The effective siting and design are critical elements for a harmonious integration of new structures in the existing environment. The design must meet the functional needs, while respecting the aesthetic and environmental requirements.
We work closely with clients to ensure that their designs combine functionality with beauty, using innovative solutions that meet the current and future needs. Our commitment to excellent quality and a deep knowledge of νορμών and trends of the design is crucial to achieving maximum performance and aesthetic value to any project.
Topographical Diagram
Topographic chart is a comprehensive survey of the study, on which are imprinted with the accuracy required to the following:
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Geometric features, such as the shape and size of the area
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Any objects that are within the measured area
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The coordinates of the property, or to an independent (in arbitrarily defined system), or in a child GGRS ’87 (Greek Geodetic Reference System 1987)
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The behavior of the market (failure cover product)
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The allocation of available resources
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Data project schedule
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Topographical charts have applications mainly in studies of road construction and transportation projects, building studies, the GIS (Geographic Information Systems) and in studies of hydraulic works (water supply, sewerage, marine works, dams, etc.).
Factors for Preparing a Topographical Diagram
The factors considered for preparing a topographical diagram include:
(a) The use of the topographical diagram.
(b) The study area of the property.
(c) The requirements of the intended use for the study.
Elements of a Topographical Diagram
The topographical diagram includes:
– Full fix of the measurement area and the adjacent land of the wider region and set limits
– Table of coordinates and dimensions of the property
– Applications of planning legislation and in some circumstances the legal science
– Extract of a town-planning design, or trek scribble, and leaves the map area
At ΙΩΝΙΚΗ Engineering, we undertake the preparation of topographical studies based on the improvement of processes from field measurement collection to the implementation of the correctly produced technical section, determining safe agreements with the relevant decrees and the definition of contracts regarding the transactions of the property owner.
Design of Industrial Spaces
Our service for the Design of Industrial Sites offers complete solutions to businesses looking for a modern and effective structures for industrial activities.
Design of Industrial Spaces to High Performance
Customize Space:
We analyze the needs and the characteristics of the industry, offering tailor-made solutions in design space to optimize operations.
Circulation Of Materials:
We design optimal traffic flows of materials to save time and increase productivity.
Safe Space Management:
We focus on creating safe work environments, taking into account the provisions for the security of personnel and facilities.
Modernized Technologies:
We apply the most advanced technologies in the design for the optimum operation and efficiency of the plant.
Advantages
Our experts have specialized in the design of industrial sites, ensuring optimal functionality.
The application of innovative technological innovations for the modernisation of the plant.
With a focus on efficiency, we design spaces that promote productivity growth.
If you are seeking the design of an industrial space that meets the high demands of the market, please contact us to discuss your customized solution that fits your business. Innovation, expertise and efficient design are the key features of our service for the design of industrial sites.
At ΙΩΝΙΚΗ Engineering, with the comprehensive design study of the organization and operation of industry, we ensure absolute calculation and assessment of samples that explain the behavior of businesses within the markets in conjunction with their level of efficiency. The operation of the business is governed by the harmony of innovation, organization, communication, and the sense of security at all links of the production chain.
Urban Redevelopment Study
improvement of already existing or to be built area (square, commercial projects etc.).
Factors in Urban Redevelopment and Infrastructure Improvement Studies
Key elements of the Studies taken into account is the size of the area, the existing situation in the region, the type of use of the area and the environmental conditions and legislation.
Elements of the Urban Redevelopment and Infrastructure Improvement Study
The elements included in the studies are as follows:
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Plans for redevelopment - improvement of infrastructure (construction, landscaping etc.)
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Budget project
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Plans for sustainable development
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Study redevelopment area (green growth)
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A comprehensive plan for the development and improvement
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At ΙΩΝΙΚΗ Engineering, we undertake the complete execution of the study, design, and improvement of the area to enhance the quality of life for its users and the functionality of the outcome.
Study of Environmental Space Design
The study of the configuration of the environment of space is an important process that combines an artistic aesthetic with the functional needs of the space.
The main points of a study for landscaping are:
Collection Data:
Analysis of the existing environment.
Recording of natural and man-made elements.
Needs Analysis:
Interviews and collaboration with the client to determine their needs.
Design Guidelines:
Formulation of guidelines for the configuration of the environment.
Creation of Sketches and Proposals:
Graphic design preliminary sketch for the presentation of ideas.
More specifically, during the initial phase, there is a detailed analysis of the existing environment, with emphasis on the characteristics of the natural and anthropogenic environment.
In close cooperation with the customer, are interviews and analysis needs in order to fully understand the expectations and operational needs that must be accommodated. Then, set out guidelines that will guide the development of the area, taking into account both the functional and the aesthetic aspects.
The study of the configuration of the environment of space is an important process that combines an artistic aesthetic with the functional needs of the space.
Our services cover the full range of procedure locationfrom the initial analysis and study of the site until the final implementation of the projects. ”
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Team
The smooth and safe movement of transport is fundamental for the efficiency and sustainability of urban and metropolitan areas. The traffic studies and the improvements to road junctions and intersections is critical to ensure the harmonious coexistence of different modes of transport.
We work with the aim of improving the traffic of liquidity and the reduction of traffic congestion, by applying advanced technologies and analytical methodologies. Our commitment to the safety and proper traffic management is crucial for the creation of a sustainable and efficient transport network.
Study of input – output
The circulatory Connection is the drafting and design studies, road construction, studies of nodes and connections with properties (houses, shops, hotels etc.), labeled parts (landscapes, museums, institutions etc.) or road networks.
Factors of Traffic Connection
The factors considered for a study are:
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The type of installation, the size of this, as well as the traffic impact will cause
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Access management (type and number of vehicles entering the work)
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The face of the region which is defined by a minimum distance of
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Security measures by the competent service in case the plot has a face on a road at a national or provincial, respectively, or a specific distance from the junction with national grid
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Elements of the Traffic Association
The content of the study road construction shall be governed by the Instructions of Studies of Road Works of the General Secretariat of Public Works of the Y.IP.GOT it.I don'T. and from approved specifications bodies when required by the context of the contract (e.x. The.P.M.E.O)
The traffic connection study includes:
– Topographic Diagram of the area
– Study pathways and nodes, including the original design of roads and bridges, where it is necessary
– Study forensics and security
– Studies of Mechanical and Electric traffic association
The driving force behind traffic connections is the provision of the necessary infrastructure for the economic and technical development of the project, ensuring the best and easiest service for users and the project.
