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Thermochemical battery for poultry egg incubation [electronic resource].

By:

Hassan, Shaymaa A

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Language: English Summary language: Arabic Description: p. 475 – 492Other title:

استخدام البطاريات الكيموحرارية بحاضنات الدواجن [Added title page title]

Uniform titles:

Misr journal of agricultural engineering, 2022 v.39 (3) [electronic resource].

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Full Text Article

In: Misr Journal of Agricultural Engineering 2022.v.39(3)Summary: This work aimed to investigate the potential of direct storage and restoration of solar energy in a chemical form and to construct a portable, rechargeable, and usable solar thermochemical battery for agricultural applications. Many attempts were conducted to select a suitable thermochemical storage material (TCM) among which are self-indicating silica gel (blue/pink), commercial white silica gel, and natural zeolite. During the experiments, moist TCMs samples were dried (energy-charged) by a one square-meter stainless-steel parabolic solar energy concentrator in three experimental configurations. An experimental aluminum thermochemical battery size 35×35×5 ???? filled with 3.5 ???? of TCMs working as a heat-exchanger and a portable energy charging/discharging thermal battery was evaluated. Energy restoration (discharging) was achieved by applying forced humid air generated from an ultrasonic mist generator and an air-circulation fan through a set of perforated pipes located inside the thermochemical battery. Results showed that TCM self-indicating silica gel was able to store 165 Wh/kg of solar energy at the charging process compared to natural zeolite (124 ???/????) and white-silica gel (80 ???/????). The energy discharging efficiency of the self-indicating silica gel was 57.7%, while the efficiency of the natural zeolite and white silica gel was 45.8% and 39%, respectively. Direct storage and use of solar energy in a thermochemical (TCM) form can reduce costs and maintenance of renewable energy applications compared to the high-cost photovoltaic systems. TCMs thermochemical batteries, like traditional electrical batteries, can act as energy master-key for different agricultural applications, as well as in thermo-sensitive processing and treatment

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Previous	ART MJAE V39 No3 5 Effect of the solar evaporative cooling and reducing the cover permeability on the production and quality of greenhouse cucumber \| [electronic resource].	ART MJAE V39 No3 6 Utilization of magnetic water technology to improve water quality and growth performance of fish \| [electronic resource].	ART MJAE V39 No3 7 Solar thermochemical energy-storage system (thermochemical battery) \| [electronic resource].	ART MJAE V39 No3 8 Thermochemical battery for poultry egg incubation \| [electronic resource].	ART MJAE V39 No4 1 Scheduling a smart hydroponic system to raise water use efficiency \| [electronic resource].	ART MJAE V39 No4 2 Mapping agricultural water productivity for center pivot irrigation systems based on satellite data \| [electronic resource].	ART MJAE V39 No4 3 Engineering factors affecting on basil growing \| [electronic resource].	Next

Includes bibliographic reference.

This work aimed to investigate the potential of direct storage and restoration of solar energy in a chemical form
and to construct a portable, rechargeable, and usable solar thermochemical battery for agricultural applications.
Many attempts were conducted to select a suitable thermochemical storage material (TCM) among which are self-indicating
silica gel (blue/pink), commercial white silica gel, and natural zeolite. During the experiments, moist TCMs samples
were dried (energy-charged) by a one square-meter stainless-steel parabolic solar energy concentrator in three experimental
configurations. An experimental aluminum thermochemical battery size 35×35×5 ???? filled with 3.5 ???? of TCMs working
as a heat-exchanger and a portable energy charging/discharging thermal battery was evaluated. Energy restoration (discharging)
was achieved by applying forced humid air generated from an ultrasonic mist generator and an air-circulation fan through a set
of perforated pipes located inside the thermochemical battery. Results showed that TCM self-indicating silica gel was able to
store 165 Wh/kg of solar energy at the charging process compared to natural zeolite (124 ???/????) and white-silica gel (80 ???/????).
The energy discharging efficiency of the self-indicating silica gel was 57.7%, while the efficiency of the natural zeolite
and white silica gel was 45.8% and 39%, respectively. Direct storage and use of solar energy in a thermochemical (TCM)
form can reduce costs and maintenance of renewable energy applications compared to the high-cost photovoltaic systems.
TCMs thermochemical batteries, like traditional electrical batteries, can act as energy master-key for different agricultural
applications, as well as in thermo-sensitive processing and treatment

Summary in Arabic.

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