We guarantee fast and discrete handling of all your business tasks. Our team of highly qualified employees is available day and night – because your satisfaction is our highest priority.
Our team consists of highly qualified and motivated professionals, who are all experts in their field. With many years of experience in the industry, they have the expertise to provide comprehensive services to our clients, by aporting a set of free design and calculation tools.
We train our team to stay at the peak of competitiveness by investing not only in their intrinsic development but also in their extrinsic growth. This blend of skills enables us to deliver exceptionally designed systems, ensuring the highest level of quality and assurance.
NEK 400 is updated regularly to incorporate new technologies, methods, and safety improvements, and is aligned with international standards like the IEC
We ensure that our proffessionals not only meet legal requirements but also foster a safe, sustainable, and productive work environment.
Ensure that photovoltaic systems;
Are safe and reliable (IEC 61730/NEK 400), meet electrical installation requirements (NEK 400 Part 7-712), support Norway’s environmental and sustainability goals (ISO 14001).
Feasibility assessment is a critical step in the process of planning and implementing a solar photovoltaic (PV) system. Here's a more detailed overview of what it entails:
Site Assessment: The feasibility assessment begins with a thorough evaluation of the proposed site where the solar panels will be installed. This involves examining the physical characteristics of the site, such as its location, size, shape, and topography.
Energy Generation Potential: Using sophisticated software tools like PV*SOL, engineers can simulate the energy generation potential of the proposed PV system. By inputting data such as panel specifications, location, orientation, and shading, the software calculates the expected energy output under various scenarios.
Economic Viability: Feasibility studies also evaluate the economic viability of the solar project. This involves estimating the installation costs, operation and maintenance expenses, available incentives or rebates, and the projected savings or revenue generated by the system over its lifetime.
Report and Recommendations: Based on the findings of the feasibility assessment, engineers prepare a detailed report outlining the technical, economic, and environmental aspects of the proposed solar project. The report may also include recommendations for system design, financing options, and next steps.
System design is a critical aspect of solar energy projects, ensuring that the photovoltaic (PV) system is optimized for performance, efficiency, and reliability. Here's a deeper dive into what system design entails:
Energy Needs Assessment: The first step in system design is to assess the energy needs of the client or project. This involves analyzing historical energy consumption data, understanding peak demand periods, and identifying specific requirements and priorities.
Component Selection: Based on the energy needs and site analysis, designers select the appropriate components for the solar PV system. This includes solar panels, inverters, mounting structures, wiring, and balance-of-system components.
Optimization Techniques: Designers employ various optimization techniques to maximize the energy output of the PV system. This may include optimizing panel orientation and tilt angle, minimizing shading effects, and selecting the most efficient PV modules and inverters.
Electrical Design: Designers create detailed electrical schematics and diagrams for the PV system, including the layout of solar panels, wiring connections, and electrical protections. They ensure compliance with relevant codes, standards, and safety regulations.
Structural Design: For rooftop or ground-mounted installations, designers develop structural designs and mounting solutions to securely install the solar panels while minimizing structural loads and potential impacts on the building or site.
Monitoring and Control: Designers may incorporate monitoring and control systems into the PV system to track performance metrics, detect faults or issues, and optimize operation in real-time.
Documentation and Permitting: Designers prepare comprehensive documentation, including technical specifications, drawings, and permit applications, to obtain regulatory approvals and ensure compliance with local building codes and regulations.
Client Collaboration: Throughout the design process, designers collaborate closely with clients to understand their needs, preferences, and constraints. They provide regular updates, seek feedback, and address any concerns to ensure that the final design meets the client's expectations.
Telephone: (47)920 32 646
E-mail: Info@odeico.com
Address: 18A St. Olavs gate, Tonsberg, 03110, Norway
Don't hesitate to reach out! We're here to assist you every step of the way.
Give us a call today to speak with one of our friendly representatives. Whether you're ready to get started or just exploring your options, we're here to listen and provide the support you need.
We are based in Tonsberg, Norway, however our reach is worldwide, we provide solutions to no matter what part of the world, if the project involves electrical efficiency or production.
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©Copyright. All rights reserved. Odeico. cbh@odeico.com. Carlos Hirsch
(Start-up purpose only)
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