Improvement contribution to road
The study of improvement contribution tract is a crucial element for the development of safer, more efficient and sustainable road network. It is addressed to public bodies, organisations and individuals with the goal of improving the safety and functionality of road junction. The following describes the key elements and the main focus of such a study:
Collection and analysis of traffic data for understanding the trends, volumes of traffic and the bottlenecks in the road junctions.
Conduct a detailed assessment of the existing safety conditions, recognition of hazardous points and analysis of the causes of traffic accidents.
Treatment and suggestions for improvement plans, including the restructuring of road junction, improved signage, and the application of new technologies to increase safety and liquidity
Simulation and analysis of the impact of the proposed improvements in traffic flows and the behavior of the users.
Assessment of the implementation cost of the proposed improvements and analysis of the cost-benefit analysis, including the economic impact from the reduction of traffic accidents.
Advisory support to ensure compliance with the legal frameworks, policies, and procedures for the approval of improvement plans
Provide guidance and support during the implementation of the improvements, as well as monitoring to be carried out for the evaluation of the effectiveness of applications.
The study of the contribution of road contribute to the promotion of road safety, improve circulation, and strengthen the sustainability of the road network, through the application of specialized studies and the adoption of innovative solutions.
Traffic study
The traffic study is an integrated control mechanism and analytical process that aims at effective management and optimization of traffic conditions in urban and urban areas. It focuses on analysis, design and propose solutions to improve traffic flow, increase the safety of users and enhancing environmental sustainability. The main points to focus on in the context of such a study are the following:
Extensive collection of data on the movement, such as volumes of traffic, speeds, vehicle types, and observations of behaviour of drivers and pedestrians. Analysis of the data for understanding the current conditions and needs.
Definition of the main objectives of the study, such as improving safety, reducing congestion, and enhance the sustainability, based on the analysis of needs.
Use of advanced modelling tools for the simulation of various scenarios and the assessment of the effects of the proposed measures for improvement.
Development of proposals for the improvement of the traffic, including technical improvements, changes to the design of the road network, application of intelligent systems in traffic management and proposals for the strengthening of transport in a sustainable way.
Study of the impact of proposed solutions to the environment, with the aim of minimising the environmental impact and promote sustainability.
Development of a strategy for the implementation of the proposed measures, including the phases of implementation, cost estimation, and preparation for dealing with potential obstacles.
Definition of performance indicators and procedures for the regular monitoring and evaluation of the effectiveness of the implemented solutions.
The traffic study aims to promote a safer, more efficient and environmentally sustainable road network, through the application of scientific analyses and innovative solutions.
Study of traffic nodes
The study of traffic nodes is a specialized service that aims to analysis, design and improvement of the functionality and safety of traffic nodes, such as intersections, roundabouts, and road links. The correct management of these critical points can significantly improve the efficiency of the road network and to reduce accidents. Presented below are the key elements and the main objectives of such a study:
Collecting and evaluating data for the volumes of traffic, the traffic flows, and the performance of the traffic nodes under different conditions
Identify bottlenecks and analysis of the accident for the identification of risks and the development of strategies to improve safety.
Proposals for the restructuring and improvement of traffic nodes, such as the improvement of the signalling, the application of roundabouts, or the creation of specific stripe.
The use of sophisticated simulation models for the assessment of the effects of various plans to improve the traffic flow and safety.
Evaluation and integration of the needs of all road users, including drivers, pedestrians and cyclists, to ensure a holistic improvement
Making estimates of cost-benefit analysis for the determination of the economic feasibility of the proposed improvements.
Ensure that the proposals comply with the applicable standards and legislation for traffic engineering and security.
Provision of consulting services and training to local authorities and stakeholders for the effective management and maintenance of the improved traffic nodes.
Through the implementation of an integrated and multidimensional approach, the study of traffic nodes aims to improve the efficiency, safety and sustainability of the road network, providing practical and workable solutions to address the modern challenges in traffic engineering.
Traffic study
The study is an important field within the engineering transport, dedicated to the analysis, design and optimization of the systems of public transport. It aims to promote an efficient, accessible, and sustainable network of public transportation that serve ideally to the needs of society. Below is a summary of the key elements and objectives covering a traffic study:
Data collection and analysis on the current and future transportation needs of the population, with the aim of understanding the traffic patterns and the demand for public transport.
Assessment of the current efficiency and effectiveness of the network of public transport.
Development of proposals for improving the design of the network of public transport, including the revision of the routes, the frequency and capacity of services.
Design and upgrade of the stand, terminals and other infrastructure to improve the accessibility, safety and comfort of passengers.
Assessment of the costs of operation and maintenance of the network of public transport, as well as an analysis of the economic viability of the proposed improvements.
To encourage the use of public transport by improving the services, the promotion of policies to increase the attractiveness of sustainable transport and reducing dependence on the car
Integration of new technologies and innovative solutions for the improvement of the operation, security and passenger information, such as smart systems management services and mobile apps.
Development of measures to ensure the accessibility of public transport services for all, including persons with special needs, thus ensuring social equality.
Through a comprehensive and multidimensional approach, the study aims to develop and implement strategies that improve public transport, offering an efficient, sustainable and fair alternative in the individual motoring.
Our services provide total solutions covering from the study of entry and exit of vehicles at critical pointsuntil the configuration traffic nodes and the analysis of transport flows. ”
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Team
Euthymia Stagoni
Accountant –
In charge of the accounting office
e.stagoni@ioniki.net
+30 2541 20 00 28
The architectural design is the art and science of creating functional and aesthetically attractive spaces. At the heart of our services is the creation of architectural projects that combine innovation, sustainability, and practical usability.
Through architectural studies, photorealistic renderings, and interior design, we offer complete solutions that highlight every architectural idea. The studies of structural adequacy and the landscape design is also critical elements of our process, ensuring that every project is safe and harmoniously integrated into the natural environment.
Architectural study
The architectural design is based on the accurate depiction of a space, whether it is built or to be built. It is the means by which reflected the thoughts of an architect, engineer in the paper.
In architectural design, the architectural plan is used as the main tool through which it is expressed every idea and provided the information necessary to reach the project at the stage of construction and integration. The principles on which are based the architectural projects include:
- The functionality and the improvement of the conditions of comfort and performance in the workplace.
- The harmonious coexistence with the external environment and the inspiration that this engenders in people.
- The project exudes the purpose for which it was designed and constructed.
