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Do you need a top-tier Production Manager, Leader, or Technology Specialist? With extensive experience in Engineering recruitment, we specialize in filling a variety of technical positions, including engineers and production technicians to PLC programmers.

Connect with us to find the innovators who are pushing the boundaries of development.



The right expertise is the backbone of your business. Through our experience, network, and insights into industry-specific requirements, we position your organization to outperform the competition. 

With over a decade of experience matching candidates within the technology sector with visionary companies, you can feel confident in our commitment. We don’t stop searching until all parties are satisfied. The recruitment process is quality-assured, but the outcome is tailored – both to your business needs, continued development forward, and the candidate’s ambitions. 

We do not believe in quick fixes, we are passionate about creating long-term success and strong partnerships.



energy technology



Project-based manufacturing


“Recruiting within Engineering is like solving a perpetual puzzle, where each piece represents a unique skill. We’re not only searching for relevant expertise but also creative individuals who are shaping the future. 

Our deep understanding of technology, challenges, and future needs is key to hiring the right talent. Engineering is broad and inspiring field to work in. I am proud to be part of a continuous development, alongside companies and clients working towards a better tomorrow.” 
Artan Bitiqi, Recruitment Consultant at Nexer Recruit


“I am very pleased with the collaboration with Nexer Recruit. They have quickly demonstrated an understanding of the profile needed and delivered great candidates where we have struggled to find the right fit.
Professional work throughout from initiation to delivery and follow-up.” 

Fredrik Wikman, PQC Manager Nouryon




Process safety engineers play a crucial role in the industry by not only analyzing and identifying potential risks in industrial processes but also by developing and implementing effective preventive measures to minimize these risks. Their work extends beyond merely reacting to potential hazards; they are proactive in creating a safety culture within the company. 

To achieve this, process safety engineers conduct thorough risk analyses, evaluating each step in an industrial process to identify potential threats and weaknesses. By applying their technical knowledge and experience, they can then recommend and implement measures to minimize or eliminate these risks. This may include changes in design, the use of technological innovations, or the introduction of new safety protocols. 

Process safety engineers are also responsible for ensuring that the company’s processes and facilities comply with all relevant regulations and standards in the areas of safety and workplace health. Their expertise spans various industries and includes knowledge of specific safety requirements and standards applicable to different types of industrial processes. By staying updated on the latest guidelines and regulations, they ensure that companies not only comply with laws but also remain at the forefront of safety standards. 

Another important aspect of their work is to educate and inform staff about safety practices and protocols. By increasing awareness and understanding of safety requirements, they contribute to creating a safety culture where every employee is engaged in maintaining and improving safety within the company. 

In summary, process safety engineers are crucial for creating and maintaining a safe working environment within industrial processes. Their technical expertise and ability to anticipate and manage risks make them indispensable for companies striving to not only meet safety standards but also continuously improve and optimize their processes for increased safety and efficiency. 

PLC programmer

The PLC programmer plays a central role in industrial automation by creating and implementing programs for PLCs (Programmable Logic Controllers), which control and monitor various processes within the manufacturing and automation industries.

They are architects of automated systems and innovators enabling optimized operation and increased safety in production environments. 

A PLC programmer typically begins by carefully analyzing and understanding the specific requirements and functions of the system they are working with. By collaborating with engineers and other technical experts, they then develop tailored PLC programs to meet the unique needs of each production process. 

These programs are crucial for controlling machinery, regulating temperatures, monitoring pressures, and performing other tasks essential for smooth and efficient production operations. 
Safety is a priority for the PLC programmer, and they are responsible for implementing safety protocols and emergency procedures within PLC coding. By identifying and managing potential risks, they ensure a work environment that adheres to strict safety standards and minimizes the risk of accidents or faulty operation. 

Additionally, PLC programmers are often involved in conducting upgrades and maintenance of PLC systems to keep them in line with the latest technological advancements. They may also participate in integrating PLC systems with other automation platforms and monitoring systems to create unified and coordinated production processes. 

