General Irrigation Terminologies PDF

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This document is a Philippine National Standard on General Irrigation Terminologies. The document defines key terms, providing a comprehensive glossary for those involved in irrigation planning and design. It also includes information referenced for irrigation construction and operation activities.

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PHILIPPINE NATIONAL STANDARD PNS/BAFS/PAES 216:2017 ICS 65.060.35 General Irrigation Terminologies BUREAU OF AGRICULTURE AND FISHERIES ST...

PHILIPPINE NATIONAL STANDARD PNS/BAFS/PAES 216:2017 ICS 65.060.35 General Irrigation Terminologies BUREAU OF AGRICULTURE AND FISHERIES STANDARDS BPI Compound Visayas Avenue, Diliman, Quezon City 1101 Philippines Phone (632) 920-6131; (632) 455-2856; (632) 467-9039; Telefax (632) 455-2858 E-mail: [email protected] DEPARTMENT OF Website: www.bafps.da.gov.ph AGRICULTURE PHILIPPINES PHILIPPINE NATIONAL STANDARD PNS/BAFS/PAES 216:2017 General Irrigation Terminologies Foreword The formulation of this national standard was initiated by the Agricultural Machinery Testing and Evaluation Center (AMTEC) under the project entitled “Enhancement of Nutrient and Water Use Efficiency Through Standardization of Engineering Support Systems for Precision Farming” funded by the Philippine Council for Agriculture, Aquaculture and Forestry and Natural Resources Research and Development - Department of Science and Technology (PCAARRD - DOST). As provided by the Republic Act 10601 also known as the Agricultural and Fisheries Mechanization Law (AFMech Law of 2013), the Bureau of Agriculture and Fisheries Standards (BAFS) is mandated to develop standard specifications and test procedures for agricultural and fisheries machinery and equipment. Consistent with its standards development process, BAFS has endorsed this standard for the approval of the DA Secretary through the Bureau of Agricultural and Fisheries Engineering (BAFE) and to the Bureau of Philippine Standards (BPS) for appropriate numbering and inclusion to the Philippine National Standard (PNS) repository. This standard has been technically prepared in accordance with BPS Directives Part 3:2003 – Rules for the Structure and Drafting of International Standards. The word “shall” is used to indicate mandatory requirements to conform to the standard. The word “should” is used to indicate that among several possibilities one is recommended as particularly suitable without mentioning or excluding others. PHILIPPINE NATIONAL STANDARD PNS/BAFS/PAES 216:2017 General Irrigation Terminologies 1 Scope This standard defines terms used in the general classification, planning, design, construction and operations involved in irrigation. 2 Definition 2.1 access areas areas open for public entry such as golf courses, public and private parks, playgrounds, schoolyards and playing fields, residential landscapes and industrial park landscapes 2.2 active storage volume of water stored in reservoir between the minimum water level and normal water level 2.3 actual crop evapotranspiration rate of evapotranspiration equal to or smaller than predicted crop evapotranspiration as affected by the level of available soil water, salinity, field size or other causes 2.4 afflux elevation rise in maximum flood level from the original unobstructed flood level which result after an obstruction to the flow such as a dam, has been introduced 2.5 algal bloom overgrowths of algae in water producing dangerous toxins in fresh or marine water 2.6 application efficiency ratio of the average depth of irrigation water infiltrated and stored in the root zone to the average depth of irrigation water applied 2.7 aquifer geologic formation which contains water and transmits it at a rate sufficient to be economically developed for pumping artificially developed well 1 2.8 area cross-sectional area of the flow which is measured perpendicular to the direction of flow 2.9 basin field that is level in all directions, encompassed by a dike to prevent runoff, and provides an undirected flow of water onto the field 2.10 basin irrigation type of surface irrigation where water is applied to the basin through a gap in the perimeter dike or adjacent ditch; water is retained until it infiltrates into the soil or the excess is drained off 2.11 bearing capacity maximum average contact pressure between the foundation and the soil which should not produce shear failure in the soil 2.12 border irrigation method of irrigation which makes use of parallel border strips where the water flows down the slope at a nearly uniform depth 2.13 border strip area of land bounded by two border ridges or dikes that guide the irrigation stream from the inlet point of application to the ends of the strip 2.14 channel bed slope inclination or elevation drop per unit length of the channel bottom 2.15 confined aquifer groundwater that is confined by relatively impermeable layer 2.16 contamination introduction of substances not found in the natural composition of water that make the water less desirable or unfit for intended use 2.17 conveyance efficiency ratio between water received at the inlet for a block of fields to that released at the project’s