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PROJECTS PORTFOLIO

Some of Our Latest Work

EXPLORE OUR CLIENT CASE STUDIES BELOW

SVA SCIENCE BLOCK

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NENE PARK ACADEMY

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FINGERPRINT CAMBRIDGE

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SVA Science Block

Project: Low-Energy Lighting and Suspended Ceiling Installation at SVA Science Block

Client: Sawtry Village Academy

Location: Huntingdon Cambridgeshire

Duration: JUL 23  -  AUG 23

Background: The Science Block at Sawtry Village Academy aimed to enhance energy efficiency and improve the overall learning environment. The project focused on upgrading the lighting system to low-energy options and installing a suspended ceiling lay-in grid in various classrooms and laboratories.

Challenges:

  1. Energy Efficiency: Implementing a low-energy lighting system required careful consideration of lighting levels, energy consumption, and maintaining suitable illumination for educational activities.

  2. Space Utilization: The installation of a suspended ceiling lay-in grid had to accommodate the varying needs of classrooms and laboratories, considering equipment, utilities, and ventilation.

  3. Aesthetic Enhancement: The new ceiling and lighting system needed to enhance the appearance of the spaces while remaining functional.

  4. Minimal Disruption: Work needed to be completed during school breaks to minimize disruptions to classes and activities.

Solution:

  1. Energy Audit: An energy audit was conducted to assess the lighting requirements and formulate a strategy for transitioning to low-energy lighting solutions.

  2. Lighting Plan: A comprehensive lighting plan was developed to ensure optimal illumination levels while reducing energy consumption. LED fixtures were chosen for their efficiency and longevity.

  3. Customized Ceiling Design: A lay-in grid suspended ceiling was chosen to provide flexibility for utility integration and easy access for maintenance, catering to the diverse needs of classrooms and laboratories.

  4. Collaboration: Close collaboration with school administrators, teachers, and students helped tailor the design to meet the unique needs of each space.

  5. Strategic Timing: The installation was carefully scheduled during school breaks to minimize disruptions to educational activities.

Results:

  1. Energy Efficiency: The transition to low-energy LED lighting significantly reduced energy consumption, leading to long-term cost savings for the institution.

  2. Improved Learning Environment: The optimized lighting levels created a more conducive learning atmosphere in classrooms and laboratories.

  3. Enhanced Aesthetics: The suspended ceiling lay-in grid improved the visual appeal of the spaces while accommodating utilities and fixtures.

  4. Flexible Utility Integration: The customized ceiling design allowed for the seamless integration of utilities such as air conditioning vents, speakers, and projectors.

  5. Minimal Disruption: The project's careful scheduling ensured that the installation process did not disrupt the school's regular operations.

Conclusion: The successful implementation of low-energy lighting and suspended ceiling lay-in grid at the SVA Science Block demonstrated a commitment to energy efficiency, aesthetics, and functional design. The upgraded lighting system enhanced the learning environment, while the customized suspended ceiling design provided practicality and flexibility. The project's success underscored the institution's dedication to creating sustainable and innovative spaces for its students and staff, supporting both educational excellence and environmental responsibility.

NENE PARK ACADEMY

Project: Suspended Ceiling Installation at Nene Park Academy

Client: Nene Park Academy

Location: Peterborough,Cambridgeshire 

Duration: Dec 22 - Jan 23

Background: Nene Park Academy sought to improve the aesthetics and functionality of their interior spaces. One key aspect was the replacement of outdated ceiling systems. The project aimed to install a suspended ceiling lay-in grid and a MF (Metal Framework) ceiling in specific areas of the academy.

Challenges:

  1. Coordination: The project required careful coordination with the academy's schedule to minimize disruption to ongoing classes and activities.

  2. Customization: Each area had unique ceiling requirements, demanding customized installation and accurate measurements.

  3. Technical Expertise: The installation of both suspended ceiling lay-in grid and MF ceiling demanded skilled labor and expertise in handling different ceiling materials.

  4. Safety: Ensuring the safety of students, staff, and workers during installation was a top priority.

Solution:

  1. Preparation: A thorough assessment of the areas was conducted to determine the exact ceiling specifications, including dimensions, materials, and design preferences.

