Institut für Agrartechnologie und Biosystemtechnik Possibilities of using the drip irrigation laterals on centre pivot irrigation machines Jano Anter,

Slides:

Advertisements

Similar presentations

Management of water scarcity through micro irrigation

Advertisements

Rick Schlegel Agricultural Engineer USDA - NRCS OKLAHOMA

On-farm Water Management: from efficiency to productivity Theib Oweis Director of Integrated Water & Land Management Program International Center of Agricultural.

ADVANTAGES Water savings Crop response Labour savings Fertilizer savings Less weed growth Drip Irrigation System Layout & Design.

IRRIGATION Rick Schlegel Agricultural Engineer USDA - NRCS OKLAHOMA.

Micro – Drip irrigation Water applies at a low rate over a longer time and more frequent intervals Water is applied at or near the root zone Emitters discharge.

MONGOLIA: Cost Benefit Analysis (CBA) Project selection Team members present at the training: Ms.Tsendsuren Batsuuri, Ministry of Environment and Green.

WASAMED Second International Workshop Thematic Network ¨ IRRIGATION SYSTEMS PERFORMANCE ¨ Tunisia, June 2004 I. Papadopoulos, C. Metochis and.

Irrigation Systems.

Slow watering of crops and plants

Introduction to Surface Irrigation

The Making of a Green Shirt

Emitter Selection.

Valín Sanjiao M.I.; Santos Pereira L.

HYDRAULICS_4 Design of Irrigation Systems by László Ormos.

Installing & Maintaining Irrigation Systems Ms. Gripshover Landscaping Unit 15.

FARMING TECHNIQUES IN KENYA Done by Pujika Upadhyay Class IX I Roll no. 13.

Center Pivot Lateral Move Solid set Planning and Management Considerations Dale Heermann ARS Retired Engineer.

Recent study indicates an available supply of water of little more than 1,000 m³ per person, which puts Pakistan in the category of a high stress country.

Methods of Applying Fertilizer Chapter 7. What to consider when selecting an application method. Rooting characteristic of the crop to be planted. Crop.

Stacia Davis, M.E. E.I.T. Agricultural & Biological Engineering Institute of Food and Agricultural Sciences (IFAS)‏ Landscape Fundamentals IST Wimauma,

Micro Design. System Capacity D = gross application for what ever time period ( hrs, day or days) T= hours in time period used to decide “D” (max.

HYDRAULICS_5 Design of Irrigation Systems by László Ormos.

Chemigation Center Pivot Irrigation Robert Stadnicki.

Tradeoffs in land and water productivity of rice with establishment method and irrigation schedule Sudhir Yadav and Liz Humphreys.

Drip Irrigation For Mid-America

NOMIRACLE, ISPRA 8-9 June Emission estimates for pesticides due to agricultural praxis Steen Gyldenkærne and Peter B. Sørensen National Environmental.

Irrigation. Irrigation Requirements   Know how much your plants need.   Know how much water each part of your watering system applies.   Match your.

 The most common definitions are the ratio of yield (Y) to applied water (AW) or the ratio of evapotranspiration (ET) to AW.

1 Institute of Mechatronics and Information Systems Control and Driving Systems.

Figure 1: Map of Eritrea (Map by Andreas Heinimann, CDE)

Opportunities to Save Water Colorado Water Workshop – through Efficient Design, Appropriate Technology, and Effective Management.

Precision Irrigation and Fertigation

4 th International Conference on Agriculture and Horticulture Measured Irrigation Improving the water-efficiency of irrigation by changing the irrigation.

O BJECTIVE O F S OIL A ND W ATER C ONSERVATION C ONSERVATION The preservation and careful management of the environment and of natural resources.

Country CBA Project :Sri Lanka A study to economically evaluate possible adaptation measures for climate vulnerabilities in paddy and Other Field Crops.

Irrigation and water conservation techniques

 Basin irrigation is still used today. It consists of a field enclosed by a raised bank called a dike. The water is allowed to flood the field and the.

CHAPTER (7) TRICKLE IRRIGATION.

Ministry of the Environment and Conservation, Agriculture and Consumer Protection of the State of North Rhine-Westphalia Integrating Adaptation into Policy.

Water Productivity A Road to Sustainable Agriculture Dr. Saeed Nairizi President, ICID Jan

1- When the land topography is irregular, and hence unsuitable for surface irrigation. 2- When the land gradient is steeper. 3- When the soil is highly.

PRECISION IRRIGATION BY: CHARLES SLOUGH SOIL 4213.

1 IRRIGATION EFFICIENCY MODIFICATIONS MERLIN N. NELSON NRCS.

Green roofs - future of urban life Jure Šumi

Energy Efficient Pumpsets – Boon to Irrigation in India Dr A K Jain Professor(Soil and Water Engineering) Punjab Agricultural University Ludhiana.

Energy & water saving in vineyards How can vineyards in our region to save water and energy? Letizia M. Class IV A IIS G.Garibaldi - Macerata.

NextEnd IRRIGATION SCHEDULING AND TECHNIQUES IN POTATO.

