“Sun, the ultimate and eternal source of energy has potential to overwhelm the global demand”
STEAG has undertaken a variety of projects for both the primary forms of Solar power generation i.e. concentrating solar power (CSP) and Photo Vultaic (PV).
The market scenario emerging after the launch of JNNSM clearly indicates that in case of CSP, developers prefer EPC-M model instead of EPC model that is followed in Conventional power plants. STEAG is fully geared to offer Owners Engineering services for EPC model as well as the EPC-M model.
In PV also several models are working that have various permutations and combinations of services offered under EPC. Some developers are entrusting the work directly to system integrators while others are appointing consultants to design and oversee the project. We are convinced that a thoroughly designed system with properly selected equipment goes a long way to ensure that the plant will give the desired output over its lifetime i.e. 25 years minimum.
Within CSP, STEAG is experienced in Parabolic Trough, Linear Fresnel and Solar Tower technologies both for standalone plants as well as their integration with conventional power plants.
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Site Identification
Pre Feasibility and Feasibility Study
Detailed Project Report
Tender specifications, bid evaluation
Detailed Engineering (For PV)
Review Engineering
Project Management
Commissioning Supervision
Operation and Maintenance Services
Modeling of Solar Plants
Lenders Engineering Service
Solar Plant Modeling using EbsSular
EBSSUlAR- The Solar module of Ebsilon®
STEAG offers services for modeling of complete Solar thermal power plants using its state of the art software Ebsilon® Professional. Ebsilon® is in use in over 100 units worldwide in different offline and online applications.
Solar field component for modeling a complete parabulic trough or linear Fresnel solar field.
Support of the common heat transfer fluids thermal oil, multen salt, water/ steam
Substantial solar collector component with standardized optical and thermal efficiency models
Components for modeling the effective characteristics (pressure drop, heat loss) of solar field header pipes
Components for modeling a direct thermal storage (two-tank multen salt storage) and toul-internal methods for annual yield calculations considering the charge and discharge process
Angle calculation optionally at global or local level to describe solar fields with different alignment and tilt in one single module
Parameters of all components can be specified directly or by use of a database. In many places, the user can define calculation formulae.
