Country:
Tunisia
Location:
El Guelta wadi at the Ouardanine perimeter
Time period :
1993-2021
Implementing Institution/ Organization:
Monastir Governorate in central-eastern Tunisia
Funded by :
ONAS Ouardanine / Monastir / CRDA Monastir
Goals
1) promoting the use of recycled water from
wastewater treatment plants at the national level.
2) rehabilitation and extending WWTPs and improving
the quality of treated wastewater.
3) using recycled water enables the preservation of
agricultural land located near the discharge outlet of
the plant at the Oued El Guelta.
4) increasing agricultural production.
Methodology (approach)
1) Analysis of documentation concerning the
Ouardanine Public Irrigated Perimeter and the
Ouardanine WWTP.
2) Consultation with staff at local structures, resource
persons and local populations to collect required
data on the plant and the current state of the
existing perimeter. Note that some data could not be
obtained, especially concerning ONAS.
3)Field observations and investigations, which were
carried out on June 17, 2021, at the Ouardanine
Public Irrigated Perimeter. The investigations
included direct communication with farmers to
determine crops grown and current operating
constraints.
Study Results
The Ouardanine Perimeter is irrigated by recycled water from the Ouardanine WWTP, which is located 2 km north of Ouardanine town in the Monastir Governorate. Wastewater collections come from predominantly domestic sources in the town, although some wastewater comes from industrial sources, for example, car washes and slaughterhouses. The Ouardanine WWTP was built with a design flow of 1,500 m3 /day, which is expected to be increased to 2,900 m3 / day when the current extension project is completed. Wastewater is treated at a secondary level by a medium-load activated sludge treatment system at the plant and then conveyed to the Oued El Guelta wadi upstream of the Ouardanine Perimeter (Figure 4.2) by means of: A storage basin with a capacity of 1,000 m3 that is located near the Ouardanine WWTP’s discharge point into the El Guelta wadi. A filtration plant consisting of two gravel filters, two screen filters and two disc filters. A pumping station with a suction tank equipped with three 20 L/s pumps of 40 m in height, one of which is an emergency pump. A 2.4 km long DN250 asbestos cement delivery pipe. A semi-underground reinforced concrete regulation tank with a capacity of 500 m3 is located at the head of the perimeter. A buried piping distribution network fed by gravity from the regulation tank equipped with 22 irrigation hydrants. The irrigation hydrants are reinforced concrete manholes with tamper-proof closures and equipped with valves and a meter, although it is noted that these meters are generally out of order. The payment of volumes used by each farmer is made on a flat rate basis in relation to the irrigated area. A common fee is applied corresponding to an annual amount of USD 99/ha/year/farmer. Plot networks with buried PVC pipes installed by farmers. The irrigation techniques used are localized for arboriculture while sprinkler irrigation is used for forage crops. The creation of the Ouardanine Perimeter has resulted in significant socio-economic, health and environmental benefits. Economic benefits include an increase in the value of agricultural land. The price of an irrigated hectare increased from USD 1,800 in 1996 to USD 1,364 in 2014. It is currently valued at USD 7,182. There has also been an increase in the agricultural production of the irrigated farms, which represents triple the average recorded in the whole of the Republic of Tunisia including: 25 ha of peach trees with an average production of 30 tons/ha. 10 ha of fig trees with an average production of 10 tons/ha. 15 ha of pomegranate trees with an average production of 40 tons/ha. 24 ha of olive trees intercropped with various fruit trees. Jobs have also been created for young people in the project area as the number of working days has increased from 20 days/ha in 1996 to 155 days/ha just four years after the perimeter was irrigated. Environmental benefits include minimizing the discharge of recycled water from Ouardanine WWTP into the El Guelta wadi. In 2019, between March to September, all of the recycled water was used within the perimeter as a result of a significant lowering of the water table, which is an ongoing challenge. This enabled the return of agricultural activity on 7.2 km of land located near the wadi that had been previously damaged because of discharge (Image 4.1). Other benefits include the use of treatment sludge from the plant as an organic fertilizer. The Ouardanine Perimeter also plays an important role in raising awareness of irrigation by recycled water from wastewater treatment plants at the local as well as national levels. It receives an average of 1,000 visitors each year. The Ouardanine Perimeter is located in an extensive agricultural area where both arboriculture (especially dryfarmed olive trees) and cattle rearing (without a grazing area owing to the absence of irrigation and fodder production) play an important role in generating income for the population. The absence of other sources of conventional water and the aridity of the climate makes the possibility of extending the irrigated area highly probable, particularly given the demands made by a large proportion of the farmers in the area who deem it necessary.
