- Drip laterals and micro-sprinklers
- Main lines (e.g. PVC, PE)
- Energy calculators
Features of the app include:
* Easy to understand device status
* Quick program modification
* Launch ad-hoc or defined programs instantly
* Manual mode for convenient testing
* Multi-device support
* View visual representation of upcoming scheduled programs
* View graphical and tabulated representation of log data
* View current weather and forecast status for the device location
* Change and disable rain delay
* Multiple supported languages (Afrikaans, Amharic, Chinese, Czech, Dutch, French, German, Hebrew, Hungarian, Italian, Mongolian, Norwegian, Polish, Portuguese, Slovak, Slovenian, Spanish, and more)
This application requires you to own an OpenSprinkler that is properly connected to your network. For more information please visit http://opensprinkler.com.
You can control your device from outside the local network with proper port forwarding and use of the WAN IP within the application or by using a VPN. For further assistance please visit the forums: https://opensprinkler.com/forums
This is open source software: source code for this application can be found at https://github.com/OpenSprinkler/OpenSprinkler-App
Aplicación para la automatización del riego en fincas agrícolas, parques y jardines.
Aplicación residente en el smartphone que permite llevar una completa gestión del riego y fertirrigación desde cualquier lugar del mundo con acceso a Internet, actuando sobre los programadores de riego en campo Agronic 2500 y Agronic 4000.
Conexión permanente con las parcelas de riego sobre las que se puede actuar y consultar de forma inmediata y con un fácil manejo.
Prestaciones más destacadas de la aplicación:
- Permite órdenes manuales con respuesta inmediata.
Permite hacer programación sobre la parcela de riego o sobre los cultivos de forma individual o masiva.
-Consulta del estado actual de riego con etiquetas de identificación sobre mapas.
-Consulta diaria de los últimos 7 días sobre el historial de riego acumulado, valores de los sensores (analógicos, digitales y contadores), condicionantes de riego y anomalías.
Progrés ofrece: “La gestión del riego en su bolsillo”.
Adaptada para dispositivos de gama media alta.
Contacto en firstname.lastname@example.org
THIS APP REQUIRES A USER NAME AND PASSWORD TO LOGIN. CONTACT CYBER-RAIN IF YOU ARE AN EXISTING CUSTOMER AND WANT ACCESS TO THE CLOUD APP, OR IF YOU ARE INTERESTED IN PURCHASING THE CLOUD SYSTEM.
The Cyber-Rain Cloud Smart Control app allows you to view the status of your Cyber-Rain irrigation controller(s), to perform manual runs for various zones, stop an existing run, put one or more controllers on hold, and to upload images of your irrigation zones.
The Cyber-Rain XCI Cloud Irrigation Control System uses advanced water-saving technology based on local weather forecast data for your area to maximize water savings. This eliminates the need for expensive and short-range remotes to verify that the irrigation system is running smoothly from the field. Cyber-Rain is a leader in water conservation technologies for Residential, Commercial, and Industrial applications.
HortiGIS is provided with interfaces friendly to users who previously had no experience with Geographical Information Systems. Currently available tools supporting agriculture such as satellite navigation and soil maps are not compatible and require the user to devote much time in order to adapt them to specific tasks.
On the Polish market there is a need for an integrated system which will be responsible for providing information based on satellite data on a mobile devices. The HortiSat mobile software will have a flexible interface allowing the user to customise key features for data collection and display. Data entry will work independently or in conjunction with a GPS receiver integrated with a mobile device.
In the HortiSat project, remote sensing data on soil conditions, moisture and plant health are compiled with the measurements made in-situ. The whole is integrated with mobile devices equipped with GPS navigation - this will enable the efficient use and acquiring spatial data.
Use when at home or away.
* Turn zones on or off.
* Suspend and restart scheduled programming.
* Run individual programs immediately.
* Run a valve test.