headwork 2 2.18 conveyance loss loss of water from a channel during transport due to seepage and percolation 2.19 critical depth depth of water flow where the energy content is at minimum hence, no other backwater forces are involved 2.20 crop coefficient ratio of the actual crop evapotranspiration to its potential evapotranspiration 2.21 crop evapotranspiration rate of evapotranspiration of a disease-free crop growing in a large field (one or more ha) under optimal soil conditions, including sufficient water and fertilizer and achieving full production potential of that crop under the given growing environment; includes water loss through transpiration by the vegetation, and vaporation from the soil surface and wet leaves 2.22 cropping pattern sequence of different crops grown in regular order on any particular field or fields 2.23 crop water requirements amount of water used in producing crops which is the sum of evapotranspiration or consumptive use plus seepage and percolation losses 2.24 dam any barrier constructed to store water 2.25 dam height vertical distance from lowest point of the ground line to the dam crest 2.26 dead storage volume below the intake structure; sediment volume based on 25 years of accumulation in the reservoir 2.27 depth depth of water in the channel cross-section 3 2.28 designed height actual height of the embankment after settlement 2.29 design irrigable area maximum area which an irrigation project can serve considering the extent of arable lands and the available water supply 2.30 distribution uniformity numerical value on the uniformity of application for agricultural irrigation systems 2.31 diversion dam structure or weir provided across the river or creek to raise its water level and divert the water into the main canal to facilitate irrigation by gravity 2.32 diversion water requirement the total quantity of water diverted from a stream, lake, or reservoir, or removed from the ground in order to irrigate a crop 2.33 drip irrigation trickle irrigation involves dripping water onto the soil at very low rates (2-20 litres/hour) from the emitters where water is applied close to plants so that only part of the soil in which the roots grow is wetted 2.34 drop in-line canal structure designed to convey canal water from a higher level to a lower level, duly dissipating the excess energy resulting from the drop in elevation 2.35 effective rainfall amount of rainwater that falls directly on the field and is used by the crop for growth and development excluding deep percolation, surface runoff and interception 2.36 effective rooting depth soil depth from which the bulk of the roots of the crop extracts most of the water needed for evapotranspiration 4 2.37 effective size particle diameter corresponding to a 10% sieve passing 2.38 effluent discharges from known sources which is passed into a body of water or land, or wastewater flowing out of a manufacturing plant, industrial plant including domestic, commercial and recreational facilities 2.39 effluent standard any legal restriction or limitation on quantities, rates, and/or concentrations or any combination thereof, of physical, chemical or biological parameters of effluent which a person or point source is allowed to delivery into a body of water or land 2.40 elevated flume water conveying conduit or trough which is supported on abutments by piers 2.41 emitter spacing spacing between emitters or emission points along a lateral line 2.42 emitters applicator used in drip, subsurface, or bubbler irrigation designed to disspate pressure and to discharge a small uniform flow or trickle of water at a constant rate that does not vary significantly because of minor differences in pressure 2.43 energy grade line specific energy line grade line of the water surface profile plus the velocity head in open channels 2.44 equipment crossing provision for passing of equipment and small machinery 2.45 evapotranspiration combination of water transpired from vegetation and evaporated from the soil, water, and plant surfaces. 2.46 farm ditch channel which conveys irrigation water from the turnout to the paddy field 5 2.47 filter drain dam component which prevents migration of small particles and screen off fine materials that flow with seepage water and prevent piping 2.48 finished height height of the embankment to be attained during construction 2.49 farm water requirement amount of water to replenish the crop water requirement and losses less the effective rainfall 2.50 freeboard additional height of the dam provided as a safety factor to prevent overtopping by wave action or other causes 2.51 furrows small parallel channels, made to carry water in order to irrigate the crop 2.52 furrow irrigation method of irrigation where water runs through small parallel channels as it moves down the slope of the field 2.53 head ditch supply ditch small channel along one part of a field that is used for distributing water in surface irrigation 2.54 homogeneous embankment dam composed of a single kind of embankment material exclusive for slope protection 2.55 hydraulic depth ratio of flow area to the wetted top width 2.56 hydraulic grade line hydraulic gradient profile of the free water surface 6 2.57 hydraulic jump occurs when