The architectural design includes the following stages:
included in the plot, the contours of all levels of the building, in detail all areas, schematic sections, a detailed checklist, indicative of three-dimensional visualization of construction etc.
information on the use of space and function.
are given information about the third dimension, i.e. the height of the space and the height of it's features.
presented the outline of the building, the shapes of the openings and construction materials.
of individual sections of the space, and architectural elements, which accompany the general plans.
Taken the integrated architectural design of buildings, commercial and industrial sites, with a rule and the goal of making the best possible use of the available space, the harmonious coexistence of the building with the natural and built environment and the specific needs and preferences.
Photorealistic Rendering
Photorealistic visualization is a three-dimensional depiction of buildings or other design objects with the help of a computer, with a faithful representation of materials, colors and lighting. The photorealistic depictions of internal and external design (interior – exterior design) have become necessary in today's age, as well as facilitate the understanding and improvement of the project. They also provide the ability to control the colors, materials and aesthetics of the project and facilitate the perception of construction as it really is.
The main axes of a φωτορεαλιστικής imaging is:
- The real needs imaging of the project
- The need for optical sensing for something that does not exist yet
- The improvements that can be made in the project
In this way it is possible a better understanding of your projects and achieve significant improvements in critical times.
Elements of photorealism
The elements of photorealism included the ability to see the design in three-dimensional form of large-analysis, enriched with light elements arising from the surrounding area, such as the sun, the electric lighting, the reflections and the lighting of the atmosphere.
Also plotted in the shadows resulting from the lighting, as well as the style of each surface. There is also the ability to move in space and to see in a realistic depiction of even the smallest detail of the design.
The photorealism is considered to be the bridge that unites the architectural drawings with reality, allowing the feeling of someone inside the project before you even start the construction.
Interior decoration
Interior design concerns the design of the interior of a building with the aim of aesthetics and the creation of original solutions with quality materials, irrespective of whether they belong to the traditional, classical or modern trend.
The factors of interior design that are taken into account are:
- The functionality of the space.
- The study of the existing or under the study area.
- The external environment.
- Materials.
- The requirements of the user.
- The use of the building.
Items included in interior decoration is the architectural drawings interior, plans, details (decorative elements that will enclose the surrounding area, etc.) and the photorealistic visualization.
Static analysis
The static studies are carried out the calculations and the preparation of plans of the building, board materials, specifications, materials, etc., necessary for the structural adequacy of a building.
The factors of a static study to be taken into account are:
- Regulation and legislative frameworks (Eurocodes, r & d & I & ΕΚΟΣ 2000, Hellenic load regulation, EVEN. LTD. etc.)
- The required opening service
- The type of body (metallic, conventional, promiscuous)
- The seismicity of the region
- The functionality of the building
- The dimensions, geometry of the under-construction space
- The type of soil foundation
The static analysis includes the issue of static calculations, technical report to the specifications of materials, construction drawings, drawings of details, the assumptions about the loads, the soil and the characteristic tendencies of the materials and the layout and calculations, which demonstrate the system of the body and the loads.
Study of structural adequacy
The study of structural adequacy refers to the analytical examination and the calculation of the strength and stability of the components of a building or other structure, ensuring that the structures are able to withstand the loads and stresses to which it will be submitted during the course of their use
The key factors of a study of structural adequacy are:
- The implementation of regulations and legislative frameworks governing the construction, such as the Eurocodes and other local and international regulations.
- The detailed analysis of the load, such as static, dynamic and seismic loads, which will be exercised in the structure.
- The definition of the type of entities (such as metal, conventional or σύμμικτοι bodies) and their suitability for a particular use.
- The evaluation of the seismicity of the region and its effect on construction.
- The study of the dimensions and geometry of the construction, as well as the morphology of the soil foundation.
The study of structural adequacy includes:
- The issue of static calculations, which contains the detailed calculations of the load and the strength of the structural elements.
- The technical report, which provides the specifications of the materials and the detailed requirements for the construction.
- The construction plans and detail plans, showing the layout and details of the construction.
Landscape design
The landscape design is a study for the analysis, evaluation and architecture design for garden, landscaping, landscaping projects and kipotechnikes applications, as well as the study for the restoration of degraded natural habitats and disturbed areas.
The factors of landscape design to be taken into account in a study of landscape design is the legislation on the environment, the aesthetics of the landscape, the kind of space to which you will be in the study for the landscape design, the morphology of the soil (in the case of a placement of plants is being studied for the ability to develop them in the ground) and the biological and ecological requirements of the materials.
The key elements of a study of landscape design are:
- Architectural drawings and earthwork.
- Topographic chart (design field).
- Study of small technical projects (items that will enclose the surrounding area, artificial lake, fountains, pavilions, etc.).
- Materials technology.
- Morphology and characteristics of plants.
Taken with a full preparation of all of the above-mentioned architectural studies, which make up a complete package of architectural solutions, which includes from initial design and architecture design to the photorealistic visualization, offering a full visual identification of a project.
In addition, the interior design highlights the functionality and aesthetics of the spaces, while structural studies and the study of structural adequacy ensure the durability and stability of the construction. Finally, the landscape design integrates harmoniously with the construction of the natural environment, creating a sustainable and aesthetically pleasing interaction between man and environment.
Our commitment to quality and innovation is the warranty for the ultimate success of any design. ”
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Team
Safety, reliability and efficiency of electrical systems are critical elements in the design and execution of any construction project. The electrical studies, we focus on ensuring that all the systems operate with the highest possible performance and comply with the strictest safety standards.
Through advanced analysis and detailed design processes, we cover the entire spectrum of electrical engineering, from the construction of the basic network to the implementation of complex installations. The continuous technical support and the use of leading technologies is guaranteed, insuring the correct operation and the long-term durability of its electrical system in any project.
Study of electrical installations
The study of the electrical installation concerns a study of the sizing, installation, control and handling of all of the electrical components, which serve the needs of electricity consumption. They are divided into studies electrical installations, strong and weak current.
The studies of electrical installations, strong currents are:
- Distribution network of low-or medium-voltage
- Lighting and power buildings
- Professional lighting
- Lighting outdoor spaces
- Correction of power factor cosφ
- Fundamental grounding
- Lightning protection
The studies of electrical installations patient's current concern:
- Security – alarm
- CCTV (closed-circuit television cameras and automatic video recording)
- Audio distribution
- Access control (access control)
- Installation of a video door, bell and maintenance
- Factors of pension design and construction of electrical installations
At ΙΩΝΙΚΗ Engineering we undertake the design and manufacture of all kinds of electrical installations in buildings, industries, handicrafts and workshops based on the following principles:
(a) our projects to be operational, to improve comfort and performance in the workplace
(b) The installation complies with the safety rules
(c) The installation is done by certified electricians
Evidence of electrical installations
The basic elements of an electrical installation study are the placement of distribution boards and the design of the installation according to the uses of each space, calculations of cable cross-sections and protective devices, and the design of single-line diagrams.
