Wastewater Reuse Planning in Agriculture: The Case of Aitoloakarnania, Western Greece
Abstract
:1. Introduction
2. Materials and Methods
2.1. Research Site
2.1.1. Demographic Data of Aitoloakarnania
2.2. WWTP of Messolonghion and Agrinion
Messolonghion | Agrinion | Nafpaktos | Aitoliko | Thermo | |
---|---|---|---|---|---|
Population | 16,000 | 60,000 | 25,000 | 7,000 | 5,400 |
Special Demand (m3 cap-1 d-1) | 0.29 | 0.24 | 0.22 | 0.15 | 0.19 |
Summer Demand (m3 d-1) | 4,630 | 14,400 | 5,500 | 1,050 | 1,050 |
Total Peak Demand (L s-1) | 154 | 325 | - | - | 34.52 |
BOD5 (kg d-1) | 1,040 | 3,900 | 1,500 | 385 | 380 |
SS (kg d-1) | 1,280 | 4,850 | 1,750 | 525 | 437 |
TKN (kg d-1) | 200 | 720 | 250 | 87.5 | 50 |
P (kg d-1) | 40 | 150 | 70 | - | - |
2.3. Chemical Analyses of Fresh Irrigation Water and Treated Wastewater
2.4. The Investigated Area
2.4.1. Messolonghion Area
- (I)
- Deep soils of heavy to light texture with high ground water level. The main soil types found are clay and sandy loams (SL). The pH is alkaline and they are characterized by high infiltration rate.
- (II)
- Deep soils with medium texture, characterized by medium to good drainage. The main soil textural classes found are loams (L), and Clays, The soil reaction is alkaline and their infiltration is low.
- (III)
- Deep soils of medium to heavy texture, well drained, including the following soil textural classes: Clay loams. (CL) Sandy clay Loams (SCL) and silty clay loams (SiCL). These soils are characterized by alkaline pH and medium infiltration.
- (IV)
- Soils of heavy texture, belonging to the types of Clays, and Clay loams (CL). Their reaction is alkaline and their infiltration is medium. It must be noted that there are also found saline and sodic soils in the lower flow of the river Evinos, mainly near the estuary areas, as a result of the intrusion of the sea water, into the higher ground water level on one hand and on the other of the drainage systems inefficiency.
2.4.2. Agrinion Area
2.4.3. Nafpaktos
2.4.4. Etolikon Area
2.4.5. Thermo Area
3. Results and Discussion
- ETo = the reference evapotranspiration (mm d−1),
- Rn = net radiation at the crop surface (MJ m−2 d−1),
- G = soil heat flux density (MJ m−2 d−1) which for daily intervals may be ignored, thus G = 0,
- T = mean daily air temperature at 2 m height (°C), u2 wind speed at 2 m height (m s−1),
- es = saturation vapor pressure (kPa),
- ea = actual vapor pressure (kPa),
- es − ea = saturation vapor pressure deficit (kPa),
- Δ = slope vapor pressure curve (kPa °C−1), and
- γ = psychrometric constant (kPa °C−1).
- Kc is the single crop coefficient, which averages crop transpiration and soil evaporation.
Crop | Messolonghion | Agrinion | Nafpaktos | Aitoliko | Thermo |
---|---|---|---|---|---|
Zea mays | 190.17 | 1736.76 | 9 | 79.1 | 20.06 |
Medicago sativa | 688.6 | 1754.23 | 35.8 | 257.01 | 15.33 |
Gossyrium hirsutum | 692.65 | 7.6 | - | 14.0 | - |
Citrus tree crops | 213.62 | 774.1 | 1.8 | 8.5 | - |
Olea europaea | 119.43 | 160.86 | 27.92 | 79.0 | 92.54 |
Nicotiana tabacum | - | 10.2 | - | - | - |
Vegetables | 6.16 | 38.7 | 0.2 | - | |
Asparagus officinalis | - | 217.3 | - | 4 | - |
Vitis vinifera | 0.31 | 0.48 | 1.1 | - | 2.04 |
Actinidia chinensis | - | 38.7 | - | - | - |
Various tree crops | 1.75 | 32.12 | 0.32 | - | - |
Total | 1912.69 | 4771.05 | 76.14 | 441.61 | 129.97 |
- Pe = refers to the fraction of rainfall, which may be used by the crops and is known as “effective rainfall”,
- Gw = is the contribution of the groundwater, and
- Sm = is the water stored in the topsoil layer at the beginning of the germination period which can be used for crops.
- Pe = average monthly effective precipitation (mm), Pt monthly mean precipitation,
- ETc = average monthly crop evapotranspiration (mm), and
- f(D) = soil water storage factor.
- D = usable soil water storage (mm).
Crop | Net crop irrigation water demand in mm during the irrigation period 2010 | ||||
---|---|---|---|---|---|
Mesolonhgion | Agrinion | Nafpaktos | Aitoliko | Thermo | |
Zea mays | 619.7 | 473.3 | 584.2 | 619.7 | 462.8 |
Medicago sativa | 493.8 | 438.7 | 426.7 | 493.8 | 432.1 |
Gossyrium hirsutum | 522.5 | - | - | 522.5 | - |
Citrus tree crops | 483.3 | 383.4 | 407.6 | 483.3 | - |
Olea europaea | 433.7 | 301.9 | 390.3 | 433.7 | 292.9 |
Nicotiana tabacum | - | 162,6 | - | - | - |
Vegetables | 361,9 | 366,2 | 336,1 | - | - |
Asparagus officinalis | - | 455,1 | - | 361,9 | - |
Vitis vinifera | 398,1 | 310,9 | 355,4 | - | 310,9 |
Actinidia chinensis | - | 595,9 | - | - | - |
Various tree crops | 534,5 | 404,5 | 486,6 | - | - |
3.1. Contribution of the Treated Wastewater to Irrigation Water
Region | Volume of water required for irrigation (m3) | Annual outflow from WWTPs (m3) | % Coverage of the irrigation water by TMWW |
---|---|---|---|
Mesolonghion | 8762621.90 | 1689950.00 | 19.30 |
Agrinion | 20907835.24 | 5256000.00 | 25.14 |
Nafpaktos | 321665.346 | 2007500.00 | >100 |
Aitolikon | 2230632.47 | 383250.00 | 17.18 |
Thermo | 436493.19 | 383250.00 | 87.8 |
4. Conclusions
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Kalavrouziotis, I.K.; Arambatzis, C.; Kalfountzos, D.; Varnavas, S.P. Wastewater Reuse Planning in Agriculture: The Case of Aitoloakarnania, Western Greece. Water 2011, 3, 988-1004. https://doi.org/10.3390/w3040988
Kalavrouziotis IK, Arambatzis C, Kalfountzos D, Varnavas SP. Wastewater Reuse Planning in Agriculture: The Case of Aitoloakarnania, Western Greece. Water. 2011; 3(4):988-1004. https://doi.org/10.3390/w3040988
Chicago/Turabian StyleKalavrouziotis, Ioannis K., Christos Arambatzis, Dimitrios Kalfountzos, and Soterios P. Varnavas. 2011. "Wastewater Reuse Planning in Agriculture: The Case of Aitoloakarnania, Western Greece" Water 3, no. 4: 988-1004. https://doi.org/10.3390/w3040988
APA StyleKalavrouziotis, I. K., Arambatzis, C., Kalfountzos, D., & Varnavas, S. P. (2011). Wastewater Reuse Planning in Agriculture: The Case of Aitoloakarnania, Western Greece. Water, 3(4), 988-1004. https://doi.org/10.3390/w3040988