As technology in industrial automation is constantly evolving, PLC programmers are also expected to stay updated with the latest trends and advancements. Being aware of and understanding how new technologies, such as IIoT (Industrial Internet of Things) and cloud-based systems, can be integrated into PLC programming is crucial to meet the future demands for efficiency and adaptability. 

In summary, the PLC programmer is a key figure in the automation world, playing a central role in shaping and maintaining the digital backbone of modern industry. Their expertise and creativity are essential to ensure smooth and reliable production processes that meet high standards of efficiency and safety. 


A Maintenance Engineer plays a crucial role in ensuring that equipment and facilities in a workplace are in optimal condition and functioning correctly.
By strategically planning and regularly conducting maintenance and troubleshooting, as well as performing necessary repairs, they work diligently to minimize downtime and improve overall productivity. 

Their expertise ranges from monitoring and maintaining machinery to managing advanced technology and complex systems. Maintenance engineers are not only reactive in addressing issues; they are also proactive in identifying potential problems and preventing future disruptions. By analyzing data and conducting risk assessments, they can design effective maintenance strategies aimed at extending equipment life and optimizing its performance. 

An important part of Maintenance Engineers’ work is seeking opportunities for improvements and upgrades to existing equipment. By staying informed about the latest technological advancements, they can propose and implement changes to increase efficiency, reduce energy consumption, and meet changing production needs. 

Additionally, Maintenance Engineers may be involved in creating and implementing schedules for planned maintenance, which includes routine inspections and repairs. This ensures that machinery and facilities are kept in good condition over time, reducing the risk of unexpected issues and costly repairs.

The overall objective of a Maintenance Engineer is to create a reliable and efficient work environment by keeping equipment in top condition. Their work goes far beyond just solving problems; they contribute to shaping a proactive and sustainable maintenance strategy, which is crucial for the long-term success and profitability of the company. 


A Field Technician specializes in working directly in the field and performing various technical services for clients. Their work areas span a wide spectrum and include not only installations, maintenance, and repairs of various equipment or systems but also troubleshooting and providing user training to ensure correct and efficient use of the technology. 

When it comes to installations, Field Technicians are responsible for properly assembling and configuring various technical systems according to specific requirements and standards. Their expertise spans across different industries, and they are often experts in customizing and integrating technological solutions to meet the unique needs of the customer. 

Maintenance constitutes another crucial part of their work. It involves regular inspection and performance monitoring to prevent potential issues and ensure that the systems continue to operate at an optimal level. 

When technical challenges arise, Field Technicians are quick and efficient in troubleshooting to identify and resolve problems on-site. Repairs are a natural part of their role, minimizing downtime and interruptions in the customer’s operations.
In addition to technical measures, it is also often their responsibility to offer user training. They instruct and support users in using and maintaining the technical equipment, contributing to increased efficiency and long-term reliability. 

Field Technicians are often the face of the company and play a critical role in building and maintaining positive customer relationships. By providing professional service on-site, they contribute to strengthening the company’s reputation and increasing customer satisfaction. 

Field Technicians are key individuals who combine technical expertise, problem-solving skills, and on-site service directly with the customer. 


An R&D Engineer, where “R&D” stands for research and development, is a technical expert focused on driving and executing innovation projects. 

Their main responsibilities include leading and participating in various phases of the innovation process, from conceptualization and design to testing and implementation of new technologies, products, or processes. 

The R&D engineer plays a key role in identifying and evaluating technical problems and opportunities, as well as proposing and implementing innovative solutions. By being deeply engaged in research activities and following the latest trends in their field of expertise, they can contribute to keeping the company at the forefront of technology.

Their work often involves collaboration with interdisciplinary teams and external partners to maximize knowledge exchange and ensure a holistic approach to research and development. It may also include writing reports, presenting findings, and participating in technical discussions to ensure clear and open communication. 

The R&D engineer also has an important role in developing and improving existing products and processes. By evaluating performance, analyzing feedback, and integrating new technologies, they strive to increase efficiency and sustainability in the company’s products and services. 

Additionally, they are often involved in monitoring and ensuring compliance with industry standards and regulations in the research and development field. This requires them to be aware of and understand the legal and ethical aspects of their work and ensure that all activities are conducted in accordance with relevant guidelines. 