Requires OnPoint EcoSystems WaterPoint 1000 WiFi Irrigation Controller.
A number of management decisions are based on the annualized costs of owning and operating an irrigation system. Before developing land for irrigation, the first decision should be to determine whether the irrigation system will be economically feasible. In other words, Will the net income from the increased yields achieved by irrigation development exceed the additional ownership and operating costs of owning and operating the irrigation system over the expected life of the various system components.
After deciding to proceed with irrigation development, one is faced with many alternative design choices, including selection of which energy source to use for pumping the irrigation water, the type of distribution system, etc.
The IrrigateCost app models center pivot and gated pipe irrigation systems and the most commonly used energy sources on separate tabs making side to side comparisons between alternatives possible.
When computing a fair crop-share rental arrangement, one procedure is to list all the contributions that are required for crop production in a table (land, irrigation system, machinery, labor, crop inputs, etc.). Next to each input listed, the contribution each party is making is shown in adjacent columns; one for the landowner and one for the tenant. The columns are tallied and the percentage of the total cost that each party is contributing is calculated. The “fair” rental arrangement would be to divide the crop on the same percentage as the contributions that each party has made. Alternately, after the initial listing is done, changes are sometimes made in the percentage the two parties contribute toward certain inputs until contributions match a pre-determined crop share arrangement (e.g. 60/40 or 50/50).
The costs of owning and operating the irrigation system are some of the most difficult to identify when analyzing irrigated crop share arrangements. Much of the total cost of irrigation results from ownership costs and a large percentage of ownership costs are not annual out-of-pocket costs but rather are sunk costs, such as return on capital investment, depreciation, and taxes and insurance.
A complicating factor in some rental agreements results from who owns the various components. In some cases, the landowner may furnish the entire irrigation system; in other cases the landowner may furnish the well, pump and gear head; while the tenant may furnish the power unit and/or the distribution system. A need therefore exists for the analyst to easily estimate the ownership and operating costs for each major component in various irrigation systems so each party is credited with a fair estimate of the contribution he/she is making.
The data and formulas behind this app were developed by UNL Extension Educator Emeritus, Thomas W. Dorn, who most recently served in the University of Nebraska-Lincoln Extension Lancaster County Office. He initially developed this data for an Excel spreadsheet (IRRIGCOST)
Plutocalc models were carefully tuned to minimize the input requirements saving time for the users. Most of the equations are reversible so you can evaluate results for multiple variables.
- 77 equation models
- 2247+ different calculations
- Internal databases for chemicals and standards
- Results as you type
- Plant operation and design emphasis
- Multiple languages: English, Portuguese and Spanish
- Beautiful results export/print
- 100% offline,) connection required
- Free and Fast. Very fast!
- Advertise free
Currently supported calculation models:
- Density and concentration
- Flow - mass
- Flow - volumetric
- Flux and rates
- Cylinder volume
- Cone volume
- Cube volume
- Circle properties (radius, diameter, perimeter and area)
- Horizontal cylindrical tank volume
- Triangle properties with sides/angles determination
- Nominal pipe sizes and wall thickness
- Sieve sizes according
- Rainfall volume
Energy and power
- Head loss in pipes
- Open channels or partially filled pipes
- Orifice plates with incompressible fluids
- Parshall flumes flow measurement
- Pump power and energy consumption
- Blowers and compressors power and energy consumption
- Mixing velocity gradient
- Reynolds number and speed
- Periodic table of elements with oxidation states
- Ionic Balance, HCO3 and NH3 equilibrium
- TOC, COD and KMnO4 relations
- Langlier Saturation Index (LSI)
- Silt Density Index - SDI
- Sludge Volume Index - SVI
- Chemical dosing flow, mass and concentrations
- Chemical solutions density database