Conclusions
STRENGTHS:
A significant potential in continuous
recycled water availability throughout the year.
Fertilizing power of recycled water means less
mineral fertilizer use. High potential for agricultural
land to be irrigated and high motivation of farmers in
the area for the project. No other continuous
source of water for irrigation near the existing
perimeter. More than 24 years of experience with
recycled water for irrigation in the project area and a
high rate of intensification in the existing perimeter
(140%).
WEAKNESSES:
Restrictive list of authorized crops
with few high-value crops. Poor pricing, set at USD
0.072/m3 , which means costs of reusing treated
wastewater are largely borne by the CRDA.
Frequencies of non-compliance with recycled water
quality control and all other parameters to be
analyzed, at the CRDA and the ONAS. Poor
management of the additional treatment equipment
installed at the head of the perimeter including algal
growth in the storage tank. This tank is very deep (3
m), which favors the development of septic
conditions.
OPPORTUNITIES:
A political will to promote water
reuse. Many users are willing to pay more for
recycled water from wastewater treatment plants to
get better quality water. Less discharge into the
wadi and sometimes all of the recycled water
produced is used (from March to September).
THREATS :
Poor flow of the El Guelta wadi following
discharges of treated wastewater and sludge which
generate the development of vegetation formed by
reeds and other halophilic plants which slow down
water flow. This causes a rise in the static level of the
water table which can asphyxiate the fruit trees,
salinization of the soil and proliferation of insects, as
well as odor nuisance. Difficulties related to the
quality of the recycled water.
Lessons learned
The supervision and monitoring of farmers is an
important factor in the success of public irrigated
perimeters.
The quality of the water produced by the WWTPs and
supplied for irrigation must comply with at least the
NT106-02 discharge standard to ensure efficient
operation of the public irrigated perimeters. The
installation of a complementary treatment plant at
the head of the perimeters, as in this case, is
becoming a necessity given the fluctuations in the
quality of treated wastewater throughout the
operation of the WWTPs and illicit polluted
discharges into the ONAS sewers despite continuous
control of the networks.
References (resources) Found is the case study
CDRA (Regional Commission for Agricultural
Development). 2020a. Irrigated Perimeter, Follow up
sheet. Ouardanine. CRDA.
.
CRDA. 2020b. Physico-chemical and bacteriological
analysis sheets for treated wastewater collected
from the Ouardanine Public Irrigated Perimeter
storage basin (2019 and 2020). Monastir. CRDA.
MARHP (Ministry of Agriculture, Hydraulic Resources
and Fisheries). 2017. Fee policy evaluation study and
review and implementation of new pricing schemes,
Dual pricing of treated wastewater at the level of the
Public Irrigated Perimeter – Phase 1 diagnosis.
Tunisia. MARHP; DGGREE (Directorate General of
Rural Engineering and Water Management); KFW
(Kreditanstalt für Wiederaufbau).
ONAS (National Sanitation Office). 2003. Feasibility
study for the development of treated wastewater
reuse in the Ouardanine region. Republic of Tunisia.
ONAS.
ONAS. 2018a. Preliminary study for a national plan:
Reuse of treated wastewater for Tunisia - Diagnosis
of the existing situation. Tunisia. MARHP (Ministry of
Agriculture, Hydraulic Resources and Fisheries);
ONAS; the Ministry of Health.
ONAS. 2018b. Ouardanine wastewater treatment
plant activity report. Ouardanine. ONAS.
Acronyms
ANPE: National Environmental Protection Agency
CRA: Agricultural Outreach Unit
GDA: Agricultural Development Group
CRDA: Regional Commission for Agricultural Development
CTV: Territorial Extension Unit
DGGREE: Directorate General of Rural Engineering and Water Management
DHMPE: Directorate of Environmental Health and Environmental Protection
MALE: Ministry of Local Affairs and the Environment
MARHP: Ministry of Agriculture, Water Resources and Fisheries
MSP: Ministry of Public Health ONAS Official Sanitation Office
WWTP: Wastewater Treatment Plant
