audit sistem rrigasi -...
TRANSCRIPT
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AUDIT SISTEM IRRIGASI
Didik Suprayogo
Bahan Bacaan: Connellan, 2002. Efficient Irrigation: A Reference Manual for Turf and Landscape, Burnley College, University of Melbourne,
Sumber Gambar: Irrigation Australia
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APA ITU AUDIT SISTEM IRRIGASI?
determination of current efficiency
- BEFORE making major changes - BEFORE making major changes
(uniformity, leaks, …)
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ASPEK PERTIMBANGAN KEPUTUSAN MENGIRIGASI
LAHAN PERTANIAN
� Lingkungan,
� Sistem Budidaya Pertanian,
� Nilai Ekonomi,
� Kemampuan personnel dalam menjalankan irigasi� Kemampuan personnel dalam menjalankan irigasi
� Kebutuhan masyarakat dan
� Dampak Lingkungan
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RENCANA MANAGEMEN AIR DI LAHAN
� Akurasi rancangan lahan irrigasi termasuk sistem irigasinya
� Karakteristik, jumlah, laju aliran dan kualitas pasokan air
� Penilian sistem Pertanian yang diterapkan– Perkiraan kebutuhan air
� Faktor Pembatas Ketersediaan Air – dan implikasinya pada lahan
� Strategi untuk mengatasi kekeringan
� Jenis dan sifat Tanah serta kedalaman zona akar
� Jadwal Irigasi� Jadwal Irigasi
� target kinerja Sistem
� Isu Kualitas air
� Biaya air
� Dampak terhadap lingkungan sebagai akibat praktek irigasi
� Ketrampilan dan pelatihan staf
� Strategi untuk mengadopsi teknologi baru
� Evaluasi sistem manajemen dan efisiensi irrigasi secara berkala
� Prosedur perawatan
� Dokumentasi perbaikan sistem irigasi
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ISUE UTAMA IRRIGASI: EFISIENSI
� Kualitas rancangan sistem irigasi
yang tinggi
� Pemasangan sistem sesuai
dengan kualitas rancangandengan kualitas rancangan
� Standar tinggi pemeliharaan
hardware di sistem / peralatan
� Presisi manajemen dan kontrol
(penjadwalan) dari sistem irigasi
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PENYEBAB UTAMA KEBOROSAN AIR: TIDAK EFFISIEN
� Jumlah air diterapkan melebihi dari kebutuhantanaman
� Kurang seragamnya aplikasi air
� Tingkat curah hujan lebih tinggi dari tingkat infiltrasitanahtanah
� Rusak atau tidak berfungsi peralatan
� Bila menggunakan irrigasi springkler: Beroperasidalam kondisi berangin
� Limpasan permukaan
� Penyemprotan yang berlebihan dari dari alatsprinkler dan karena salah arah penyiramannya
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PRINSIP PRAKTEK IRRIGASI YANG BAIK
� (A) Jumlah air yang diterapkan adalah sesuai kebutuhan tanaman dan kondisi tanah
� (B) Waktu aplikasi air sesuai dengan kebutuhan tanaman dan kondisi cuaca
� (C) Air diterapkan secara seragam dan efektif
� (D) Air diterapkan pada zona akar tanaman tanpa kehilangan akibat limpasan
permukaan, drainase dalam, kurang efektifnya cakupan irrigasi dan penyebab lainnya.
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PRINSIP PRAKTEK IRRIGASI YANG BAIK
Irrigasi yang baik adalah aplikasi air irrigasi yang
efisien dengan jumlah air yang tepat dengan efisien dengan jumlah air yang tepat dengan
pemberian air pada tanaman pada waktu yang tepat
dan di tempat yang tepat.
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(A) PENERAPAN KEDALAMAN IRRIGASI YANG TEPAT
� AirTersedia bagi Tanaman (ATT) = Kedalaman Zona
Perakaran (D) x Air yang Tersedia bagi tanaman
(AT) mm/m.
