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Full-Text Articles in Engineering
Water Conservation's Role In California Water Transfers, Charles M. Burt
Water Conservation's Role In California Water Transfers, Charles M. Burt
BioResource and Agricultural Engineering
This paper describes various irrigation district water transfer projects. Water transfers have been of many types, including agriculture to agriculture, agriculture to urban, and agriculture to environment. In each case that will be described, the unique circumstances of each district will be described. Typical actions include developing a water balance to determine if “wet water” truly exists for conservation, then identifying the sources of that wet water. Subsequent actions include developing designs that will conserve the water, achieving board approval, and constructing and implementing the conservation measures.
Increasing Productivity In Irrigated Agriculture: Agronomic Constraints And Hydrological Realities, Chris Perry, Pasquale Steduto, Richard C. Allen, Charles M. Burt
Increasing Productivity In Irrigated Agriculture: Agronomic Constraints And Hydrological Realities, Chris Perry, Pasquale Steduto, Richard C. Allen, Charles M. Burt
BioResource and Agricultural Engineering
Irrigation is widely criticised as a profligate and wasteful user of water, especially in watershort areas. Improvements to irrigation management are proposed as a way of increasing agricultural production and reducing the demand for water. The terminology for this debate is often flawed, failing to clarify the actual disposition of water used in irrigation into evaporation, transpiration, and return flows that may, depending on local conditions, be recoverable. Once the various flows are properly identified, the existing literature suggests that the scope for saving consumptive use of water through advanced irrigation technologies is often limited. Further, the interactions between evaporation …
Variability Within Irrigated Fields, Charles M. Burt, Byron Clark
Variability Within Irrigated Fields, Charles M. Burt, Byron Clark
BioResource and Agricultural Engineering
In agricultural production and research, it is common to represent fields as uniform areas. For example, fertilizers, soil amendments, and other inputs have traditionally been applied uniformly (or as uniformly as possible) based on estimated needs for the field as a whole (or as an “average”).
Of course, it is also recognized that fields are not truly uniform with respect to soil characteristics, uniformity of applied water, pest pressures, fertility needs, crop growth and yield, and other characteristics. With the emergence and refinement of variable rate application technology, many growers now attempt to maximize returns by “prescribing” variable amounts of …
Evaluation Of Magnetic Meters For Irrigation Pipeline Measurement, Stuart Styles, Bryan Busch
Evaluation Of Magnetic Meters For Irrigation Pipeline Measurement, Stuart Styles, Bryan Busch
BioResource and Agricultural Engineering
Magnetic flow meters are used to measure the flow rate of a liquid in a closed pipeline. This type of meter is becoming increasingly popular for measurement with agriculture applications. Electromagnetic meters were tested by the Irrigation Training and Research Center in pipelines located less than the 10 diameters upstream of disturbances with good results. Results show that location guidelines for placing a magnetic meter can be decreased even for turbulent conditions. This paper will discuss how a magnetic flow meter works, advantages and disadvantages of this type of meter, test results, and new guidelines for field applications.