Study substation
The study substation is a critical process that ensures efficient, safe and sustainable management, and distribution of electricity. This process includes the detailed analysis, design and implementation of solutions for substations, tailored to the needs of each project.
Stages of implementation
This process starts with a detailed record of the requirements of the project and the analysis of the existing infrastructure. Focusing on efficiency and security, develop solutions incorporating the latest technologies and comply with national and international standards.
This is a process evaluation of the efficiency and reliability of the distribution systems of electricity. Carried out a detailed examination of the potential for improvement, with the aim of enhancing security and minimizing the energy losses.
A key factor for the safe operation of the substation is the assessment and management of risks. This includes the analysis of potential threats and the application of protection systems for the prevention of accidents and downtime.
Provided the necessary technical support at all stages of the study and the implementation of the project. From the initial design to the final execution, our experts offer consulting services to ensure the correct application of the standards and the achievement of the expected results.
This ensures that each project is not only compliant with the current standards, but also achieves superior performance by maximizing the reliability and efficiency of energy. These specialized activities are at the core of a successful strategy for the management of modern energy needs, ensuring the security and sustainability for future generations.
Building Energy Performance Study
In the case of existing buildings, an energy audit or a study of energy efficiency is carried out in the case of a license.
Factors to study the energy performance of buildings
Key elements considered in the study include:
- The climatic data of the area, the location and orientation of the building
- The use of the building (residential, offices, etc.)
- The coefficient of thermal transmittance of building materials
- The desired conditions of indoor environment (temperature, humidity, ventilation, lighting) per heat zone
- The performance of electromechanical systems that will be installed
- Data and assumptions for the calculation of the energy performance of the building in accordance with applicable Law
The data included in the efficiency study are as follows:
- Architectural design (volume, surface, orientation etc.)
- Specifications of structural elements and materials of the building (thermal characteristics)
- Documentation of the location and orientation of building for maximum utilization of the local climatic conditions
- Design of systems for the protection of the building
- Separation of thermal zones and non-heated spaces of the building
- Study of systems of heating, cooling, domestic hot water, ventilation, lighting and performance of these.
Study patients currents
The study of patients currents represents a vital process for the efficient and safe use of electronic systems and networks in various applications. From telecommunications to medical systems and the automation of buildings, the careful analysis and design of patient flows is critical for ensuring the reliability and functionality of systems
Initially, the process involves the detailed design of the network, including the selection of appropriate systems and components that meet the needs of each application. This is achieved through careful evaluation of the technical specifications and performance requirements.
: The process continues with the implementation of strategies to safeguard quality and safety, for the prevention of downtime and potential damage. Specially designed tests and measurements identify any weaknesses or problems before the final application.
Provided extensive technical support for the installation, operation and maintenance of the systems, ensuring the continued reliability and performance. Additionally, there are educational programs for the staff, with a view to the improvement of understanding and management of the systems of patient flows.
Recognizing that each project has unique requirements, develop personalized solutions that aim to achieve specific objectives and to meet the specific challenges.
The provision of services to the study of patient flows requires an ongoing commitment to quality, precision and innovation. With the application of the most advanced technologies and techniques, we ensure the smooth and efficient operation of the system, contributing to the reliability and security of the facilities and the applications to which they apply.
Study Cloud/Data Center
The studies on the development and optimization of infrastructure, cloud and data center hold a central role in supporting the growing need for digital services and data. From the provision of broadband access to the internet to the processing and storage of vast amounts of data, the design and the study of these infrastructures requires specialized knowledge and experience.
The process starts with a detailed analysis of the needs and objectives of the project, in order to determine the basic requirements regarding performance, security, scalability and availability. The design focuses on the selection of appropriate technologies and architecture that will ensure the flexibility and scalability of services.
A crucial factor in the design of data centers are energy efficiency and the reduction of the environmental footprint. Carried out detailed studies for the assessment of energy consumption and the implementation of solutions for increasing the efficiency and use of renewable energy sources.
The data security and protection from external threats is one of the most important elements of the study. Develop strategies for the implementation of advanced encryption methods, fire, filtering and detection systems intrusion, ensuring the full protection of the information.
The effective management of resources and the automation of processes are key elements for ensuring the smooth operation of the data center. With the use of modern management tools and mechanisms automation, enhanced performance and reduced the response time in cases of damage or needs expansion.
The design of the infrastructure must allow easy scaling, adaptive to the changing needs of users and the market. This is achieved through the application of models of cloud computing and the creation of a tyre architectures that support the smooth adding or removing resources.
enhanced performance and reduced the response time in cases of damage or needs expansion.
The design and implementation of modern infrastructure, cloud and data center requires a combination of specialized knowledge, technological experience and adaptability to the rapid developments of the digital world. With the application of advanced techniques and technologies, we ensure the reliability, safety and high performance of digital services, in response to the increased demands of the modern era.
Computer networks Study
In the world of computer science and information technology, the study of computer networks is one of the most critical and demanding procedures to support the smooth operation of the business and providing a high level of digital service. From the simple wired and wireless συνδεσμό laboratory computer until the construction of extensive and complex corporate networks, the need for a detailed study and design is undeniable.
The process starts with the analysis of the needs of the agency, specifying the requirements in communication, data and access to the internet. Also focus on the long-term objectives of the company to ensure the flexibility and scalability of the network.
The creation of an effective network architecture is critical to ensure reliability and performance. Included the design of the topology, the selection of the appropriate equipment networking and the configuration of communication protocols for the safe and efficient transmission of data.
The protection of the network from threats and attacks is of paramount importance. Apply encryption methods, physical and software security solutions, as well as advanced systems for monitoring and management access.
The efficient management of the network includes performance monitoring, tracing and troubleshooting, and automating procedures procedures for the reduction of human error and increase efficiency. in cases of damage or needs expansion.
The continuous evaluation of the performance of the network and the adaptation to changes in the needs of the company are necessary to maintain the effectiveness and scalability.
performance and reduce the response time in cases of damage or needs expansion.
In ΙΩΝΙΚΗ Engineering, we study electrical installations-driven finding the best solution for the customer's needs in relation to the energy savings, the functionality of space, and its economic potential.