  2. Scheduling: The installation was divided into phases to accommodate the academy's operational needs. Work was carried out during off-peak hours to minimize disruption.

  3. Customization: Tailored solutions were designed for each space, including the integration of lighting fixtures, air conditioning vents, and access panels within the ceiling structures.

  4. Skilled Workforce: A team of experienced contractors specializing in ceiling installations was engaged to ensure precise execution.

  5. Safety Measures: Safety protocols were strictly followed throughout the project. Adequate signage, barriers, and personal protective equipment were employed to maintain a secure environment.

Results:

  1. Enhanced Aesthetics: The newly installed suspended ceiling lay-in grid and MF ceiling greatly improved the overall look and feel of the academy's interior spaces.

  2. Improved Acoustics and Lighting: The new ceiling systems contributed to better acoustic insulation and facilitated the integration of modern lighting fixtures.

  3. Functional Spaces: The customized design allowed for the seamless integration of utilities while maintaining an organized and clean appearance.

  4. Minimal Disruption: The phased installation approach ensured that regular academy activities could continue with minimal disturbance.

  5. Positive Feedback: The academy administration, students, and staff expressed satisfaction with the enhanced environment and improved functionality.

Conclusion: The successful completion of the suspended ceiling installation project at Nene Park Academy exemplified effective project management, meticulous customization, and adherence to safety protocols. The project not only transformed the interior spaces but also positively impacted the overall learning and working experience within the academy.

FINGERPRINT
TECHNOLOGIES
CAMBRIDGE 

Project: Suspended Ceiling Installation at Fingerprint Technologies Cambridge

Client: Fingerprint Technologies Cambridge

Location: Cambridge, United Kingdom

Duration: SEPT 22 - OCT 23

Background: Fingerprint Technologies Cambridge aimed to enhance the functionality and aesthetics of their laboratory and office spaces. The project centered on the installation of suspended ceilings in both areas, addressing specific needs for improved acoustics, lighting, and utility integration.

Challenges:

  1. Laboratory Specifications: The laboratory required a ceiling solution that could accommodate specialized equipment and utilities while maintaining a controlled environment.

  2. Office Functionality: The office spaces needed a suspended ceiling that provided efficient lighting and improved sound insulation to foster a productive work environment.

  3. Technical Precision: Both areas demanded precise measurements, as well as seamless integration of ceiling-mounted equipment and fixtures.

  4. Safety Considerations: Ensuring the safety of lab personnel and office staff during installation while adhering to safety regulations was crucial.

Solution:

  1. Site Analysis: A detailed analysis of the laboratory and office spaces was conducted to understand the specific requirements for each area's ceiling.

  2. Customized Design: Tailored ceiling designs were created for the laboratory and office, accounting for utility integration, lighting placement, and equipment access.

  3. Material Selection: High-quality ceiling materials were chosen to ensure durability and effective insulation for the laboratory and office spaces.

  4. Technical Expertise: Skilled professionals with experience in laboratory and office installations were engaged to ensure accurate execution of the project.

  5. Safety Precautions: Comprehensive safety measures were implemented throughout the installation process, including appropriate signage and protective equipment.

Results:

  1. Laboratory Efficiency: The newly installed suspended ceiling in the laboratory allowed for the seamless integration of specialized equipment, ventilation systems, and utilities while maintaining a controlled environment.

  2. Enhanced Office Environment: The office spaces benefited from improved lighting, acoustics, and a more comfortable atmosphere, contributing to increased productivity.

  3. Optimized Space: The customized ceiling design enabled efficient use of space, with well-organized utilities and fixtures.

  4. Positive Feedback: Laboratory personnel and office staff expressed satisfaction with the upgraded ceiling systems, which positively impacted their daily operations.

Conclusion: The successful installation of suspended ceilings at Fingerprint Technologies Cambridge showcased effective planning, precise customization, and commitment to safety standards. The project resulted in enhanced laboratory functionality and improved office conditions, aligning with the company's goals of providing optimal working environments for its staff. The project's success contributed to Fingerprint Technologies Cambridge's reputation for maintaining high-quality facilities that support innovation and productivity.

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