a thin sheet of incoming flow moving at high velocity strikes water of sufficient depth 2.58 hydraulic radius cross-sectional area of flow divided by the wetted perimeter 2.59 hydrologic frequency analysis estimation of the chance or likelihood of occurrence of a given event by determining the frequency curves of best fit to samples of hydrologic data 2.60 inside slope slope of the upstream face of the embankment 2.61 invert inside bottom or sill of t the conduit 2.62 inverted siphon closed conduit designed to convey canal water in full and under pressure running condition, to convey canal water by gravity under roadways, railways, drainage channels and local depressions 2.63 irrigation period time required to cover an area with one application of water 2.64 Karst topography geological formation shaped by the dissolution of a layer or layers of soluble bedrock, usually carbonate rocks such as limestone or dolomite 2.65 land preparation water requirement amount of water required in lowland rice production which includes water losses through evaporation, seepage and percolation and land soaking 2.66 land soaking water requirement amount of water required in lowland rice production which is a function of the initial soil moisture and the physical properties of the soil 7 2.67 lateral spacing spacing between irrigation laterals 2.68 leaching deep percolation of water beyond the root zone of plants, resulting in loss of salts or nutrients 2.69 lined channel lined canal canals with impermeable material (usually concrete) for channel stabilization and/or reduced seepage 2.70 loading limit allowable pollutant-loading limit per unit of time, which the wastewater generator is permitted to discharge into any receiving body of water or land. 2.71 manifold portion of the pipe network between the mainline and the laterals 2.72 manufacturer’s coefficient of variation measure of the variability of discharge of a random sample of a given make, model and size of emitter, as provided by the manufacturer and before any field operations or aging has taken place determined through a discharge test of a sample of 50 emitters under a set pressure at 200 0C 2.73 natural spillway spillway which is not excavated such as natural draw, saddle or drainage way 2.74 normal depth constant flow depth along a longitudinal section of a channel under a uniform flow condition 2.75 normal storage elevation maximum elevation the water surface which can be attained by the dam or reservoir without flow in the spillway 8 2.76 open channel flow water flow that is conveyed in such a manner that top surface is exposed to the atmosphere such as flow in canals, ditches, drainage channels, culverts, and pipes under partially full flow conditions 2.77 optimal emitter spacing drip emitter spacing which is 80% of the wetted diameter estimated from field tests 2.78 outside slope slope at the downstream face of the embankment 2.79 pan coefficient ratio between reference evapotranspiration and water loss by evaporation from an open water surface of a pan 2.80 pan evaporation rate of water loss by evaporation from an open water surface of a pan 2.81 percolation vertical flow of water to below the root zone which is affected by soil structure, texture, bulk density, mineralogy, organic matter content, salt type and concentration 2.82 permeability test method to determine the rate of flow under laminar flow conditions through a unit cross sectional are of soil under unit hydraulic gradient 2.83 pollutant any substance, whether solid, liquid, gaseous or radioactive, which directly or indirectly alters the quality of any segment of the receiving water body or land resource so as to affect or tend to affect adversely any beneficial use thereof, or is hazardous or potentially hazardous to health, or imparts objectionable odor, temperature change or physical, chemical or biological change to any segment of the water body or land, or is in excess of the allowable limits or concentrations or quality standards specified in contravention of the condition, limitation or restriction prescribed in these guidelines 9 2.84 pond sealed section formed between earth embankments where combined seepage and percolation will be measured 2.85 potential irrigable area area capable of being irrigated, principally as regards to availability of water, suitable soils, and topography of land 2.86 reference crop evapotranspiration rate of evapotranspiration from a reference surface which is a hypothetical reference crop with an assumed crop height of 0.2 m, a fixed surface resistance of 70 s/m and an albedo of 0.23 2.87 reservoir part of the system that impounds the runoff 2.88 residual moisture content moisture left in the soil before the initial irrigation water delivery which describes the extent of water depletion from the soil when the water supply has been cut-off restricted areas areas with limited entry such as freeway landscape, highway medians and other similar areas 2.89 re-use taking wastewater from one industry or process, treating it and then using it in another process or industry such as for irrigation, as liquid fertilizer and for aquaculture 2.90 road crossing conveys canal water under roads or railroads 2.91 shallow tubewell tube or shaft