Our experience in electrical engineering enables us to meet demanding needs, enhancing the safety and performance ”
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Team
The accuracy and innovation in engineering design is essential for the efficiency and sustainability of industrial and construction projects. The engineering studies that we offer cover a wide range of applications, the optimization of energy systems up to the development of innovative engineering solutions.
With an emphasis on analytical approach and practical application, we undertake the complete design, from the initial recording needs until the final implementation and testing of the systems.
Our experience ensures that each mechanical design meets the highest standards of safety and performance, providing stability and durability in construction and industrial facilities.
Our commitment to quality and technical excellence are the main factors that ensure the success of any engineering project, giving optimum functionality and service life at the facility.
Engineering studies
The engineering of a plant is a complex and multi-layered work that requires specialized knowledge and experience. This process covers the analysis, design and implementation of all engineering systems of a factory, for the purpose of efficient operation, energy optimization, security, and environmental sustainability.
The process starts with a detailed understanding of the operational needs of the plant, including the analysis of production processes, the flow of materials and the need for special systems (such as ventilation, cooling, heating).
The design includes the selection and determination of the appropriate equipment and systems that will be used, from compressors and pumps up the systems of ventilation and air quality management. Also included is the design of distribution networks (hydraulic, aerodynamic, etc.), as well as automation systems and control.
The optimization of energy consumption through the implementation of energy-efficient technologies and practices, such as the heat recovery and the use of renewable energy sources, is critical for the reduction of costs and the environmental footprint of the plant.
The design and implementation of mechanical systems must meet strict safety requirements and to comply with national and international regulations. This includes protection from potential hazards, such as fire, explosions and overheating of the system.
The efficient maintenance and management of engineering systems is crucial for ensuring the long-term efficiency and reliability. Required the development of a maintenance plan and the implementation of management systems that allow for preventive maintenance and rapid response in cases of damage.
The proper engineering of a plant requires constant evaluation and adaptation in developing technologies, the changes in the production processes and the new environmental and energy policies, thus ensuring the sustainability and competitiveness of the plant in the future.
Mechanical plant (Supervision of the maintenance of mechanical equipment)
The supervision of maintenance of mechanical equipment is a critical process that ensures the smooth running, efficiency and safety of the machines and systems in a variety of industrial, commercial, and construction applications. It requires a combination of technical experience, precise planning and a systematic approach.
The process starts with a detailed analysis of the mechanical equipment and the need for maintenance. This includes the assessment of the condition of the equipment, the history of the lesions and of the previous interventions, as well as the assessment of the risks associated with non-performance of maintenance.
Development of a strategic maintenance that focuses on both the preventive and corrective maintenance. The preventive maintenance is planned on the basis of normal time intervals or operating cycle of the equipment, while the corrective facing any unexpected damage
The use of modern systems for maintenance management (CMMS) is crucial for the efficient supervision and management of maintenance work. These systems provide valuable tools for the planning, recording, and analysis of maintenance work.
Continuous education and training of the personnel involved in maintenance is critical to ensure the efficient and safe execution of the work. The training includes both the technical training and information on safety practices..
The evaluation of the effectiveness of maintenance actions and the application of methods of continuous improvement is crucial. This includes the analysis of data, identification of margins for improvements, and the implementation of innovative solutions to increase the efficiency and reliability of the mechanical equipment
Through a systematic application of the above steps, the supervision of maintenance of the mechanical equipment can ensure the long-term efficiency and reliability of the systems, contributing to the improvement of productivity and the reduction of operating costs.
Study Of Thermal Insulation
The study of thermal – energy performance of buildings relates to the study of energy design in the building sector with the aim of improving the energy performance of buildings and the minimization of energy losses of the system.
Factors for Preparing Thermal Insulation / Energy Efficiency Studies of Buildings
In ΙΩΝΙΚΗ Engineering, drafting studies of thermal / energy performance of buildings, taking into account:
- Energy saving
- Climatic conditions
- Legislation and Energy Regulations (KENAK)
- Improve the life and performance in the field
- The elegance of the space
- Security restrictions
- The coefficient of thermal conductivity
- The surface and the layers of the component (from the outside to the inside), for which we calculated the coefficients of u
A study of the thermal / energy performance of buildings includes:
- Minimum limits of energy consumption
- Technical specification (boiler – burner, radiator, heater, solar, etc.)
- Energy Classification of Buildings (Energy Performance Certificate – EPC)
- Specifications thermal insulation
- Cost of heat loss
In ΙΩΝΙΚΗ Engineering, we have accredited energy auditors, who shall draw up studies with the light of the finding the best solution for the needs of the customer in relation to the energy savings, the functionality of the space, the economic opportunities and environmental protection.
Heating and Air Conditioning Study
The study of heating and air conditioning concerns the calculation, design, and installation of heating or air conditioning systems in residences, industries, commercial establishments and offices.
In ΙΩΝΙΚΗ Engineering, drafting a Study of Heating and air Conditioning, taking into account:
- The size of a building installation
- The ambient temperatures
- Technical specifications
- The comfort conditions and requirements of the user
- The elegance of the space
- The desired temperatures spaces
- Energy saving
- The environmental impact
In the Study of Heating and air Conditioning are included the technical specifications of insulating materials, construction drawings (layout, placement, etc.), the calculation efficiency and the cost of installation.
In ΙΩΝΙΚΗ Engineering, undertake the preparation of studies, heating / air-conditioning based on the functionality and the aesthetics of the space, the specific needs of each, in accordance with the standards which have been established by the competent bodies. The study is governed by the trilogy-Saving – Environment – Aesthetic.
Study of Heating Cost Distribution
This study pertains to the calculation of the participation percentage and cost of elevator usage as well as central heating expenses (operational and extraordinary) per residence, workplace, etc., in a building.
In ΙΩΝΙΚΗ Engineering drafting the study, taking into account the following:
- The number of housing – offices in the building
- The number of consumption heating
- The floor in which it is located
- The square footage of the space
- The rates of property
- Rates of pay
- Exceptional cases of work (painting staircase, materials, maintenance etc.)
Elements of the Heating Cost Distribution Study - Elevator
In the preparation of the Study contained the table of rates of charge, the calculation for the unit count of heating, the calculation of participation of any property of the building, the division of costs depending on the participation rate of the property.
In ΙΩΝΙΚΗ Engineering, we elaborate studies of distribution costs, driven by the feeling and the essence of law in charge of the co-owners. Each study is accompanied by consulting proposals for energy saving
Study ventilation
In the field of mechanical design, ensuring an effective ventilation system is a crucial element for the health, safety, and comfort of the users of building sites. The design and implementation of ventilation systems must meet strict standards and take into account the modern requirements for energy efficiency and environmental sustainability.