� contoh:� contoh:
� Tanaman Jagung yang tumbuh di tanah lempung
berpasir
� Kedalaman zona Perakaran (D): 150 mm
� Kapasitas penyimpanan air tersedia (AT): 110 mm /
1000 mm
� ATT = 150 mm x (110/1000) = 16,5 mm
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(A) PENERAPAN KEDALAMAN IRRIGASI YANG TEPAT
� AirTersedia bagi Tanaman = Kedalaman Zona
Perakaran (D) x Air yang Tersedia bagi tanaman
(AT) mm/m.
� contoh:� contoh:� Tanaman Jagung yang tumbuh di tanah lempung berpasir
� Kedalaman zona Perakaran (D): 150 mm
� Kapasitas penyimpanan air tersedia (AT): 110 mm / 1000 mm
� ATT = 150 mm x (110/1000) = 16,5 mm
� Point Refill (Target Isi Ulang)
� Aplikasi Sistem Efisiensi
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(A) PENERAPAN KEDALAMAN IRRIGASI YANG TEPAT
� Kedalaman irrigasi = (% pengurangan kandungan
air tanah yg diperbolehkan X ATT)/ Efisiensi
Aplikasi (%)
� contoh:� contoh:� Lahan pertanian : Jagung di tanah lempung berpasir
� Irrigasi : sprinklers
� ATT : 16.5 mm
� Depletasi yng diperbolehkan (%) : 50%
� Kedalaman depletasi yg diperbolehkan : 8.3 mm
� Efisiensi aplikasi: 75%
� Kedalaman irrigasi : 11.0 mm ( = 0.5 x 16.5)/ 0.75
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(B) WAKTU IRRIGASI YANG TEPAT
� Faktor: � (1) karakteristik tanaman dalam penggunaan air
� (2) kondisi Iklim
� (3) tingkat kelembaban tanah dan penyimpanan air tanah
� Menentukan Evapotranspirasi mm/hari dengan� Menentukan Evapotranspirasi mm/hari denganfaktor:
1. Jenis tumbuhan
2. Tahap pertumbuhan
3. Cuaca - permintaan menguapkan
4. Tersedia air di tanah
5. Kualitas air
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(B) FAKTOR IKLIM YANG MEMPENGARUHI
EVAPOTRANSPIRASI
� 1.Radiasi matahari - menyediakan energi untuk
penguapan
� 2.Suhu udara
� 3.Kelembaban relatif - menunjukkan kekeringan � 3.Kelembaban relatif - menunjukkan kekeringan
udara
� 4.Kecepatan angin - air meningkat tingkat
penggunaan
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Kandungan air
Hujan
LP
Infiltrasi
Evapotranspirasi
Irigasi
Kandungan air
pada sistem
perakaran pada
kondisi kapasitas
lapangan
Drainase
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(B) TEKNIK UNTUK MENGESTIMASI PENGGUNAAN AIR
Evapotransiparsi maksimum (Etm)
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CropWat
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EVAPOTRANSPIRASI MAKSIMUM (ETm)
• Crop water use, Consumptive use , and Evapo-transpiration (ETm) are the terms
that are interchangeably used to describe water consumed by crops.
• Water requirements depend mainly on the nature and stage of growth of crop and
environmental conditions.
• Crops will transpire water at the maximum rate when soil water is at field capacity.
Transpiration rate does not decrease significantly until the soil moisture falls below
50% of field capacity.
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The DATA STATUS Window
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EVAPOTRANSPIRASI MAKSIMUM (ETm)
ETm = kc * ETo ETo = Reference Evapotranspirasi
kc = Koefisien Tanaman
ETo = c [W*Rn + (1-W)*f(U)*(ea-ed) Penman Methods
(ea-ed) = selisih kelembaban udara (kelembaban jenuh – kelembaban aktual)
= ed = ea*RH/100
f(U) = fungsi kecepatan angin f(U) = 0.27 (1+U/100)
Rn = total radiasi bersih =0.75Rs-Rn1; Rs radiasi gelombang pendek, Rnl = radiasi
gelombang panjang, sebagai fungsi temperatur; f(T) =kelembaban, lama
penyinaran,
W = faktor pemberat tempartur dan tinggi tempat
c = faktor penentu dari rasio Uday/Unight, untuk RHmax dan untuk Rs.