vertically set into the ground at a depth that is usually less than 15 m for the purpose of bringing groundwater into the soil surface whose pumps are set above the water level 2.92 seismicity occurrence or frequency of earthquakes in a region 10 2.93 seepage water escaping below or out from water conveyance facilities such as open ditches, canals, natural channels, and waterway 2.94 seepage line phreatic line line with no filter arrangements where seepage occurs 2.95 setback distance distance from the perimeter of the irrigation area to the community or area of concern that is sensitive to contamination 2.96 side slope ratio of the horizontal to vertical dimension of the channel wall 2.97 slope of the energy grade line slope of the water surface profile plus the velocity head in open channels 2.98 slope of the hydraulic grade line slope of the free water surface 2.99 spillway channel which releases surplus or flood water which cannot be contained in the active storage space of the reservoir 2.100 sprinkler irrigation method of applying irrigation water similar to natural rainfall where water is distributed through a system of pipes by pumping and then sprayed into the air through sprinklers so that it breaks up into small water drops which fall to the ground 2.101 sprinkler spacing distance between two sprinkler heads along the lateral 2.102 storage capacity total capacity at normal water surface elevation 11 2.103 storage ratio ratio of the storage capacity to the total earth volume required for embankment construction which indicates the relative cost of the different types of reservoir 2.104 structural height vertical distance measured from the top of the dam down to the bedrock 2.105 surface irrigation system application of water by gravity flow to the surface of the field. Either the entire field is flooded (basin irrigation) or the water is fed into small channels (furrows) or strips of land (borders) 2.106 top width width of the channel cross-section at the free surface 2.107 unconfined aquifer aquifer which has water table serving as upper surface of the zone of saturation 2.108 uniformity coefficient ratio of the particle size at 60% pasing to that at 10% passing 2.109 uniform flow occurs when flow has a constant water area, depth, discharge, and average velocity through a reach of channel 2.110 unimodal rainfall pattern rainfall pattern with five wet months of more than 200 mm/month, five dry months of less than 100 mm/month, two transition months of 100mm- 200mm/month and total annual rainfall above 1500 mm. 2.111 unlined channels unlined canal canals that are cut through the soil, in which the soil excavated from the bed are used to form the embankment 2.112 upstream face side of the embankment wetted by the impounded water 12 2.113 waste any material either solid, liquid, semi-solid, contained gas or other forms resulting from industrial, commercial, mining, or agricultural operations, or from community and household activities that is devoid of usage and discarded 2.114 wastewater waste in liquid state containing pollutants 2.115 water balance accounting of water inflows, such as irrigation and rainfall, and outflows, such as evaporation, seepage and percolation 2.116 watershed area which contributes runoff or drains water into the reservoir 2.117 water right privilege granted by the government to use and appropriate water 2.118 well log record of formation stratification of an aquifer showing the depth, thickness, degree of consolidation and other aquifer physical characteristics 2.119 well-protected reservoir reservoir where the upper reaches of the basin is shielded by high mountain barriers 2.120 wetted diameter diameter of the circular area wetted by the sprinkler when operating at a given pressure and no wind 2.121 wetted perimeter portion of the perimeter of the canal that is in contact with the flowing water 2.122 wetted widths width of the strip that would be wetted by a row of emitters spaced at their optimal spacing along a single lateral line 13 2.123 zoned embankment dam consisting a central impervious core flanked between zones of more pervious materials 3 Bibliography Allen, R.G., Pereira, L.S., Raes D. and M. Smith. 1998. FAO Irrigation and Drainage Paper No. 56 Crop Evapotranspiration (Guidelines For Computing Crop Water Requirements) American Society of Agricultural and Biological Engineers (ASABE). 2007. ASAE S526.3 SEP2007 Soil and Water Terminology American Society of Agricultural and Biological Engineers (ASABE). 2008. ASAE EP419.1 FEB1993(R2008) Evaluation of Irrigation Furrows Booher, L.J. 1974. FAO Agricultural Development Paper 95: Surface Irrigation Brouwer, C. np. Irrigation Water Management Training Manual No. 5: Irrigation Methods Chow, V.T. 1959. Open Channel Hydraulics. McGraw Hill Book Company, Inc. New York. David, W.P., Firmalino R.B. and L.C. Tecson. Proposed Methodologies/Strategies for the Development of Location-Specific Irrigation Design Criteria David, W.P, M.G. Villano, C.U. Collado, Jr., E.B. Razote and A.L. Ecito. 