The process begins with an accurate understanding of the functional needs of the space, including the standards for indoor air quality, pollutant emissions, and the need for special handling of air in specific areas.
The design requires the development of a solution that satisfies both the functional and the energy requirements, including the selection of appropriate equipment, the configuration of the channel of ventilation and the integration of heat recovery systems for reduction of energy consumption.
The optimization of energy efficiency through the use of advanced technologies and the application of sustainable practices is a central aim. This includes the use of natural techniques of ventilation where possible, and the integration of automated management systems for the optimization of the operation of the system.
The safety and hygiene of ventilation is of paramount importance, with the design to take account of the requirements for cleaning, maintenance, and inspection of the systems, ensuring the elimination of the sources of pollution and the protection from biological hazards.
The successful implementation of a study of ventilation requires precise planning, organization, and management of the project, ensuring the timely and within budget delivery. The constant communication between all the actors involved and the regular inspection of the progress is crucial.
Through the detailed study and systematic application of engineering principles, construction services ensure the development of efficient, safe and sustainable ventilation systems, which contribute to improving the quality of life and productivity.
Water Supply Study
In the water supply study, the needs for water usage, irrigation, and special uses (laundries, dyeing facilities, etc.) are calculated, and the entire hydraulic network design is specified, including sanitary facilities.
Factors in Water Supply Study
In ΙΩΝΙΚΗ Engineering, drafting Study of the Water supply, taking into account the existing network and benefits from which will take the network, the type and size of establishment (tank etc.), the morphology of the soil (pressure due to altitude, etc.), the average speed, the pressure losses – friction factors and the types of water uses.
Elements of Water Supply Study
The elements included in the water supply study are as follows :
- Calculation of the cross sections for the net
- Study type tubing
- Construction drawings of that part of the network (length etc.)
- Kind and provision of receptor
- Calculation of the total required pressure input - output
- Technical study, calculation of materials
In ΙΩΝΙΚΗ Engineering, drafting studies of water supply-driven optimal solution to the economic and technical fields, with excellent quality of materials and recommend the appropriate specifications for the installation of the network.
A sewage study is the assessment for the calculation and design of the sewage network in residences, industries, commercial stores, and offices, aimed at the disposal of wastewater and stormwater.
Factors in Sewage Study
In ΙΩΝΙΚΗ Engineering, drafting Study of the Sewer system, taking into account the type of building, the number of population, the type and volume of waste and the existing sewerage network.
Elements of Sewage Study
The sewage study includes:
- General plan of sewerage sewage liquids, the services and the network of elimination of the storm
- Technical specifications materials sewerage
- Construction drawings
- Calculation of volume of rain
- Collection study
In ΙΩΝΙΚΗ Engineering, integrated design study drainage, ensuring the best possible way to the requirements of the implementation of the project and propose the best solution for installation, the size and the material specification, in order to ensure the proper flow of waste water
Sewage Study
Axle Loading Study
In the axle loading and stability study, calculations are made regarding the strengths, reactions, and behavior of the vehicle under load based on standard criteria.
These studies are required in cases of plugins, cranes, trailers, biaxially – a three axle truck etc and the addition of a crash – dumper.
Factors in Axle Loading and Vehicle Stability Studies
In ΙΩΝΙΚΗ Engineering, we're compiling the study, taking into account:
- The dimensions of the vehicle (surface, axle distances, etc.)
- The weight of the vehicle (gross etc.)
- The load capacity of all of the axles
- The maximum permissible weight load
- The full extent of the arm
The study includes:
- The calculations of the moments, which must be acceptable within limits
- The calculation of the stability of the vehicle (for example, behavior of a crane in the case of lifting etc.)
- The calculation of exposures
- The technical specifications of the construction of a vehicle
- The technical specifications for the existing materials, or for those that will be used
In ΙΩΝΙΚΗ Engineering, integrated design and development of the study, ensuring the best possible way on the application requirements and to ensure the safety and the issue of the licence on the basis of the standards that define it.
Elevator Study
An elevator study is the process in which the installation of an elevator is calculated and designed for the lifting of loads or human resources to serve users.
Factors in an Elevator Study
In ΙΩΝΙΚΗ Engineering, drafting study, elevator, taking into account:
- The type and use of the building
- The number of users
- The genre – installation dimensions (way of mounting, dimensions chamber and shaft etc.)
- Safety
- Power supplies (three-phase, single-phase)
- The payload and the machinery spaces
Elements of an Elevator Study
In the study, elevator included construction drawings (top view, side view, cross section), engineering design, technical specifications of materials and electrical study.
In ΙΩΝΙΚΗ Engineering, integrated design study, elevator, we recommend the optimal solution that connects you with the functionality of the installation with the elegance of the space.
Study sound insulation
A sound insulation study includes all the necessary calculations and designs to ensure noise protection and reduction, according to existing legislation and the needs of the user.
Factors in a Sound Insulation Study
In ΙΩΝΙΚΗ Engineering, drafting study sound insulation, taking into account:
- Limits set by the existing Legislation
- Type and use of the building
- Local elements (place etc.)
- The purpose of sound insulation (soundproofing airway, soundproofing entertainment centre, soundproofing from external factors, etc.)
- Daily acoustic measurements (intensity and quality of noise)
- The mapping of the existing acoustic environment
- The assessment of transmission and pressure noise
Elements of a Sound Insulation Study
A sound insulation study includes:
- Design of noise barriers
- Type of structural elements of the building for the installation of sound insulation
- Calculation of index of insulation (noise reduction without the transmission of the side streets)
- Issue of calculations with the behavior of the noise (pressure, frequency, intensity etc.)
- Absorption coefficients
- Insulation values that meet and exceed the requirements of the applicable Κτιριοδομικού Regulation
- Technical specifications sound-insulating materials
In ΙΩΝΙΚΗ Engineering, the design of the study sound insulation, we are able to achieve a full sound-absorbing protection, offering a satisfactory acoustic environment in the workplace.
Fuel/Natural Gas Study
A fuel/natural gas study involves the design for the installation of fuel and natural gas networks, from the gas meter outlet to the exhaust outlet, for residences, industries, commercial shops, and offices.