- Water properties (viscosity, density)
- Gases properties (density and molecular weight)
- Oxygen solubility in water
- Multiple streams blending
Adsorption and Ion Exchange
- Sorption/Exchange capacity
- Empty Bed Contact Time and BV/h
- Ion Exchange regeneration
Filters and membranes
- Cylindrical filter rate and speed
- Membranes flux
- Recovery for membranes in series
- Normalized permeability
- Granular media head loss (sand, resins, anthracite, carbon and custom)
- Granular media backwash expansion rate
- Disinfection with Chlorine, Chlorine Dioxide, Chloramines and Ozone
- Disinfection with Chlorine for Giardia Cysts
- Iron oxidation and precipitation
- Manganese oxidation and precipitation
- Sludge from chemicals
- Food-to-microorganisms ratio - F/M
- Ultimate BOD
- Surface loading rate - circular
- Surface loading rate - rectangular
- Hydraulic retention time - HRT
- Solids retention time - SRT
- Solids loading rate
- Volumetric solids loading rate
- Return activated sludge recycle - RAS
- Discrete sedimentation
- Sludge concentration and mass
- Sludge age
- Ordinary annuity
- Annuity due
- Compound annual growth rate - CAGR
- Interest rate conversions
- Simple interest
Please visit www.plutocalc.com for other versions of this app
NOTICE ABOUT PRIVACY:
This app is designed to save you time and help increase productivity in the field. Ewing’s app allows you to quickly locate your nearest Ewing branch, access handy landscape and irrigation calculators and conversion tables. Stay up-to-speed with the latest news and information from Ewing via Twitter and Facebook.
Want to find the nearest branch?
Simply enter your city, state or ZIP code into the branch locator and get driving directions to all Ewing branches within a 25 mile radius via GPS. Get in, get out and onto your next jobsite.
Need quick and easy calculations?
Access common formulas and conversions for drip irrigation, sprinkler systems, lighting and fertilizer applications. Use these calculators and conversion tables for quick results in the field. Share the results with a coworker or client by using the included text or email buttons.
Feeling out of the loop?
Stay informed with the latest news releases, blog posts and articles from Ewing. Connect with Ewing on Twitter and Facebook.
TOOLS & FEATURES
•Search by city, state or ZIP to find the nearest branch within a 25 mile radius
•Access driving directions via GPS (Google Maps)
•Add your preferred branch to your contacts instantly
•View store hours
•One Touch Call or email a branch
Formulas & Conversions
•Irrigation. Calculate precipitation rates and run times in drip irrigation and sprinkler systems.
•Lighting. Calculate voltage drop and access conversion formulas for volts, watts and amps.
•Turf. Use the fertilizer calculator to determine application rates.
•Conversions. Use the conversion tables for length, volume, weight, area and temperature.
•Area. Calculate the area of square or rectangle, circle, oval, irregular shape, triangle or trapezoid.
News & Resources
•Access the latest news releases, blog posts and articles from Ewing.
•Connect with Ewing on Twitter and Facebook.
•Links to Ewing’s Education Services and e-commerce websites.
Information contained in the technical tools section is based upon generally accepted formulas, computations and trade practices. Ewing Irrigation, its subsidiaries and affiliates, shall not be responsible or liable therefore if any problems, difficulties or injuries should arise from or in connection with the use or applications of this information, or if there is any error herein, typographical or otherwise.
The Hazen–Williams equation has the advantage that the coefficient C is not a function of the Reynolds number, but it has the disadvantage that it is only valid for water.
Input parameters are flow, pipe diameter, lenght of pipe and C is a roughness coefficient, known as William Hazens coefficient, with values between 90 (more rough pipes) and 140 (smooth pipes, ex PVC).
You can select between imperial (U.S. customary units) and metric unit (International System of Units).
If you want to take into account the pressure loss in fittings and valves, and the selection coefficient C for each material, then find our version of the application pro at https://play.google.com/store/apps/details?id=com.transparentblue.headlossplus
This user friendly app is designed to provide you fast and accurate converter tools for water treatment. Developed by Kurita Europe, this app is a “must have” resource for engineers and technicians.