The R&D engineer is a key figure in technology and innovation. This work is crucial for promoting the company’s progress and competitiveness in the market by staying at the forefront of research and development in relevant expertise areas. 


A Mechanical Engineer is responsible for designing, developing, and maintaining various mechanical systems, products, and processes. Their expertise spans a wide spectrum, from large-scale industrial machinery to intricately detailed components. By applying mathematical and technical principles, they work diligently to solve problems and optimize the efficiency of mechanical systems.
In addition to focusing on design and development, a Mechanical Engineer may also be involved in project management, overseeing and coordinating various phases of the project. They also have knowledge of manufacturing processes and may be involved in product testing to ensure high quality and performance. 

Mechanical Engineers have the opportunity to work in various industries, including manufacturing, automotive, energy, and biotech. Their flexibility and broad technical knowledge make them sought after in different work environments where mechanical systems and innovation are central. 

In the constantly changing technological landscape, Mechanical Engineers are crucial for driving technical advancement and ensuring that mechanical systems maintain high standards. Their work ranges from creating concepts and prototypes to implementing solutions and monitoring performance over time. 


A Production Engineer is responsible for optimizing and monitoring manufacturing processes to ensure efficient and cost-effective production of goods. Their work involves analyzing production flows, identifying bottlenecks, and implementing improvements to increase productivity and reduce costs. 

Production Engineers often collaborate with various departments, including design, procurement, and quality control, to ensure a seamless and efficient production chain. By applying technical expertise and utilizing advanced production methods, they strive to optimize resource utilization and minimize production waste. 

Their role also includes monitoring machine performance, identifying technical issues, and performing maintenance actions to ensure continuous and reliable production. Production Engineers are also involved in implementing and evaluating new production methods and technologies to keep the company competitive and at the forefront of industry standards.

With a deep understanding of production processes and technical systems, Production Engineers can design and implement strategies to increase capacity and improve the quality of manufactured products. They also play a crucial role in ensuring compliance with standards and regulations within the production environment. 

Production Engineers are indispensable for manufacturing companies and play a central role in creating an efficient and competitive production environment. 

Their work spans a wide range of tasks, from solving technical problems and optimizing production flows to driving innovation and sustainability initiatives to ensure long-term success in the manufacturing industry. 


An Automation Engineer is a technical expert specializing in automating processes across various industries, including manufacturing, transportation, and energy. 

Their extensive scope of work ranges from development and design to installation and maintenance of automation systems. These systems can vary from simple machines and robots to advanced systems used in production facilities, warehouses, transportation infrastructures, and other industrial environments. 

The role of an Automation Engineer includes developing and implementing automated production lines, utilizing their technical expertise to create efficient and reliable processes. Additionally, they continuously monitor system performance and are adept at troubleshooting and problem-solving to ensure uninterrupted and optimal production. 

Programming PLC systems (Programmable Logic Controllers) is a central part of an Automation Engineer’s work. By writing and implementing code, they can control and regulate various machines and processes, which is crucial for automating and optimizing production flows. 

Furthermore, Automation Engineers are responsible for developing and implementing SCADA systems (Supervisory Control and Data Acquisition), which enable remote monitoring and control of automated processes.
By integrating various technologies and innovative solutions, they strive to create efficient and intelligent automated systems. 

Automation Engineers often collaborate with interdisciplinary teams and other technical experts to ensure a holistic approach to automation. Their work is crucial for optimizing and modernizing industrial processes, leading to increased efficiency, reduced costs, and improved safety across various sectors. 


A process engineer plays a crucial role as responsible for the development, optimization, and monitoring of production processes within industrial contexts. 

Their central function is to ensure that the production of goods and services occurs efficiently and meets high-quality standards.
With a focus on developing and implementing production processes, process engineers strive to increase efficiency while minimizing production costs.

One of their important tasks is to analyze and optimize existing processes. By carefully reviewing and modifying production flows, they aim to reduce costs, improve product quality, and increase production speed. This requires a deep understanding of production methods and technologies, as well as skill in applying their knowledge to achieve desired results. 

Process engineers act as collaborative partners with other professional groups, such as manufacturing engineers, production planners, operators, and maintenance personnel.