ETo = c (W*Rs) (Radiation Method) ETo = kpan * Epan
(Pan Evaporation Method)
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Reference Crop Evapotranspiration (ETo) values
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kc
Crop coefficient is dynamic in nature and varies with crop characteristics, dates of
planting, stage of growth , height, soil and canopy cover, albedos etc.
For practical reasons, four stages of crop growthare assumed:
1.Initial Stage (10% g. cover) 2. Crop Development Stage (10-80%, 3. Mid-season Stage 1.Initial Stage (10% g. cover) 2. Crop Development Stage (10-80%, 3. Mid-season Stage
(.80%-rippening) 4. Late-season Stage (rippening – harvest)
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Tanaman CROP WATER STAGES
Initial C develop Mid season Late season Harvest Rata-rata
Padi 1.1 1.1 1.1 0.95 0.95 1.05
Jagungsweet 0.3 0.7 1.05 1.0 0.95 0.8
Kedelai 0.3 0.7 1.0 0.70 0.40 0.75
KacangTanah 0.4 0.7 0.95 0.75 0.55 0.75
KacangHijau 0.3 0.65 0.95 0.9 0.85 0.85
UbiJalar
UbikayuUbikayu
Talasbentul
Semangka 0.4 0.7 0.95 0.8 0.65 0.75
Kangkungd
Tomat 0.4 0.7 1.05 0.8 0.6 0.75
Cabe 0.3 0.6 0.95 0.85 0.8 0.7
Kubisbunga 0.4 0.7 0.95 0.9 0.8 0.7
BawangMer 0.4 0.7 0.95 0.85 0.75 0.8
KacangPanj 0.3 0.7 1.05 0.65 0.25 0.7
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Tanaman CROP WATER STAGES
Initial C develop Mid season Late season Harvest Rata-rata
Kubis 0.4 0.7 0.95 0.9 0.8 0.7
Tembakau 0.3 0.7 1.0 0.9 0.75 0.85
Tebu 0.4 0.7 1.0 0.75 0.5 0.85
Kenaf
JarakPagar
Kopi
Kaka0
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Data needed for calculations
• For Crop Water Requirements (CWR):
1. Reference Crop Evapotranspiration (ETo) values
2. A Cropping Pattern
3. Monthly Rainfall data3. Monthly Rainfall data
• For Irrigation Scheduling you will need the data listed above and -
4. Soil Type information
5. Scheduling Criteria
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EVAPOTRANSPIRASI AKTUAL (ETa)
1. Cukup air tanah untuk memenuhi ETa = ETm
2. Keterbatasan air tanah, ETa < ETm
2.1. ETa melalui interval irrigasi
2.2. ETa melalui Periode bulanan
Untuk menetapkan penjadwalan irrigasi
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Irrigation schedulling
I.Supply right quantity of water at right time through an appropriate application method to
satisfy crop water requirements.
II.Serves the objective of high yield of good quality, attaining high WUE, without any damage
to soil productivity and applying water at reasonable cost.Irrigation Scheduling
Criterion of irrigation schedulingCriterion of irrigation scheduling
Crop Growth Stages-Physiological/ Critical
•Soil Moisture Depletion
•Meteorological Indicators
•Plant Indices
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General Criterion for Scheduling
1. When farmers have adequate supplies of water as per
demand, the aim is to achieve maximum yield per
unit of land without wasting water.
2. In case of limited amount of water, the aim is to 2. In case of limited amount of water, the aim is to
maximize production per unit of water by
rationalizing its distribution over available land and
also applying it at more sensitive stages of crop
growth.