Anywhere and anytime access to Kurita´s valuable resources.
We provide solutions that improve water quality, save energy and increase process efficiency for diverse industries around the world.
Water is the most diverse resource we know and it influences many different areas of life. However, it is a sensitive element and cannot be taken for granted.
We as Kurita use our expertise and decades of experience to take care of water. Wherever water is needed for industrial or public purposes, we provide tailor-made solutions, innovative processes, equipment and environmentally friendly products. Our know-how is applied in many sectors, including the steel industry, power generation, chemical & pharmaceutical industries, refineries & petrochemical industry, manufacturing industry, food & beverage industry and the institutional market.
As understanding also means being aware of local conditions and constraints. Kurita Europe is present all over Europe to provide you with customized solutions, training, consulting and services:
• Constant research & development in our laboratories.
• Initial support during the start-up until stable operating conditions are obtained.
• Follow-up with regular on-site analysis, monitoring of the treatment including on-line techniques, remote control systems, and reporting.
• Engineering & Equipment needed to implement our treatment programs to complete your customized water treatment.
• Information concerning legislation and environmental issues: e.g. REACH regulations and constraints, environmental risk assessment, ecological and toxicological evaluations.
• Customer Training on-site or in one of our local sites.
We support you to increase the efficiency of your systems, to reduce maintenance operations and to save water, which means: to reduce costs.
LandsWater makes their watering programs are smart and adapt to the real needs of the plants, is available for Android. Calculate the amount of water, the number of irrigations and duration, depending on the climate in your plot and its plants. Prepares annual irrigation schedule, and sent to the irrigation controller.
Why use LandsWater?
★ GREAT SAVINGS: The irrigation water deficit, the rising cost of m3, rising electricity rates, episodes of drought and climate change, makes LandsWater help you save water and perform efficient irrigations using climate data updated every day.
★ COVERAGE: currently provides coverage to 216 Nations by 40,000 weather stations, reference evapotranspiration calculated by FAO Penman-Monteith method.
★ INNOVATION: Use the results of research projects, based on experience in research in irrigation, is an evolution of the document Wucols (University of California Cooperative Extension, California Departement of Water Resources), by Francisco Catalan, Agronomist, University of Valencia.
★ GLOBAL: Use the location of his mobile phone to use data from the nearest stations and the coefficients of the zone, depending on the plants, stress, microclimate, planting density and soil evaporation in any part of the world.
★ SMART: See details of the nearest stations that have validated data, if a station fails, another nearby will provide the data. Send the Annual Plan for Zones to the irrigation.
★ ECOLOGICAL: You can get savings of 40% water, adapting to the real needs of the plants. Notifies the diversion of Annual Plan needs regarding scheduled. Your plants will be splendid and comply with local restrictions. Repaid prior to its investment in the irrigation system.
★ CUSTOMIZABLE: Can be modified to your specific case, its climate data, greenhouses, mesh, moisture probes, also adapted for the prevention and treatment plant. Multizone program, urban gardens, vertical gardens. Ask us.
The FAO Penman-Monteith ETo estimate can be derived from the original equation of Penman-Monteith and aerodynamic and surface drag equations.
The goal of universal use of ETo using the FAO method Pennman-Monteith, although missing climate data.
For the complete calculation of ETo needed temperature, relative humidity, wind and radiation sensors.
However this app is capable calculate the ETo only with the temperature data, assuming the dew point temperature such as the minimum temperature, wind speed of 1.5 m/s and solar radiation clear day.
The location is carried through a location sensor or clicking a map.
Groups the results, ETo, Precipitation and Events Rain of the last seven days to be used in IrrglApp nad LandsWater
Calculate the percentage of ETo due to radiation.
Supports English, Spanish, French, Italian and Portuguese.
Supports Metric and English Units (US).
Imports data from weather stations near the place elected.