Factors in the preparation of fuel/natural gas studies
In ΙΩΝΙΚΗ Engineering, drafting studies of combustible gas / natural gas, taking into account:
- The needs of consumption
- The needs of heating and hot water
- Saving energy and space
- The use and the size of the building – industry
- The provisions ventilation
- The kidnapping of gas (καπναγωγοί, chimneys)
- Compliance with the rules on fire protection
Components of fuel/natural gas studies
A study of combustible gas / natural gas includes the issue of calculations, the technical specification of materials, construction drawings and floor plans that reflect the network and the facilities and the study fire protection installation.
In ΙΩΝΙΚΗ Engineering, we undertake a comprehensive study of knowing of the positives of the use of network combustible gas / natural gas (economy, ease-of-use, space-saving, reduced maintenance cost, environment-friendly) and presenting their installation through our projects.
Study of the network of compressed air
The study of the network of compressed air is critical to the efficient and safe operation in a variety of industrial, commercial, and construction applications. Compressed air is widely used for power tools, machinery, and various processes, making the reliability and efficiency of the system is extremely important.
The design process starts with the determination of the functional needs of the application, including the assessment of the required quantity and pressure of the air, the analysis of maximum consumption, and the assessment of the quality of air required for each application.
The design of a system of compressed air includes the selection of the appropriate source of production of air (compressors), distribution channels (channels and pipelines), filtering systems, and dehumidifiers to ensure adequate air quality, as well as storage solutions (storage containers) to ensure a steady supply.
Energy efficiency is critical, as the compressed air systems can be an important source of energy consumption. Measures such as the choice of compressor high-efficiency, the optimization of the distribution network for the reduction of losses, leakage, and application management and control systems can significantly reduce energy costs.
Safety is of primary importance in the design of systems of compressed air, with compliance to national and international standards and regulations. Included measures to protect it from overheating, ensuring the stability of the storage containers, and protection from toxic or flammable emissions
Maintenance is critical for maintaining the efficiency and reliability of the system. A maintenance plan must include regular inspections, cleaning, and replacement of filters and other component while the application management systems can help in monitoring the status and performance of the system.
Through the detailed study, design, and implementation of, the compressed air systems can provide efficient and secure solution for supporting a wide range of applications, enhancing the productivity and sustainability in the modern industrial and construction sector.
Relative
Team
Euthymia Stagoni
Accountant –
In charge of the accounting office
e.stagoni@ioniki.net
+30 2541 20 00 28
The protection from the fire and to ensure fire safety in buildings and industrial facilities is of vital importance for the safety of people and the preservation of property rights. Studies of fire safety that we offer are aimed in full compliance with national and international standards, incorporating the most modern technologies and methods of preventive protection.
Through detailed analyses and risk assessments, we identify and assess potential vulnerabilities, designing fire detection systems, fire-fighting and evacuation that enhance the security of the area. Our planning includes the preparation of plans for fire protection and the implementation of effective strategies
evacuation, improving the global response in the event of a fire.
Firefighting Study
The study of fire-fighting is an important and integral part of safety in any building or facility. This is an analysis that includes identifying and dealing with potential risks of a fire. The aim of the study is the development of a comprehensive action plan that will ensure immediate response and fire prevention.
A study of fire includes:
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Analysis of the structure and use of space
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Definition of fire hazards and potential sources.
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Assessment of the legal requirements and regulatory standards
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Design of the extinguishing system, including fire extinguisher, plumbing systems and fire fighting installations.
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Analysis of the performance of the systems and calculation of the required capacity
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Selection of the appropriate fire-fighting equipment and fire detection
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Connection of the fire-extinguishing system with central control system πυρόσβεσηςπλισμού fire fighting and fire detection
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Planning routes to avoid and discharge.
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Training of staff for the use of the equipment and dealing with fires.
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Operation testing and maintenance of fire-extinguishing system.
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Review of the draft fire on a regular basis to adapt to new requirements or changes in the environment.
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The process starts with a thorough check of the area and the fire hazards that may exist. The student evaluates the type of building, the type of activities performed in this, the potential sources of hazardous substances or materials, and the possible vulnerable areas. Based on this analysis, design the suitable fire-extinguishing system that will provide the maximum possible protection.
An important element of the service firefighting is the installation of the appropriate equipment. Depending on the needs of the site, may include fire extinguishers, systems, sprinkler systems, dehumidification, as well as automatic devices extinguishing gas. The scholar is responsible for the proper placement and installation of this equipment, taking into account the optimal locations and the appropriate operating conditions.
Apart from the installation, the service also includes the maintenance and regular inspection of the extinguishing system. The student performs scheduled inspections and tests in order to ensure the proper functioning of the equipment and its compliance with the safety standards
Overall, the fire service that offers a scholar is a key part of the preventive security measures, offering specialized solutions that enhance the safety and protection in any environment.
Fire Detection Study
The study of fire detection is an essential part of the preventive security measures in each building or facility. Its purpose is to ensure that the fire detection system operates effectively and that the users of the site will receive timely and effective warnings in the event of a fire.
A study in malaysia includes:
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Analysis of the space: an Evaluation of the structure of the building and facilities for the determination of the needs of fire detection systems.
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Design fire detection system: Selection and placement of suitable systems for the detection of a fire, such as smoke sensors, or temperature.
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Equipment installation: Installation and connection of sensors and other equipment fire alarm in the appropriate places in the building.
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Testing and verification: testing mode for the certainty that the fire alarm system is working correctly.
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Maintenance and repairs: Scheduled maintenance and upgrades of the equipment, fire detection for maintaining the effectiveness of the
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Staff training: staff Training on the use and the correct response in case of fire.
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Continuous monitoring: Analysis of data and reporting fire detection to improve the performance of the system.
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The process of the study fire detection starts with a detailed analysis of the space and the existing risk of a fire. The student examines the structure of the building, the nature of the activities carried out in this, the potential sources of hazardous substances or materials, as well as the possible vulnerable areas. Based on this analysis, planning the placement and type of sensor fire detection required to cover the space in the most effective manner.
An important factor in the study of fire detection is the selection of an appropriate type of fire detection system. This may include either a simple series of sensors connected to a central control unit, or a more advanced fire detection system with embeddable smoke sensor, temperature or even gas detection
After the selection of the appropriate system, the student proceeds to the installation of equipment at specific locations in the space, taking into account the optimal locations and the requirements of the fire alarm. During the installation, you need to carry out all the necessary checks and tests in order to ensure the proper functioning of the system.
Finally, the designer provide training to staff on the use and maintenance of the fire detection system, as well as on the basic security measures in case of fire. In this way, ensure the timely response to the potential risk situations and the protection of human resource and property
Fire Safety Studies
The fire safety study concerns the passive measures and active means taken from the design of a building/facility, depending on its use, with the aim of preventing the risk of fire occurrence and spread, as well as the immediate response to it.
