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Irrigation system designer how to#
Irrigation system designer install#
Irrigation system designer full#

Irrigation system designer full#

in Port Monmouth, NJ, a full service irrigation firm that has been serving the northeast for over 40 years and specializes in water efficient landscape irrigation systems that promote healthy and vibrant landscapes while conserving water and reducing water costs. Featured Topicsīy attending this course, you will have the opportunity to learn the ins and outs of irrigation from a true expert! Bob Dobson is President of Middletown Sprinkler Co. Please note: This course will help you with, but is not designed to prepare you for, the New Jersey Irrigation Certification Exam. Homework assignments in between class sessions will help to reinforce and further illustrate the concepts that are covered in class. You’ll also receive invaluable information about bidding, pricing, and calculating overhead costs from a successful and experienced irrigation contractor.

Irrigation system designer how to#

Through a combination of classroom instruction, visual examples, hands-on exercises, and demonstrations of state-of-the-art troubleshooting technology, you will learn how to lay out an entire irrigation system on your own from beginning to end. Once the free-standing span is located, calculate the position of the centerline of the ditch approximately 12 feet outside of the flenge on the l inear cart.Ĭonsider potential for moving system beyond field boundary for convenience during cultivation and harvest operation.Learn irrigation from a true expert! Bob Dobson, Certified Irrigation Contractor and former president of the Irrigation Association (national) as well as a member of the NJ State Licensing Board, will explain the steps involved in designing and installing an irrigation system from the ground up in this 4-day irrigation system training course. Remember to add 1.7 feet for transition pipe. At the approximate center of the system, locate the free-standing span, considering GPM requirements, pipe sizing, available span lengths, etc. The shortest dimension, if any difference will be used to determine the maximum system length, less 6 feet on each side for clearance. Center feed and new ditch (right picture) Also remember that the free-standing span (with boss unit) in the center of the field must be positioned approximately 12 feet away from the center line of the ditch, using the span flange as the calculation point. Also deduct 6 feet from each end for clearance. Remember to add 1.7 feet for the transition pipe. The shortest dimension “E” or “G” added to the shortest of “F” or “H” will be used to determine our irrigation system design length.

Irrigation system designer install#

The shortest dimension, less 6 feet clearance, less 12 feet inlet, less 4 feet ditch (centerline) is the longest system that we can install (considering span lengths).Ĭenter feed and existing ditch (left picture) The shortest dimension, less 12 feet for inlet length, for dirt ditch, and 7 feet for concrete ditch, less 6 feet for end tower or overhang clearance is the longest linear irrigation system we can install (assuming that span lengths can be arranged to fit). Definition of dimensional terms End feed and existing ditch (left picture)

Also there are two possibilities concerning the ditch: it may be an existing ditch or we may have to locate and construct a new ditch. This, of course, determines whether we have and end feed or center feed system. The initial field/system design for the l inear System begins with the determination of field dimensions and the location of a ditch, either at the edge of a field or through the approximate center of the field. There are many variables to be considered, and specific recommendations are sometimes difficult to determine, but the well-informed system designer should be able to combine the information in this design guide with his own knowledge and information from other sources to arrive at a well-designed irrigation tool for the farmer. This guide does not attempt to cover the basic linear irrigation system design considerations such as water quality, crop consumptive use requirements, water management, climate, etc it is assumed the irrigation designer will have already investigated these factors, and is now faced with having to consider how a linear irrigation system might be applied to a specific situation.

The purpose of this design guide is to acquaint the irrigation designer with some of the unique considerations involved in designing linear irrigation system installations.