| Issue |
E3S Web Conf.
Volume 346, 2022
ICOLD & CFBR Symposium - SHARING WATER: MULTI-PURPOSE OF RESERVOIRS AND INNOVATIONS
|
|
|---|---|---|
| Article Number | 03022 | |
| Number of page(s) | 12 | |
| Section | Thème 3. Solutions innovantes dans l'usage des réservoirs / Theme 3. Innovative Solutions in Reservoir Uses | |
| DOI | https://doi.org/10.1051/e3sconf/202234603022 | |
| Published online | 23 May 2022 | |
Operation and Water Management of Dam Cascade System
Exploitation et gestion de l’eau du système cascade de barrage
1 Manager Hydro Dam Surveillance, Energy and Environment Department, PT. Vale, Indonesia
2 Senior General Manager EE, Energy and Logistic Department, PT. Vale, Indonesia
* Corresponding author: Anom.prasetyo@vale.com
The Larona River Basin which covers an area of 2,477 km2, including the three cascading lakes: Matano, Mahalona and Towuti, is a strategic watershed which acts as the water resource for three hydropower plants that supply 420 Megawatt of electricity to power a nickel processing plant and its supporting facilities and electricity need of the surrounding communities. The maximum and minimum operating levels of Lake Towuti are 319.6 meters (asl) and 317.45 meters (asl) respectively. The optimization of water resources management in the Larona Basin is important to fulfil the need to produce the energy sources. Weather Modification Technology in the form of cloud seeding is needed to produce rain which will increase the volume of water in the lake when the lake water level decreased. In the rainy season, spillway operations in all dams must be optimized because the water levels upstream and downstream are continuously monitored to prevent the impact of flooding in both areas.
Résumé
Le bassin de la rivière Larona, qui couvre une superficie de 2 477 km2, y compris les trois lacs en cascade, Matano, Mahalona et Towuti, est un bassin versant stratégique qui sert de ressource en eau à trois centrales hydroélectriques qui fournissent 420 mégawatts d’électricité pour alimenter une usine de traitement du nickel et ses installations de soutien ainsi que les besoins en électricité des collectivités environnantes. Les niveaux d’exploitation maximum et minimum du lac Towuti sont respectivement de 319,6 mètres (asl) et de 317,45 mètres (asl). L’optimisation de la gestion des ressources en eau dans le bassin de Larona est importante pour répondre à la nécessité de produire les sources d’énergie. La technologie de modification des conditions météorologiques sous forme d’ensemencement des nuages est nécessaire pour produire de la pluie afin d’augmenter les volumes d’eau dans les lacs si ces derniers ont diminué. Pendant la saison des pluies, l’exploitation de l’évacuateur dans tous les barrages doit être optimisée, car les niveaux d’eau en amont et en aval sont en permanence surveillés pour prévenir l’impact des inondations dans les deux zones.
© The Authors, published by EDP Sciences, 2022
This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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