This collaboration is necessary to ensure a seamless production chain and to address any challenges that may arise during the process. Additionally, they closely interact with research and development departments to introduce and test new products and processes, requiring a combination of technical expertise and innovative thinking. 

By applying their specialized knowledge in production engineering and process optimization, process engineers have the opportunity to significantly improve a company’s competitiveness and profitability. 

Their work spans across various phases of the production cycle, from planning and implementation to ongoing monitoring and improvement. 

Overall, the process engineer is a key player in the industry, contributing to shaping and enhancing production processes to meet today’s demands for efficiency and quality. 


A projectmanager holds a central role where their responsibilities extend to planning, organizing, and overseeing all aspects of a project, from its inception to its completion. By leading and coordinating the project team, the project manager is the key to ensuring that the project is successfully executed within the specified timelines, budget, and specified goals. 

The first step for a projectmanager is to clearly define the scope, goals, and requirements of the project. This involves understanding and clarifying what the project is set out to achieve and what resources are needed to accomplish those goals. The projectmanager is also responsible for identifying and managing any risks that may arise during the project and implementing strategies to minimize their impact. 

Another crucial aspect of the projectmanager’s work is to allocate and manage resources effectively. This includes planning and monitoring all project activities, ensuring that the team has the right skills and tools to perform tasks, and distributing the workload evenly to ensure smooth project execution. 

Communication is a key component for the projectmanager. They must not only keep the team informed about the project’s progress but also communicate effectively with all stakeholders. This involves staying in touch with clients, collaborating with team members, reporting to management groups, and addressing any issues or challenges that may arise during the project. 

The project manager acts as a link between various stakeholders and is an expert in managing the dynamics between them. This includes understanding and managing expectations, resolving conflicts, and ensuring that all parties are informed and engaged in the project’s progress. 

Projectmanagers have a multifunctional role that requires a combination of organizational ability, communication skills, and strategic thinking. By effectively navigating through these responsibilities, the projectmanager can ensure that the project successfully achieves its goals and delivers value to all stakeholders.


A Project Engineer holds the overall responsibility for leading and coordinating various technical projects from inception to completion. These projects can span across different technical domains such as civil engineering, mechanical engineering, electrical engineering, or software engineering. Common tasks for a project engineer include: 

Planning and organizing the project: This involves creating detailed timelines, managing the budget, and allocating resources efficiently. The project engineer is responsible for ensuring that the project adheres to established guidelines and is executed within specified parameters. 

Development of technical solutions: Project engineers are involved in creating and developing technical solutions to meet project requirements. This includes identifying potential challenges and finding innovative ways to address them, requiring both technical expertise and problem-solving skills. 

Collaboration with different departments and teams: To ensure that the project successfully meets requirements and specifications, the project engineer must collaborate with various departments and teams. This may involve communication and coordination with experts in relevant areas to optimize project implementation. 

Updating project management and stakeholders: The project engineer is responsible for continually informing project management and other stakeholders about project progress and outcomes. This involves reporting and communicating clearly to ensure that all parties are informed and engaged. 

To become a Project Engineer, a degree in a technical field such as civil engineering, mechanical engineering, or electrical engineering is typically required. In addition to academic education, experience in project management and technical expertise in the relevant engineering domain are crucial for effecti


An applications engineer is an engineer specializing in developing, implementing, and maintaining software solutions for specific applications. Their scope of work involves collaborating with development teams to thoroughly understand customer needs, designing solutions, and efficiently implementing them. 

Applications engineers typically possess expertise in areas such as programming, databases, and system architecture. Their ability to translate customer requirements into practical and functional software solutions is crucial for creating products or services that meet and exceed expectations. 

In addition to being technical experts, applications engineers are also skilled communicators. They actively collaborate with various departments and teams, including development, design, and customer support, to ensure that every aspect of application development aligns with customer requirements and company goals. 

An applications engineer participates in the entire development cycle, from conceptualization and design to implementation and maintenance. By staying updated on the latest technology trends and methods within their expertise area, they can ensure they apply the most effective and innovative solutions for each unique project. 