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(C) KETIDAK KESERAGAMAN APLIKASI AIR IRRIGASI:
KASUS DI IRRIGASI SPRINKLER
� Sprinklers and sprays spaced too far apart
� Poor sprinkler precipitation distribution profile
� Unfavourable environmental operating conditions - wind- wind
� Incorrect operating pressure
� Incorrect nozzle size
� Poor pipe and valve sizing - excessive pressure and flow variation in system
� Sprinkler head or equipment not functioning effectively.
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(C) MENGHINDARI KELEBIHAN AIR
� Runoff - design or management problem
� Wind - droplet evaporation losses and distorted
wetting pattern
� Misdirected sprays and sprinklers� Misdirected sprays and sprinklers
� Incorrect operating pressure
� Obstructed distribution for sprinkler and sprays
� Blocked nozzles
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MENGEVALUASI KINERJA IRIGASI:
(1) THE AVERAGE PRECIPITATION RATE AND
(2) THE EVENNESS OR UNIFORMITY OF THE APPLICATION.
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KECEPATAN ALIRAN “HUJAN”
� Calculating Theoretical Precipitation Rate:
Theoretical/ Calculated PR (mm/h) = (Outlet flow rate)/ (Wetted Area)
Precipitation rate PR = (q x 60)/ (S x L) mm/h
q - flow rate from one outlet (sprinkler or spray) (L/min)
S - spacing between outlets along lateral (m)
L - perpendicular spacing between laterals (m)
� Calculating Actual Precipitation Rate:
Actual Precipitation Rate (PR) = (Vavg x 60,000)/ (T x Ac) mm/h
Vavg - average volume in test cans (mL)
T - test run time in minutes
Ac - area of can in mm2
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UNIFORMITY COEFFICIENTS
� Distribution Uniformity (DU) Coefficient:
DU (%) = (M25 x 100)/ M
where:
M - average value of all catch can readings.
M25 - average of lowest 25% of readings , minimum DU of 75%.
•Christiansen Coefficient of Uniformity (Cu):
Cu = ( 1 - Σ Md ) (M x n) x 100 %
M - average value of all can readings
Σ Md - total of variation of each reading from the average
n - number of can readings
Cu be greater than 84%
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UNIFORMITY COEFFICIENTS
� Scheduling Coefficient (SC):
Scheduling Coefficient (SC) = (Average of all can readings)/(Selected
can/s readings (Dry area))
SC25% = (1/DU)SC25% = (1/DU)
Eg. If DU is 75%, then SC25% = = (1/0.75) = 1.33
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IRRIGATION MANAGEMENT INDICATOR
Irrigation Index (Ii) =
(Water Applied to site (WA))/(Estimated Water
Required (WR))
Determining Water Applied (WA):
Water applied (WA) = Water applied (WA) =
(Volume of water supplied to site (Litres))/ (Irrigated
area (m2)) mm
Seasonal Water Required (WR)
Net Water Requirement (NWR) = (ETc – Peff) (mm)
Estimated Irrigation Water Required (WA) =
(Net Water Requirement (NWR))/ (System Application Efficiency
(Ns)) mm
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LIST OF KEY PERFORMANCE INDICATORS
• System precipitation rate - PR (mm per hour): A measure of the
average rate of water reaching the soil surface within the test area.
This should be less than soil infiltration rate to avoid runoff.
• Distribution Uniformity - DU (Should be greater than 75%): A
measure of the evenness of application of water application by measure of the evenness of application of water application by
sprinkler systems using a can test. This coefficient takes into account
the average of the lowest 25% of readings obtained from test cans
and compares this value to the average of all readings.
• Christiansen Uniformity - Cu (Should be greater than 84%): A
measure of the evenness of application of water application by
sprinkler systems. This coefficient takes into account the amount of
variation in test can readings both above and below the average
value of all can readings. It is in more common use in agriculture.
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LIST OF KEY PERFORMANCE INDICATORS
• Scheduling Coefficient - SC (SC25% should be less
than 1.3): A measure of the range of depths of
water applied by the irrigation system within the
test area. Provides a basis for adjusting irrigation
run times to allow for underwatered areas.
