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irrigazione:irrigation_design_software

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Irrigation Design Software

In this page it will be dealt with irrigation design software and other tools to design irrigation systems. Nowadays engineers involved in the design of irrigation systems make use of tools such as abacuses, graphs, tables provided by manufacturers of materials for irrigation in their catalogs. Are also developed spreadsheets and several companies offer software to design irrigation systems, but these are based on approximate algorithms. Typically, these software are created for small projects of irrigation systems for public parks and gardening, and make use of simplifying assumptions valid only for small plants for irrigation. Therefore, these instruments, and also the irrigation software proposed by third parties, are inadequate for professional use and for the design of irrigation systems of large dimensions. In summary, the design of irrigation systems is now based on:

Empirical methods, slow and laborious, which consist in testing, directly in the field, the material to be adopted in the irrigation system; Abacuses/graphs or tables provided by manufacturers of materials for irrigation in their catalogs; Tedious mathematical procedures that consider only standard and unrealistic through the use of simple or sophisticated spreadsheets; Irrigation design software, based on approximate algorithms, usually born for small projects of public green and gardening, which are supported by simplifying assumptions valid for small irrigation systems but less suitable for professional use and for the design of large sizes irrigation systems. These software, based on inaccurate calculation criteria, are more dedicated to the CAD drawing of irrigation systems, rather than a professional complete project equipped with a reliable hydraulic calculation.

There are other methods that combine the classical equations of hydraulics, but do not consider the characteristics of hydraulic functioning of the emitter resulting in inaccurate or too expensive in terms of IT resources and difficult to implement in software for irrigation.

Irrigation system design: use of abacuses, graphs and tables.

The design of an irrigation system can be performed with the use of abacuses, graphs and tables, prepared directly by the firms producing material for irrigation, and which show, for the type of product which is considered (conducted and dispensers), the maximum allowable planimetric development under certain conditions of pressure, flow and slope. For example, for a laterals these catalogs show the maximum allowable development in length when using a certain diameter of the pipe and a certain emitter. They did not cover the different slopes (which are assumed horizontal or sub-horizontal), nor the interaction with the other parts that compose the irrigation system (which may have 5 as 200 lateralss). Furthermore, the results reported are valid only for a well-determined supply pressure. These assumptions entail negative consequences, both on the uniformity of distribution of the flow rates provided and on the efficiency of the irrigation system itself, produced by a functioning, during operation, of the irrigation system different from that expected in the design stage. Of course, you can take advantage of these sizing tools, only with reference to irrigation equipment manufactured by the same company. It then determines a situation of uncertainty for the professional who, in the design of an irrigation system, in making a comparison of the solutions proposed by different companies can not disentangle among various methods of sizing.

Irrigation system design: use of spreadsheets.

When using spreadsheets, the design of irrigation systems is performed or through simplified methods (and therefore approximate) or through stringent ones that are, in this case, very expensive in terms of human resources, time and applicable only on small to very small scale of irrigation systems. In fact, if one wanted to take account of all the mutual interactions between the various parts of the irrigation system would be necessary to construct the calculation tables too complex to implement and not manageable. These procedures also have never been automated, so the spreadsheet must be set each time you design a new irrigation system. For example, if you wanted to design a small irrigation system, designed to serve an area of one hectare extension where you plan to insert 10,000 emitters, the rigorous calculation with spreadsheet requires the writing of 30,000 equations, which would make this a difficult task even for the most scrupulous designer.

Irrigation system design: the irrigation software.

Landscape design software is used by Landscape architects, landscape designers and garden designers to create planting, softworks, groundworks and hardworks (see definitions below) plans before constructing a landscape.

There are two levels of software available, amateur and professional. The former is usually aimed at simple visualisation of a garden design whilst the latter provides tools that allow stylistic representations of a design to be accurately labelled and dimensioned for contractors to interpret and land authorities or local government to sight and approve or otherwise. Since the advent of the personal computer, several software packages have come into existence the main professional software being CS Design Software's CS Artisan, Idea Spectrum's Realtime Landscaping Architect, LANDWorksCAD, LandCADD, Landmark, PRO Landscape, Structure Studio's VizTerra, VisionScape's VirtualProperty Architect, and Visual Impact's Earthscapes.

Professional landscape design software requires detailed information to be output for contract documentation, which will usually constitute drawings, specifications and reports (schedules/bills of quantity). The more sophisticated landscape design software solutions automate the process of generating reports (schedules/bills of quantity) from intelligent data in the drawing; such intelligence is usually contained within labels (annotations) which include, in the case of planting, automatic calculation routines to determine the number of individual plants based on plant spacings (centres) per area or length. When labelled areas or lengths are modified (stretched or shrunk), associated labels are recalculated at the same time as reports (schedules/bills of quantity) contained in or associated with the same drawing.