Their work often spans across different industries and sectors, and they are involved in creating software solutions for everything from enterprise applications to specialized programs for specific use cases. Applications engineers
play a central role in driving technical innovation and enabling successful digital solutions for various business needs and customer requirements. 


A quality engineer plays a crucial role in production and manufacturing environments where they are responsible for ensuring and monitoring the quality of products or services. Their main task is to implement and maintain quality assurance processes to ensure that products meet or exceed expected standards and requirements. 

The quality engineer is involved in every step of the production cycle, from design and development to manufacturing and delivery. They work closely with production departments to establish and implement quality control methods and standards. By using various tools and techniques, they carefully monitor production processes to detect and rectify any deviations or defects. 

An important part of the quality engineer’s work is to analyze and report results from quality checks and inspections. They identify potential areas for improvement and develop action plans to ensure continuous quality improvement. Additionally, they are responsible for ensuring that the company’s quality policy and standards are met and that any deviations are handled properly.
The quality engineer also plays a central role in introducing and implementing new quality assurance methods and techniques. By staying updated on the latest trends in quality management and technological advances, they can ensure that the company remains competitive and that its products meet market expectations. 


A manufacturing engineer has the overall responsibility for planning and optimizing production processes to increase efficiency while reducing costs. By applying technical and mathematical principles, they conduct analyses to understand and improve production lines, material flows, and quality assurance systems. 

The manufacturing engineer closely collaborates with production personnel and other technical departments to develop and implement innovative processes and systems. Their work spans from introducing new manufacturing techniques, improving production methods, to ensuring that the company’s manufacturing processes align with industry best practices. 

In order to maximize efficiency, the manufacturing engineer continuously monitors production lines and identifies areas for improvement. This may involve optimizing production flows, reducing waste, or enhancing machine performance. By implementing strategies for continuous improvement, they aim to create a more cost-effective and resource-efficient production environment. 

An essential part of their work is ensuring high quality in manufactured products. This includes monitoring and enhancing quality assurance processes to meet or exceed customer expectations. The manufacturing engineer is also involved in addressing any production-related issues and preventing deviations. 

Additionally, the manufacturing engineer may participate in introducing and implementing new technology and automated systems to increase production capacity and improve production flexibility. By staying informed about the latest technology trends in the manufacturing sector, they contribute to keeping the company competitive.

In summary, the manufacturing engineer plays a central role in ensuring an efficient, cost-effective, and high-quality production process. Through their expertise and collaboration with various departments, they contribute to shaping and improving the company’s overall production strategy and performance. 


A laboratory technician has the overall responsibility for planning, designing, constructing, and maintaining laboratory equipment and environments. Their work spans across various phases, from the initial planning stage to the continuous monitoring of equipment performance. 

The lab technician may also conduct tests, analyses, and experiments to carefully evaluate and ensure that laboratory equipment functions properly and that the laboratory adheres to all relevant standards and guidelines. By ensuring quality and compliance with established norms, they contribute to creating a reliable and efficient research environment. 

In various sectors such as biotechnology, chemistry, medicine, and materials science, the laboratory technician closely collaborates with researchers and technologists. Their role involves supporting the research and development process by developing and optimizing laboratory processes and experimental methods. 

Safety and health are a priority for the laboratory technician. They monitor and manage safety risks in the laboratory, implement safety protocols, and ensure that all personnel follow safety regulations. By documenting results and processes, they also contribute to creating a transparent and well-documented work environment. 

The laboratory technician plays an active role in research and development projects. By participating in experiments and analyses, as well as documenting and reporting results, they can contribute to improvements and innovations in various fields. Their work supports the creation of new products and technologies that may be crucial for future scientific advancements. 

Continuous Improvement Engineer

A Continuous Improvement Engineer is responsible for constantly improving and optimizing processes and systems within an organization. 

They identify areas of concern, analyze data, and implement improvement solutions to enhance efficiency, reduce waste, and maximize the quality of products or services. They may also train staff in best practices and tools to support a culture of continuous improvement. 

We are ISO-certified

Our management system is certified according to ISO 9001 for Quality, ISO 27001 for Information Security, and ISO 14001 for Environment.

You can rest assured that we take quality very seriously.


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