Development and Evaluation of Solar-Powered Instrument for Hydroponic System in Limapuluh Kota, Indonesia.

Putera, Perdana; Novita, Sri Aulia; Laksmana, Indra; Hamid, Muhammad Imran; Syafii, Syafii

doi:10.18517/ijaseit.5.5.566

Cited by 12 publications

(9 citation statements)

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“…Regarding electricity, it can be seen, based on a number of studies (Aldrich and Bartok, 1994;Hernandez, 2016;Wallace and Anciso, 2016;Putera et al, 2015) that the average electricity consumption is between 14-17 kWh/m 2 per year, depending on the hydroponic unit structure (e.g. number of tiers and real cultivated area) and the produced product.…”

Section: Wind Resource Assessment Results and Mass Scale Hydroponic Dmentioning

confidence: 99%

Energy demand analysis via small scale hydroponic systems in suburban areas – An integrated energy-food nexus solution

Xydis

Liaros

Botsis³

2017

Science of The Total Environment

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The study is a qualitative approach and looks into new ways for the effective energy management of a wind farm (WF) operation in a suburban or near-urban environment in order the generated electricity to be utilised for hydroponic farming purposes as well. Since soilless hydroponic indoor systems gain more and more attention one basic goal, among others, is to take advantage of this not typical electricity demand and by managing it, offering to the grid a less fluctuating electricity generation signal. In this paper, a hybrid business model is presented where the Distributed Energy Resources (DER) producer is participating in the electricity markets under competitive processes (spot market, real-time markets etc.) and at the same time acts as a retailer offering - based on the demand - to the hydroponic units for their mass deployment in an area, putting forward an integrated energy-food nexus approach.

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Section: Wind Resource Assessment Results and Mass Scale Hydroponic Dmentioning

confidence: 99%

Energy demand analysis via small scale hydroponic systems in suburban areas – An integrated energy-food nexus solution

Xydis

Liaros

Botsis³

2017

Science of The Total Environment

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“…Having analyzed the existing studies on the development of illumination monitoring systems, we can state that integrated sensors based on photodiodes and photoresistors are most widely used (Boselin Prabhu et al, 2014;Arif and Abbas, 2015;Zhou and Duan, 2016;Li, 2017;Laktionov et al, 2018). In this paper, typical sensors based on a photodiode (GY-302 BH1750FVI) and a photoresistor (KY-018) have been selected for the research according to the following criteria: satisfactory technical characteristics specified by manufacturers; compatibility with the microprocessor platform Arduino Mega 2560, which is widely used in designing the monitoring systems for agricultural facility parameters (Putera et al, 2015;Maulana et al, 2018;Suganthi Jemila and Suja Priyadharsini, 2018); affordable price range. The main technical characteristics of the GY-302 BH1750FVI (Light intensity Sensor Module GY-30 BH1750FVI, 2018) and KY-018 (KY-018 Photoresistor Module, 2018) sensors are given in Table 3, the physical configuration of the sensors is shown in Figures 3 and 6.…”

Section: Components Sensorsmentioning

confidence: 99%

Results of Experimental Research on Computerized Intellectual Monitoring Means of Effective Greenhouse Illumination

Laktionov

Vovna

Getman

et al. 2018

International Journal on Smart Sensing and Intelligent Systems

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Industrial greenhouses are complex technological facilities where control and managing of the cultivation regimes affecting the efficiency of evapotranspiration and photosynthesis should be provided. The paper solves the relevant scientific and applied problem of evaluating and analyzing the metrological and functional characteristics of effective illumination sensors. The subject of the research is the metrological characteristics of means of metrical monitoring of effective illumination in the visible optical range for protected horticulture. The object of the study is the processes and factors which affect the metrological characteristics of the serial low-cost sensors of effective illumination in the visible optical range. The findings presented in this paper focus on solving the relevant scientific and applied problem of limited results of experiments on serial low-cost sensors of effective illumination in the visible optical range and their subsequent mathematical analysis to evaluate metrological characteristics. Promising areas of the research on the metrological provision of modern computerized systems for monitoring and controlling the effective illumination of industrial greenhouses are justified. The research results can be integrated into modern methods and means of computerized metrical monitoring and automatic control of technological regimes of greenhouse cultivation.

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“…R and L are the resistance and inductance of the motor armature; e a , e b , and e c are the back-emfs; S 1 -S 6 represent the turning-on switches of the inverter; whereas D 1 to D 6 are the freewheeling diodes. The dc-link capacitor between the battery and inverter is used as temporary energy storage [17]. The inverter operation of this BLDC motor is based on the six-step method.…”

Section: B Bidirectional Voltage-source Inverter (Vsi)mentioning

confidence: 99%

“…The energy involved during the plugging process is given in (16), whereas the energy being returned to the battery during the regenerative process is given in (17). By considering,…”

Section: (11)mentioning

confidence: 99%

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An Effective Method of Regenerative Braking for Electric Vehicles

Hasanah

Andrean

Suyono

et al. 2017

International Journal on Advanced Science, Engineering and Information Technology

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Batteries are commonly used as the power source of plug-in electric vehicles. Low efficiency in a battery is responsible for the low-mileage of electric vehicles. Improving battery efficiency can be done by harvesting the energy wasted during braking, which is commonly called as regenerative braking. The braking energy is to be used to recharge the battery. However, this braking method is not implementable in some conditions, including the conditions when the battery is full, when the vehicle speed is very slow, and when the desired braking currents exceed the converter capability. Therefore, mechanical braking is also still required. This paper proposes a simple but effective technique to deal with the problems found so far in the regenerative braking implementation. The fuzzy-logic theory is implemented to control the sharing proportion between the use of regenerative and electric brakings using one single brake-lever. To improve the current response of electric braking, the proportional-integral control method is used. Being compared to the widely used braking techniques, the method proposed and explored through simulation in this paper offers double advantages, which is increasing the battery efficiency as well as the driving comfort and practicality. The implementation of the method can extend the battery life because the energy regeneration is adapted to the state-of-charge and charging capability of the battery so that the battery can be maintained not to be overcharged.

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Development and Evaluation of Solar-Powered Instrument for Hydroponic System in Limapuluh Kota, Indonesia.

Cited by 12 publications

References 1 publication

Energy demand analysis via small scale hydroponic systems in suburban areas – An integrated energy-food nexus solution

Energy demand analysis via small scale hydroponic systems in suburban areas – An integrated energy-food nexus solution

Results of Experimental Research on Computerized Intellectual Monitoring Means of Effective Greenhouse Illumination

An Effective Method of Regenerative Braking for Electric Vehicles

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