Indus has the experience and expertise in the field and Plant Engineering which includes Power plants, Process plants, offshore/onshore platforms, piping and Structural Design. Making the design calculations as per the international codes such as ASME, BIS etc,Equipment Design, 3D layout creation, Detail Engineering, Structural Analysis, Flow Analysis, Support Design, Manufacturing Drawings, Detail Engineering - Bill of Materials Electrical & Instrumentation - System Design - Logic Diagrams - Loop diagrams RANGE OF SERVICES
Piping
3D Piping Layout
GA drawings and Isometrics
Piping Stress and flexibility Analysis
Support design and selection
Bill of Materials Structural
Primary Structural main frame design
Secondary structures
Structural, Seismic
Wind, Wave and Fatigue Analysis
Piping
Detail Engineering
Foundation design
Bill of Materials Ducting
3D Duct Layout for Power plants
HVAC Structural and Flow Analysis
Project Formation
Specialised & Management Services
Planning, Analysis and Reports
Basic and Project Engineering
Project Realization
Detailed Engineering
Project Management
Commissioning
Equipment
Equipment layout drawings in 2D and 3D environments
Equipment detail fabrication drawings
FE Analysis for thermal and structural load conditions
Structural steel support design and detailing
Basic and Project Engineering Services
Process flow
Material flow
Technical schemes
Plant & facilities layouts
Selection of production units
Energy optimization and conservation
Pollution control
Planning, Analysis and Reports
Product Mix
Process Selection
Feasibility Reports
Infrastructure Studies
Detailed Project Reports
Turn around strategies
Code Calculations
ASME code calculations for
ASME Sec VIII Div.1
ASME Sec VIII Div.2
ASME Sec I for Power Boilers
ASME 31.1 for Piping
Detailed Engineering
Shops layout
General arrangement drawings
Detailed drawing for civil works, structural, electrics, utilities and services
Materials handling and storage
Transportation
Tender specification
Tender evaluation
INDUS has experience in the following areas:
Steady State fluid flow simulation with and without heat transfer, e. g., Feed water and service water system balancing.
Multi-Component, two-phase flow simulation, e. g., a) steam flow into a nitrogen filed containment, b) forces caused by a pump start after air is drawn into the pipe line by condensing steam.
Transient two-phase simulation, e. g., a) simulating the behavior of a reactor power plant during a small break in the primary or secondary systems or during an anticipate transient without scram.
Loss-of-Coolant-Accident simulations. These events are primarily evaluated for nuclear power plants. All aspects of thermal hydraulic simulation are explored including reactor kinetics and decay heat.
Turbine Engineering
Steam Turbine Condition Monitoring
Vibration Analysis
RLA Studies
Turbine Refurbishment services to enhance the performance
Computer Simulations
Computer simulations include the simulation of processes such as fluid flow, equipment performance, structural performance, combustion, optimum process design, heating, ventilation, air conditioning, and heating (HVAC), control room, and fire/fire protection.
Software expertise
Design Systems
INTERGRAPH-PDS
PDMS
INTOOLS
AUTOPLANT
INVENTOR
AUTOCAD
Analysis
CAEPIPE
CAESAR-II
Algor–PIPE
PLUS
STAAD.Pro
PVELITE
COMPRESS
Engineering
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