scholarly journals Profitability of Sensor-based Irrigation in Greenhouse and Nursery Crops

2013 ◽  
Vol 23 (6) ◽  
pp. 770-774 ◽  
Author(s):  
Erik Lichtenberg ◽  
John Majsztrik ◽  
Monica Saavoss
Keyword(s):  
Wireless Sensor ◽  
Sensor Technology ◽  
Production Time ◽  
Experimental Conditions ◽  
Application Rates ◽  
Irrigation Water Use ◽  
Production Environments ◽  
Controlled Irrigation ◽  
Using Data ◽  
Benefits And Costs

Improvements in sensor technology coupled with advances in knowledge about plant physiology have made it feasible to use real-time substrate volumetric water content sensors to accurately determine irrigation timing and application rates in soilless substrates in greenhouse and container production environments. Sensor-based irrigation uses up-front investments in equipment and system calibration in return for subsequent reductions in irrigation water use and associated costs of energy and labor, spending on fertilizer, and disease losses. It can also accelerate production time. We present formulas for assessing profitability when benefits and costs are separated in time and apply those formulas using data from an experiment on production of gardenia [Gardenia augusta ‘MADGA 1’ (Heaven Scent™)]. Sensor-controlled irrigation cuts production time and crop losses by more than half. Annualized profit under the wireless sensor system was over 1.5 more than under the nursery’s standard practice, with the bulk of the increase in profit due to the reduction in production time. These results indicate that controlling irrigation using wireless sensor systems is likely to increase profitability substantially, even if efficiency gains are not as high as those achieved under experimental conditions.

scholarly journals Remote Lab Access using Wireless Sensor Technology

2014 ◽  
Vol 7 (19) ◽  
pp. 4029-4034 ◽  
Author(s):  
Keshavamurthy Keshavamurthy ◽  
Darmishtan K. Varughese
Keyword(s):  
Wireless Sensor ◽  
Sensor Technology ◽  
Remote Lab

scholarly journals Real-Time Heart Pulse Monitoring Technique Using Wireless Sensor Network and Mobile Application

2018 ◽  
Vol 8 (6) ◽  
pp. 5118 ◽  
Author(s):  
Nabeel Salih Ali ◽  
Zaid Abdi Alkaream Alyasseri ◽  
Abdulhussein Abdulmohson
Keyword(s):  
Real Time ◽  
Mobile Application ◽  
Electronic Circuit ◽  
Healthcare Services ◽  
Wireless Sensor ◽  
Sensor Technology ◽  
Medical Monitoring ◽  
Monitoring Technique ◽  
Arduino Microcontroller ◽  
User Friendly

Wireless Sensor Networks (WSNs) for healthcare have emerged in the recent years. Wireless technology has been developed and used widely for different medical fields. This technology provides healthcare services for patients, especially who suffer from chronic diseases. Services such as catering continuous medical monitoring and get rid of disturbance caused by the sensor of instruments. Sensors are connected to a patient by wires and become bed-bound that less from the mobility of the patient. In this paper, proposed a real-time heart pulse monitoring system via conducted an electronic circuit architecture to measure Heart Pulse (HP) for patients and display heart pulse measuring via smartphone and computer over the network in real-time settings. In HP measuring application standpoint, using sensor technology to observe heart pulse by bringing the fingerprint to the sensor via used Arduino microcontroller with Ethernet shield to connect heart pulse circuit to the internet and send results to the web server and receive it anywhere. The proposed system provided the usability by the user (user-friendly) not only by the specialist. Also, it offered speed andresults accuracy, the highest availability with the user on an ongoing basis, and few cost.

scholarly journals Validation of Remote Sensing Retrieval Products using Data from a Wireless Sensor-Based Online Monitoring in Antarctica

Sensors ◽  
2016 ◽  
Vol 16 (11) ◽  
pp. 1938 ◽  
Author(s):  
Xiuhong Li ◽  
Xiao Cheng ◽  
Rongjin Yang ◽  
Qiang Liu ◽  
Yubao Qiu ◽  
...  
Keyword(s):  
Remote Sensing ◽  
Online Monitoring ◽  
Wireless Sensor ◽  
Using Data

Wireless Sensor Technology for Intelligent Data Sensing: Research Trends and Challenges