1997. Technical Bulletin No. 1 Gintong Ani Shallow Tubewell Irrigation Project: Design, Installation and Development of Shallow Tubewell. DA-UPLBFI STWIP David, W.P. and M.A. Dorado. n.d. Gintong Ani STWIP: Aquifer Characterization David, W.P. n.d. Chapter IV: Shallow Tubewell Construction and Development Department of Agriculture Administrative Order No. 26 Series of 2007: Guidelines on the Procedures and Technical Requirements for the Issuance of a Certification Allowing the Safe Re-Use of Wastewater for Purposes of Irrigation and Other Agricultural Uses Department of Agriculture – Bureau of Soils and Water Management. 1997. Manual for Agrohydrology and Engineering Design for Small Water Impounding Project (SWIP) Department of Agriculture – Bureau of Soils and Water Management. 2013. Training Presentations. 14 DENR Administrative Order 35 series of 1990 – Revised Effluent Regulations Doorenbos, J. and Pruitt, W.O., 1977. FAO Irrigation and Drainage Paper No. 24 Guidelines for Predicting Crop Water Requirements Food and Agriculture Organization. 1992. Irrigation and Water Management Training Manual No.7: Canals Food and Agriculture Organization of the United Nations. 2001. Irrigation Manual Volume III – Module 8. Food and Agriculture Organization. 2014. Irrigation Techniques for Small-Scale Farmers: Key Practices for DRR Implementers Iglesia, G.N. n.d. Design of Concrete Gravity Dams on Pervious Foundation Irrigation New Zealand Inc. 2007. Irrigation Code of Practice and Irrigation Design Standards Izuno, F.T and Haman, D.Z. 1995. Basic Irrigation Terminology Keller, J. and R.D Bliesner. 1990. Sprinkle and Trickle Irrigation Khanna, M. and H.M. Malano. 2005. Modelling of basin irrigation systems: A review National Irrigation Administration. n.d. Definition of Technical Terms on Irrigation and Drainage for Use in the National Irrigation Administration National Irrigation Administration. 1979. Design Guides and Criteria for Irrigation Canals, O & M Roads, Drainage Channels & Appurtenant Structures National Irrigation Administration. n.d. Design Manual on Diversion Dams National Irrigation Administration – DCIEP – JICA. 1990. Design Manual on Irrigation Facilities National Irrigation Administration. 1991. Irrigation Engineering Manual for Diversified Cropping Philippine Council for Agriculture and Resources Research and Development. 1978. The Philippines Recommends for Irrigation Water Management Vol.1 Philippine Council for Agriculture and Resources Research and Development. 1978. The Philippines Recommends for Irrigation Water Management Vol.2 Philippine Council for Agriculture, Aquaculture and Forestry and Natural Resources Research and Development - Department of Science and Technology. 1993. Manual on Small Farm Reservoir (Book Series No. 137) 15 Philippine Council for Agriculture, Aquaculture and Forestry and Natural Resources Research and Development - Department of Science and Technology. 1986. The Philippine Recommends for Small Water Impounding Projects Sarki, A., et al. 2008. Comparison of Different Methods for Computing Seepage Losses in an Earthen Watercourse. Agricultura Tropica et Subtropica, Vol. 41 (4) Savva, A.P. and K. Frenken. 2002. FAO Irrigation Manual – Localized Irrigation Systems Planning, Design, Operation and Maintenance Sonnichsen, R.P. 1993. Seepage Rates from Irrigation Canals. Water Resources Program: Open-File Technical Report Schwab, G.O., et al. 1993. Soil and Water Conservation Engineering. Fourth Edition Tabbal, D.F, Bouman B.A.M, Bhuiyan S.I., Sibayan, E.B and M.A. Sattar. 2002. On- farm Strategies for Reducing Water Input in Irrigated Rice: Case Studies in the Philippines Todd, D.K. and L.W. Mays. 2005. Groundwater Hydrology, Third Edition. Published by John Wiley & Sons, Inc United States Bureau of Reclamation. 1967. Design Standards No.3: Canals and Related Structures. United States Bureau of Reclamation. 1967. Design of Small Dams. United States Department of Agriculture. 1993. National Engineering Handbook United States Department of Agriculture. 1977. Technical Release No. 25: Design of Open Channels United States Department of the Interior – Bureau of Reclamation. 1978. Design of Small Canal Structures Walker, W.R. 1989. FAO Irrigation and Drainage Paper 45: Guidelines for Designing and Evaluating Surface Irrigation Systems World Health Organization (WHO). 2006. Guidelines for the Safe use of Wastewater, Excreta and Greywater. 16 Technical Working Group (TWG) for the Development of Philippine National Standard for General Irrigation Terminologies Chair Engr. Bonifacio S. Labiano National Irrigation Administration Members Engr. Felimar M. Torizo Dr. Teresita S. Sandoval Board of Agricultural Engineering Bureau of Soils and Water Management Professional Regulation Commission Department of Agriculture Dr. Armando N. Espino Jr. Dr. Elmer D. Castillo Central Luzon State University Philippine Society of Agricultural Engineers Dr. Roger A. Luyun Jr. Engr. Francia M. Macalintal University of the Philippines Los Baños Philippine Council for Agriculture and Fisheries Department of Agriculture Project Managers Engr. Darwin C. Aranguren Engr. Romulo E. Eusebio Engr. Mary Louise P. Pascual Engr. Fidelina T. Flores Engr. Marie Jehosa B. Reyes Ms. Micah L. Araño Ms. Caroline D. Lat Mr. Gerald S. Trinidad University of the Philippines Los Baños – Agricultural Machinery Testing and Evaluation Center

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