Below is a list of some features provided by such software:

- Video Tutorials - Digital Photo Import - 3-D View creation - Plant Encyclopaedia - Plant Selector - Growth Zones & Hardiness Maps - Images of Plants and Objects - Print Shopping Lists - Print Design - Visualize Plant Growth - Outdoor Lighting - Irrigation Design - Outdoor Furniture - Reports/Schedules/Bills of Quantity - Labels/Annotation - Photorealistic Design Presentations - Generating Quotes, Invoices, Reports, Plant Information

The most advanced software for irrigation on the market today are not very accessible to the general public, constituted by the majority of technicians who deal with the design of irrigation systems. Most of the time these are excessively expensive, with an interface very complicated and difficult to use. They typically have a laborious input handling, and provide impractical results in real installation management of the irrigation system. The majority of irrigation software study the approximate solution: considering only the equations of continuity and motion and not the third equation that characterizes the operation of the emitters. Moreover, these applications calculate only the continuous head losses (due to friction of the fluid against the walls of the pipes and which determine variations of pressure along the various constituent parts of the plant) and do not consider the localized head losses (which strongly affect the pressure variations along the laterals) determined by the presence of numerous emitters that cause continuous enlargements and constrictions of the passage section of the water.

Another component which is neglected is the kinetic energy possessed by the fluid in motion, which entails, especially when the flow rates conveyed in the pipes are high, the simplifications which further increase the level of approximation of the results. Still in the case of these software for irrigation the calculation is made by isolating the branch of pipe that we want to calculate from the rest of the irrigation network (which is not counted in its entirety), and then neglecting inopportunely the mutual interactions between the various parts of the irrigation network. The adoption of a series of simplifying assumptions determine substantive differences between the magnitudes (in terms of pressure and flow) calculated in the design stage and those obtained in the field during the functioning of the plant, resulting in obvious repercussions on the uniformity of the flow delivered and then the qualitative and quantitative yield of agricultural crops. The design software for irrigation systems currently on the market only allow the calculation of irrigation networks with a very limited number of nodes. In many applications, the convergence criteria used are based on the minimum cost and this does not ensure the uniformity of distribution of water. They use the equation of motion by imposing speed and do not consider the characteristic equation (which shows the characteristics of the used emitter). The criterion of the speed used often is based on the hypothesis not true that the speed remains constant throughout the development of the laterals and in all the pipes of the irrigation system, while in reality it is greatly variable along the direction in which moves the water, from a maximum value of a few meters per second to zero. The results of this approach are then approximated. Ultimately all these instruments involve various problems and limitations:

The risk of incorrect results; Higher costs and waste: we often tend to oversize for safety reasons, parts of a plant and the use of water resources is not efficient; Agricultural production limited by the unoptimized irrigation factor; Legal arguments, often occurring between the farm where it is installed the irrigation system and the professional or the company that operates the installation.

Irrigation system design: IrriPro Irrigation Software.

The software for the design of irrigation systems IrriPro thanks to its “heart of calculation” that makes use of the fundamental equations of hydraulics, is able to analyze the irrigation networks with a new and rigorous method. The formulation of the classical equations of hydraulics used in the algorithm excludes forms of empiricism and simplifying assumptions that depart from the expected final result. The software, in fact uses a calculation algorithm that solves the equations that govern the motion of the currents in pressure (equations of continuity and equation of motion) starting from the boundary hydraulic and geometric conditions, from the plano and altimetric distribution of the irrigation network, as well as hydraulic and geometric characteristics of the pipes and installed emitters.

IrriPro also allows, even in the case of plants for microirrigation, to evaluate the head losses of the continuous type along the pipe, and of the localized type caused by emitters installed along the laterals. Such losses are usually neglected by the designers during the dimensioning phase of the hydraulic installations, even if it is now universally recognized by the scientific community that these may represent a high percentage (between 30% and 50%) of the total head losses and therefore must be taken into account in a correct and rigorous hydraulic calculation, as recognized by the international scientific and technical community. Finally, it is also considered the kinetic load. IrriPro is a design software for irrigation systems capable of calculate all the hydraulic parameters (flow, velocity, pressure, head loss continuous and localized, uniformity of distribution) at any point of the irrigation network, representing the trend of each physical parameter, and design all types of irrigation (sprinkler irrigation networks or microirrigation) of any complexity and size in an easy, powerful and innovative way. The software has a wizard for data entry, simple and intuitive that accompanies effectively the technician through the functionality of the program, from the survey up to the calculation, to the presentation of the results so as to cover all stages of design. The user-friendly environment, which makes it affordable for everyone, allows quick use, with reduced training time, and achievement of accurate results through fast and simple procedures. Through the use of IrriPro the professional has therefore the possibility of:

realizing an irrigation network on any terrain; ensuring the efficiency of the plants; making save water and fertilizers; improving the quality and quantity of production and therefore profitability of the farm; making save approximately 5-10% on the cost of installation of the system.

The designer is supported in the search for changes to be made to improve the design, as it features tools for analysis and diagnostics needed to assess the consequences of each design choice.

irrigazione/irrigation_design_software.1466766748.txt.gz · Ultima modifica: d/m/Y H:i da psavona