Irrigation Efficiency or IE Water applied is never 100% beneficially used. There is always some loss Evaporation from soil and leaf surface Evaporation.

CONTENTS 1. INTRODUCTION 2. PRINCIPLE OF OPERATION 3. STRUCTURAL DIFFERENCE 4. TYPES 5. ADVANTAGES AND DISADVANTAGES 6. APPLICATION.

Introduction to Overhead/Sprinkler Irrigation Design

351.T1 Model Agricultural Core Curriculum: Supplement University of California, Davis Irrigation Systems Water Requirements are Effected by: The crop being.

Background of Study Previous Study without APLTV At 0% slope: Highest CU = 71% Highest DU = 53.5 % Much lower DU and CU under sloping conditions Recommmended.

Plant protection machinery Agricultural Machinery.

IRRIGATION SCHEDULING AND TECHNIQUES IN POTATO NextEnd.

Irrigation Systems. Purpose of irrigation To supplement natural rainfall. To increase the amount of water available for plants to absorb for photosynthesis.

Irrigation Systems and Components. Overview Types Layout Components Hydraulics Design Considerations.

EMBEDDED SYSTEM BASED DRIP IRRIGATION. EMBEDDED SYSTEM :  A Computer system designed for specific control functions within a larger system  Including.

Advantages INNOWAY Turf products:

Deptt. of Irrigation and Drainage Engineering, Dr. PDKV, Akola

XBee Based Motor Control for Farmers

Water Wise Irrigation Basics

Irrigation & Agriculture

Definition Irrigation is the application of controlled amounts of water to plants at needed intervals. Irrigation helps to grow agricultural crops, maintain.

All About Irrigation. Definition Irrigation is the application of controlled amounts of water to plants at needed intervals. Irrigation helps to grow.

الرى بالتنقيط Drip Irrigation.

Managing the Crop.

Introduction to Overhead/Sprinkler Irrigation Design

Irrigation Intro Video (Action Movie) (very exciting)

Methods of Irrigation Dr. Sailesh Prajapati.

Presentation transcript:

Institut für Agrartechnologie und Biosystemtechnik Possibilities of using the drip irrigation laterals on centre pivot irrigation machines Jano Anter, Dr. Heinz Sourell, Hans-Heinrich Thörmann, Federal Research Institute for Rural Areas, Forestry and Fisheries, Germany Institute of Agricultural Technology and Biosystems Engineering 27 June 2012, Adelaide German National Committee of ICID (GECID)

2 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell

3 Contents Irrigation in Germany Advantages & disadvantages of drip irrigation and center pivot Steps to mobile drip irrigation Technical aspects Costs analysis Summary

4 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Irrigation in Germany 3% of the agricultural land are irrigated in Germany Humid climate, dry periods, sandy soils Cultures worth of irrigation: i.e. Potatos, Sugar beets Use of modern irrigation techniques The techniques are developed in terms of claims by farmers: - Water distrubtion - Intensity of labour - Water-efficient - Energy consumption

5 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Water distribution-systems

6 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Advantages & disadvantages of drip irrigation +  High water use efficiency  Low water losses  Low energy requirements  Possibility of chemigation -  High total costs  High labour requirements for the assembly and disassembly

7 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Advantages & disadvantages of center pivot with sprinkler +  Full-Automatic machine management  Low labour requirements  Moderate capital requirement  Simple to use -  Water losses  Wind drift  High energy requirements

8 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Operating costs Center Pivot Drip Irrigation

9 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Steps to mobile drip irrigation Drip irrigation Center pivot Mobile Drip Irrigation

10 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Installation of mobile drip irrigation by centre pivot

11 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Field experiments  The Center pivot consisting 9 towers  The total lenght of this pivot machine was approximately 428 m  The total irrigated area of about 57 ha  Drip tubes distance: 0.75 m  In the field investigations, two operating pressures were used at the inlet of the drip tubes (50 kPa and 100 kPa)

12 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Emitters Mobile drip irrigation needs emitters that have: High discharge (8 l/h & 10 l/h) Low distance between them (0.15 m) To reduce the lenght of drip tubes and the numbers of emitters High emission uniformity (over 95 %) Low coefficient of variation (lower than 5 %) To enhance irrigation water distrubtion on the soil surface

13 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Length of drip tubes at two pressures -The lenght of the drip tubes is dependent upon the emitter discharge and the distance from the pivot point -The lenght of the drip tubes increases as the distance from the pivot point grows -For the stability of the centre pivot irrigator, additional friction force is important -The friction force at 50 kPa were higher than the friction force at 100 kPa (2470 N & 1743 N at the ninth tower) -This force is suitable for the electric motors which are mounted on each tower.

14 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Length of drip tubes at two pressures

15 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Costs analysis (Capital requirement)

16 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Costs analysis (Operating costs)

17 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Summary High water efficiency / Water saving up to 20% Energy conservation up to 40% The total costs of MDI were close to the total costs of a CP For the same area we need only 1,6 % respectively of the tubes that would needed for a SDI Filtering of the water can become important Further experiments with other plants is necessary

18 Jano Anter, Hans-Heinrich Thörmann, Dr. Heinz Sourell Many thanks for your attention!