2018 ◽  
pp. 41-58 ◽  
Author(s):  
Djallel Eddine-Boubiche ◽  
Joel A. Trejo-Sánchez ◽  
Homero Toral-Cruz ◽  
José L. López-Martínez ◽  
Faouzi Hidoussi
Keyword(s):  
Research Trends ◽  
Wireless Sensor ◽  
Sensor Technology

Cattle manure loadings and legacy effects on Cu and Zn availability under rainfed and irrigated conditions

2021 ◽  
Author(s):  
Srimathie Priyanthika Indraratne ◽  
Matthew Spengler ◽  
Xiying Hao
Keyword(s):  
Cattle Manure ◽  
Legacy Effects ◽  
Nutrient Pools ◽  
Application Rates ◽  
Wet Weight ◽  
Using Data ◽  
Time Required ◽  
Zn Availability ◽  
Cu And Zn

Long term cattle manure applications build up nutrient pools and can lead to trace element enrichments in soils. The objectives of this study were to evaluate Cu and Zn loadings in the soil during continuous annual cattle manure applications and determine the time required for soil to return to its pre-manure available Cu and Zn levels after manure is discontinued. The manure application rates were 0, 30, 60, and 90 Mg ha-1 for rainfed and 0, 60, 120, and 180 Mg ha-1 (wet weight) for irrigated plots. While manure was applied for 45 years in some plots, applications were terminated in one subset of treatments after 14 years and in another subset after 30 years to study legacy effects after 31 and 15 years, respectively. Soil samples were collected in the fall of 2003, 2008, 2013, and 2018 and analyzed for available Cu and Zn. Crops were grown in all years continuously with Cu and Zn concentrations measured in both silage and grains harvested. The regression model developed using data collected suggests long legacy effects with recovery time to pre-manure levels ranging from 10-20 years for Cu and 23-41 years for Zn at irrigated and 10-24 for Cu and 21-32 years for Zn under rainfed, respectively. Long term applications of cattle manure could lead to accumulation of Cu and Zn, creating long-lasting legacy effects in soils with the increased environmental risk of leaching to groundwater

An Optimized Experimental Investigation of Foam-Assisted N2 Huff-n-Puff Enhanced Oil Recovery in Fractured Shale Cores

2021 ◽  
Author(s):  
Xiaofei Xiong ◽  
James Jia Sheng
Keyword(s):  
Enhanced Oil Recovery ◽  
Oil Recovery ◽  
Rapid Decline ◽  
Production Time ◽  
Experimental Conditions ◽  
Cycle Number ◽  
Injection Process ◽  
Matrix Permeability ◽  
Shale Reservoirs ◽  
Scale Matrix

Abstract Sustainable development of shale reservoirs and enhanced oil recovery have become a challenge for the oil industry in recent years. Shale reservoirs are typically characterized by nano Darcy-scale matrix, natural fractures, and artificially fractures with high permeability. Some of earlier studies have confirmed that gas huff-n-puff has been investigated and demonstrated as the most effective and promising solution for improving oil recovery in tight shale reservoirs with ultra-low permeability. Fractures provide an advantage in enhancing recovery from shale reservoirs but they also pose serious problems such as severe gas channeling, which led to rapid decline production from a single well. More studies are needed to optimize the process. This paper studies the method of foam-assisted N2 huff-n-puff to enhance oil recovery in fractured shale cores. The influence of foam on oil recovery was analyzed. The effect of matrix permeability, cycle number and production time on oil recovery are also considered. The shale core used in the experiment was from Sichuan Basin, China. For the purpose of comparation and validation, two groups of tests were conducted. One group of tests was N2 huff-n-puff, and the other was foam-N2 huff-n-puff. In the optimization experiment, matrix permeabilities were set as 0.01mD, 0.008mD and 0.001mD, cycle numbers ranged from one to five, the production time is designed to be 1 hour and 24 hours respectively. During the puff period of experiments, the history of oil recovery was closely monitored to reveal the mechanism. During a round of gas injection of fractured shale cores, foam-assisted N2 huff-n-puff oil recovery is 4.59%, which is significantly higher than that of N2 huff-n-puff is only 0.0126%, and the contrast becomes more obvious with the increase of matrix permeability. The results also showed that the cumulative oil recovery increased as the number of cycles was increased, with the same experimental conditions. There is an optimal production time to achieve maximum oil recovery. The cycle numbers, matrix permeability, and production time played important roles in foam-assisted N2 huff-n-puff injection process. Therefore, under certain conditions, foam-N2 huff-n-puff has a positive effect on oil development in fractured shale.

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