Factors of pension studies fire safety / fire fighting
In ΙΩΝΙΚΗ Engineering, drafting studies of passive and active fire safety, taking into account the protection of the ανθρώπινής of life and avoidance of damage to property in the light of current legislation and the rules of safety.
Contents of the Fire Safety Study
– Issue for the study of Passive which is concerned with solving the classification subtest building, depending on the use, size and construction work that is going to take place.
– Designs of Passive measures, shall accompany the issue for the study of Passive, which marked the πυροδιαμερίσματα, and indicators of fire resistance, escape walkways and security lighting as well as the required exits.
– Issue for the study of Active in a sequence of Passive study includes the calculation and description through fire.
– Plans Active through fire-extinguishing accompany the issue of the study of Active in the which marked the locations of the required fire fighting media and other elements of the study.
In the Active Fire Safety Study, the following are included as applicable:
– Design and description of the system of Fire detection and fire warning.
– Drawings, calculations and a description of a Permanent Water supply Fire Network (E. Nests)
– Drawings, calculations and description of Automatic Systems for Fire suppression (Sprinklers).
– Drawings, calculations and System description total sprawling with aerosol
– Drawings, calculations and a description of Systems for local application.
The fire service that offers a scholar is a critical part of preventive measures of safety in any building or facility. Undertake the design, installation and maintenance of fire-extinguishing systems for the protection of the environment, of people and of the assets from the potentially devastating consequences of a fire.
Study Sprinkler
The study of the Sprinkler is a critical stage in the development of the fire-extinguishing system of a building or an installation. The purpose of this study is to determine the type, placement, and the details of operation of the system sprinkler in order to ensure effective response to a fire.
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Analysis of space and the use of
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Definition of critical areas that require protection.
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Assessment of the legislative requirements and regulatory standards
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Design of the system, including the types of sprinklers and their installation
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Calculation of pressure and water flow for better performance
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The selection and placement of equipment.
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Installation of system components
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Testing pressure and flow to ensure the operation
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Connection with the central control system, fire-fighting
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Training of personnel and provision of instructions for use
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Evaluation of the performance of the system and provide recommendations for improvements and maintenance.
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During the study Sprinkler, engineers fire safety perform a detailed analysis of the building or installation that is going to be equipped with the system sprinkler. This analysis includes the calculation of the dimensions of space, the potential sources of fire and of the critical areas that require special protection. Then, identify the types of sprinklers that will be used and their positions in space, taking into account the needs and requirements of the specific environment.
Another important element of the study Sprinkler is the estimation of the pressure and flow of water required for the operation of the system. On the basis of the specifications and the requirements of each environment, the engineers determine the appropriate equipment and the dimensions of the network of pipes and nozzles
In addition, the scholars perform tests and checks in the system to ensure that it works properly and is ready for use. This includes pressure testing, testing of flow and controls the operation of the sensor and the valve. If necessary, problems that arise during the course of the tests are corrected before the system was installed officially.
Overall, the study Sprinkler is critical for the successful installation and operation of the extinguishing system, ensuring that the protection against fires is efficient and reliable.
Automatic Gas Suppression Study
The study of automatic extinguishing gas is an important field of fire safety, which deals with the analysis, design and implementation of systems for extinguishing a fire with the use of gas.
The basic parts of a study of automatic extinguishing gas is:
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Analysis of the space and the environmental conditions
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Selection of the appropriate type gas burners
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Determination of the number and location of sensors detection
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Design of the pipe network and pump gas distribution
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Compliance with applicable statutory requirements and safety standards
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Installation of the system for fire-fighting and the sensor
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Testing and verification of the proper operation of the system
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Testing pressure and flow to ensure the operation
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Staff training on the use and maintenance of equipment
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Training of personnel and provision of instructions for use
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Design and implementation of preventive security measures and risk management
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Preparation of technical documentation and reports for the fire suppression system
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Continuous monitoring and maintenance of the system to ensure functionality
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Overall, the study of automatic extinguishing gas is an important instrument for the protection of people and assets from the risk of fire. With detailed analysis, professional design and installation in accordance with the specifications, it is possible to ensure the safety and well-being in different environmental contexts
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Relative
Team
Euthymia Stagoni
Accountant –
In charge of the accounting office
e.stagoni@ioniki.net
+30 2541 20 00 28
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A study of the viability
Η μελέτη βιωσιμότητας ενός επενδυτικού σχεδίου αποτελεί ένα κρίσιμο στοιχείο για την αξιολόγηση ενός επιχειρηματικού εγχειρήματος. Αυτή η μελέτη επικεντρώνεται στα οικονομικά κριτήρια της επένδυσης και παρέχει σημαντικές πληροφορίες για την λήψη αποφάσεων. Συνήθως, συνοδεύει το επιχειρηματικό πλάνο και περιλαμβάνει τα παρακάτω στοιχεία:
- Κόστος Επένδυσης:
Ανάλυση των συνολικών δαπανών που σχετίζονται με την υλοποίηση του σχεδίου, συμπεριλαμβανομένων των κτιρίων, του εξοπλισμού, των τεχνολογικών αναγκών, και άλλων σχετικών δαπανών.
- Έσοδα:
Προβλέψεις σχετικά με τα εκτιμώμενα έσοδα από την επιχείρηση, λαμβάνοντας υπόψη τη ζήτηση στην αγορά, την τιμολόγηση και άλλους παράγοντες.
- Έξοδα Λειτουργίας:
Εκτίμηση των καθημερινών εξόδων λειτουργίας, συμπεριλαμβανομένων των μισθών, των υπηρεσιών, των προμηθειών και άλλων λειτουργικών δαπανών.
- Κέρδη και Απόδοση:
Υπολογισμός των προβλεπόμενων κερδών και της απόδοσης της επένδυσης. Αυτό μπορεί να περιλαμβάνει τον υπολογισμό δεικτών όπως το ROI (Return on Investment), το NPV (Net Present Value) και το IRR (Internal Rate of Return).
- Ανάλυση Κινδύνων:
Αναγνώριση και αξιολόγηση των κινδύνων που ενδέχεται να επηρεάσουν τα οικονομικά αποτελέσματα του σχεδίου.
- Χρονοδιάγραμμα Επιστροφής Επένδυσης:
Εκτίμηση του χρόνου που απαιτείται για την επιστροφή των επενδύσεων και την έναρξη της κερδοφορίας.