & technology; Engineering thermodynamics; Energy technology & engineering; Renewable energy sources; Biotechnology; Engineering; Electronic books |
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Energy; Renewable energy sources -- Congresses; TECHNOLOGY & ENGINEERING -- Mechanical; Thermodynamics; Mass transfer; Heat -- Transmission; Heat engineering; Environmental engineering; Clean energy industries; Renewable energy sources; Biotechnology; Science -- Energy; Technology & Engineering -- Environmental -- General; Science -- Mechanics -- Dynamics -- Thermodynamics; Technology & Engineering -- Power Resources -- General; Alternative & renewable energy sources & technology; Environmental science, engineering & technology; Engineering thermodynamics; Energy technology & engineering; Renewable energy sources; Biotechnology; Engineering; Electronic books Edited by Krzysztof Mudryk, Sebastian Werle Renewable energy sources : engineering, technology, innovation : ICORES 2017 |
description |
The world economy in the production of electricity and heat, is
increasingly based on the use of renewable energy sources to replace partially or
totally fossil fuels. Biofuels provide an opportunity for energy production in many
sectors while maintaining ecological conditions. Having regard to energy
security in all regions of the country and the guarantee of sufficient resources for
energy production, it must be constantly searched for new and locally available raw
materials for the production of environmentally friendly fuel, whose physicochemical
parameters will fully implement efficient combustion or incineration. Fruit
processing plants offer post-production waste, which can be used as biomass. At the
turn of the last years they developed a number of kilns, whose aim is to get the plant
product with a humidity below 15%. Laboratory tests conducted at Kielce
University of Technology, demonstrated the possibility of using agro biomass as a
component of the mixtures of waste wood for their energy efficiency. Analytical
moisture, heat of combustion, calorific value, and ash participation were analyzed.
It has shown the difference in the residue of the same mixture at two temperatures
of incineration. The possibility of increasing the amount of biomass as a renewable
source of energy becomes a reality, both in industry and in private farms. To stop
the process of environmental pollution, which has recently been intensified more
and more, one should be more broadly interested in the use of post-production
waste of plant origin, available on the domestic market. |
format |
Book |
author |
Edited by Krzysztof Mudryk, Sebastian Werle |
author_facet |
Edited by Krzysztof Mudryk, Sebastian Werle |
author_sort |
Edited by Krzysztof Mudryk, Sebastian Werle |
title |
Renewable energy sources : engineering, technology, innovation : ICORES 2017 |
title_short |
Renewable energy sources : engineering, technology, innovation : ICORES 2017 |
title_full |
Renewable energy sources : engineering, technology, innovation : ICORES 2017 |
title_fullStr |
Renewable energy sources : engineering, technology, innovation : ICORES 2017 |
title_full_unstemmed |
Renewable energy sources : engineering, technology, innovation : ICORES 2017 |
title_sort |
renewable energy sources : engineering, technology, innovation : icores 2017 |
publisher |
Springer |
publishDate |
2020 |
url |
http://dspace.uniten.edu.my/jspui/handle/123456789/13782 |
_version_ |
1662758888250802176 |
score |
13.211869 |