• Irrigation Index - Ii ( Should not be greater than
1.0): Ratio of the depth of water applied at a site
compared to the depth of water that has been
estimated to be required.
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AUDIT SISTEM IRRIGASI:
STUDI KASUS SPRINKLER IRRIGATION
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KEUNTUNGAN POTENSIAL AUDIT
� Potential water savings and cost savings
� Nutrient savings and reduced release of nutrients
to environments
� Higher quality of land and landscape plantings eg. � Higher quality of land and landscape plantings eg.
more uniform land surfaces
� Savings in time and labour
� Improved management of a valuable resource
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KETERSEDIAAN INFORMASI HASIL AUDIT
� Identify faulty equipment
� Current operating efficiency and uniformity of the
system
� Identify any weaknesses in system� Identify any weaknesses in system
� Establish key system performance parameters
pressure, flow rate, precipitation rate
� Provide basis for developing an irrigation schedule
for the site How much to apply, when to apply.
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PERSIAPAN AUDIT
� Background Information: (a) an accurate record of the system, the
site and the vegetation; (b) quality irrigation management program (accurate details of equipment); (c) Details of the water supply and control equipment (pump or water meter, controller, master valves, etc); (d) The soil water properties for each irrigated zone need to be determined. The key properties are infiltration rate and available water holding capacity
Site Test Conditions - Weather and Hydraulics� Site Test Conditions - Weather and Hydraulics
� Preliminary Check Of System: (a) Malfunctioning
valves, (b) Sunken sprinkler heads, (c) Incorrect or non-rotation of sprinkler heads, (d) Tilted heads, (e) Plugged nozzles, (f) Broken casings and missing parts, (g) Distorted spray distribution, (h) Incorrect nozzles installed, (i) Leaking pipes, valves, fittings, equipment, broken seals, (j) ncorrectoperating pressure - high, low
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PELAKSANAAN AUDIT
� Audit Test Equipment ; (a) Setting Out The Cans,
(b) Pressure Testing: (1) Checking the outlets
(sprinklers and sprays) are operating at correct
(optimum) pressure. (2) The pressure variation (optimum) pressure. (2) The pressure variation
along the lateral Is it acceptable? (3) The pressure
variation between stations and outlets in
different parts of the system. (4) The amount of
pressure loss due to friction in the system. (5) The
pressure loss across valves, filters and special
fittings.
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frequent irrigation audits in
a variety of situations. Also
has the necessary tools for
more in-depth sprinkler
hydraulic analysis. Kit
includes:
Mobile Equipment Cart
Oakfield Model 'B' Soil
Probe
30 - Catch Can (Premium)
30 - Catch Can Stand
(Stainless Steel)(Stainless Steel)
100' Fiberglass Tape
Measure
50 Marking Flags
POC Pressure Gauge
Rotor Head Pressure Gauge
Spray Head Pressure Gauge
Stop Watch
Anemometer
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Premium Audit Kits Premium
Audit Kit B
"you already have a soil probe"
Click to Enlarge
This kit includes all the tools in the
Premium Audit Kit A, without the
soil probe. This kit is for
performing frequent irrigation
audits in a variety of situations.
Also has the necessary tools for
more in-depth sprinkler hydraulic
analysis. Kit includes:
Mobile Equipment CartMobile Equipment Cart
30 - Catch Can (Premium)
30 - Catch Can Stand (Stainless
Steel)
100' Fiberglass Tape Measure
50 - Marking Flags
POC Pressure Gauge
Rotor Head Pressure Gauge
Spray Head Pressure Gauge
Stop Watch
Anemometer
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MENGANALISA HASIL AUDIT
� (1) the evenness or uniformity of the application and (2) the average precipitation rate.
� Precipitation Rate Results: actual precipitation rate should be less than the soil infiltration rate;
� Uniformity Results: DU greater than 75% and Cu � Uniformity Results: DU greater than 75% and Cu greater than 84%.
