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Design and Engineering for Water Plants
Aquarabia introduces the design and engineering service of water plants that requires a deep understanding of water chemistry, hydraulics, civil engineering, and the purpose of produced water.
Key Stages in Water Plant Design and Engineering:
1
This stage focuses on identifying suitable locations based on factors like water availability, proximity to users, and environmental impact. It includes assessing raw water quality to define necessary treatment processes, estimating future water demand, and analyzing the economic feasibility of the project to ensure its sustainability.
2
In this phase, optimal treatment processes are selected based on water quality, environmental considerations, and cost efficiency. Preliminary layouts of the plant are created, detailing flow paths and key units, while hydraulic calculations are performed to determine pipe sizes, pump capacities, and flow rates.
3
This stage refines the entire design, specifying parameters for chemical dosages, reaction times, and filtration rates. It includes structural design for buildings and tanks, mechanical design for equipment like pumps and valves, electrical design for power and control systems, and piping design with precise materials and dimensions.
4
Comprehensive construction drawings and detailed technical specifications are prepared to guide the project. These documents cover plans, elevations, sections, and specifications for materials and equipment, ensuring a smooth and efficient construction process.
5
During construction, all activities are closely monitored to ensure they align with the design and quality standards. Equipment installation is inspected, and performance tests are conducted to validate the functionality of the entire plant before final commissioning.
1. Feasibility Study
This stage focuses on identifying suitable locations based on factors like water availability, proximity to users, and environmental impact. It includes assessing raw water quality to define necessary treatment processes, estimating future water demand, and analyzing the economic feasibility of the project to ensure its sustainability.
1
Projects Completed
1
+
Years Of Experience
1
+
Specialized Staff
1
M m³
Total Daily Treatment Capacity
1
K m³
Annual Recycled Water
1
%
Carbon Footprint Reduction
1
Plants Maintained/Rehabilitated
1
%
Project Success Rate