� Developing An Irrigation Schedule:� Run Time = (Irrigation Depth (mm) x 60 min/ (Precipitation Rate (PR) (mm/h)
Example - Irrigation Run Time
Site: sports oval
Turf: kikuyu
Irrigation Depth: 8.3 mm
Precipitation Rate: 12 mm/h (This is an assumed value)
Run Time = (8.3 x 60)/ 12 = 41.5 min
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STRATEGI KONSERVASI AIR
� (1) REDUCE PLANT WATER DEMAND
� A. Plant selection
� B. Site landscape design
� C. Plant cultural practices
� D. Root zone depth� D. Root zone depth
� E. Mulching
� F. Soil amendments
� (2) MAXIMISE IRRIGATION APPLICATION EFFICIENCY
� (3) PRECISE CONTROL OF IRRIGATION
� (4) ADOPT NEW TECHNOLOGIES
� (5) OPERATOR SKILLS
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STRATEGI KONSERVASI AIR
� (1) REDUCE PLANT WATER DEMAND
� (2) MAXIMISE IRRIGATION APPLICATION EFFICIENCY
� A. High uniformity
� B. Optimise hydraulic operating conditions for outlets
� C. Correct outlet selection� C. Correct outlet selection
� D. Effective outlet coverage
� E. Effective functioning of equipment
� F. Low head drainage
� (3) PRECISE CONTROL OF IRRIGATION
� (4) ADOPT NEW TECHNOLOGIES
� (5) OPERATOR SKILLS
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STRATEGI KONSERVASI AIR
� (1) REDUCE PLANT WATER DEMAND
� (2) MAXIMISE IRRIGATION APPLICATION EFFICIENCY
� (3) PRECISE CONTROL OF IRRIGATION
� A. Match irrigation to plant water demand
� B. Correct depth of irrigation� B. Correct depth of irrigation
� C. Hydrozones
� (4) ADOPT NEW TECHNOLOGIES
� A. Weather stations
� B. Soil moisture sensors
� C. Smart controllers
� D. Alternative method of irrigation - Subsurface drip
� (5) OPERATOR SKILLS
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TUGAS MEMAHAMI & MENGINTERPRETASI
THE RAPID APPRAISAL PROCEDURE BY FAO (1999)
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INTERNAL INDICATORS
The internal indicators assess quantitatively the internal
processes (the inputs [resources used] and the outputs
[services to downstream users]) of an irrigation project.
Internal indicators are related to operational procedures, the
management and institutional setup, hardware of the system,
water delivery service, etc. These indicators are necessary in water delivery service, etc. These indicators are necessary in
order to have a comprehensive understanding of the
processes that influence water delivery service and the
overall performance of a system. Thus, they provide insight
into what could or should be done in order to improve water
delivery service and overall performance (the external
indicators).
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EXTERNAL INDICATORS
The external indicators compare the inputs and outputs of an
irrigation system in order to describe overall performance.
These indicators are expressions of various forms of
efficiency, e.g. water-use efficiency, crop yield, and budget.
They do not provide any detail on what internal processes
lead to these outputs and what should be done in order to lead to these outputs and what should be done in order to
improve performance. However, they could be used for
comparing the performance of different irrigation projects
both nationally and internationally. Once these external
indicators have been computed, they can be used as a
benchmark for monitoring the impacts of modernization on
improvements in overall performance.
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LANGKAH MENGERJAKAN TUGAS
1. Lakukan diskusi kelompok, untuk memahami Proses
Penilaian Cepat (RAP) dan Acuan (Benchmarking)
Penjelasan dan Pirantinya sistem Irigasi dan Cara mengisi
Form Isian dalam exel file. Buat daftar bagian mana yang
belum dapat dipahami dan belum bisa mengisi form
tersebut, dan kumpulkan satu minggu setelah kuliah ini.tersebut, dan kumpulkan satu minggu setelah kuliah ini.
2. Lakakuan interpretasi hasil RAP contoh (file exel), secara
mandiri terkait kinerja sistem irrigasi tersebut. Tugas ini
dibuat secara mandiri dan dikumpulkan 2 (dua) minggu
setelah kuliah ini.
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Terimakasih
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