CSS
We make the difference

R&D
CSS

We make the difference


R&D

At K-Ensol,
we constantly strive to
analyze and experiment to
provide the best technology
for your business.
K-Ensol lab is equipped with
a test bed for clean room development
to achieve the best designs through
structural analysis and different
equipment simulations.
We research and develop advanced
technologies, analyze their trends,
implement national projects, and
manage intellectual property rights.
We possess a complete range of
capabilities from mass production
design through benchmarking and
optimization design, and have been
pioneering challenges for the future of
room engineering through structural
analysis, fluid dynamics analysis,
6 Sigma DCX, load testing, efficiency
evaluation testing, plus prototyping
and more.
K-Ensol has developed modular
OAC, a modular construction method
for system ceilings, and established
extensive knowledge relating to design,
structural analysis, and interpretation
through a range of tools such as CAE.
Our exceptional test bed enables us
to predict performance in a proactive
manner and ensure superior quality.
At K-Ensol, we constantly strive to analyze and experiment
to provide the best technology for your business.
At K-Ensol, we constantly strive to analyze
and experiment to provide the best technology
for your business.
K-Ensol lab is equipped with a test bed for clean room development to achieve the best designs
through structural analysis and different equipment simulations.
We research and develop advanced technologies, analyze their trends, implement national projects, and manage intellectual property rights.
We possess a complete range of capabilities from mass production design through benchmarking and optimization design,
and have been pioneering challenges for the future of room engineering through structural analysis, fluid dynamics analysis,
6 Sigma DCX, load testing, efficiency evaluation testing, plus prototyping and more.
K-Ensol lab is equipped with a test bed for clean room development to achieve
the best designs through structural analysis and different equipment simulations.
We research and develop advanced technologies, analyze their trends,
implement national projects, and manage intellectual property rights.
We possess a complete range of capabilities from mass production design through
benchmarking and optimization design, and have been pioneering challenges
for the future of room engineering through structural analysis, fluid dynamics analysis,
6 Sigma DCX, load testing, efficiency evaluation testing, plus prototyping and more.
K-Ensol has developed modular OAC, a modular construction method for system ceilings,
and established extensive knowledge relating to design, structural analysis, and interpretation through a range of tools such as CAE.
Our exceptional test bed enables us to predict performance in a proactive manner and ensure superior quality.
K-Ensol has developed modular OAC, a modular construction method
for system ceilings, and established extensive knowledge relating to design,
structural analysis, and interpretation through a range of tools such as CAE.
Our exceptional test bed enables us to predict performance in a proactive manner
and ensure superior quality.
Research and
Development
Modular OAC
Background
Reinforced regulations regarding
field safety and quality control have
led to longer construction times for
installation and challenges
in site management.
Purpose
To reduce construction duration,
prevent safety incidents, and develop
modular OAC, which provides the same
capacity within the space of
out air control unit installations.
Effects
A reduction in the onsite workforce and
construction duration More consistent
quality through extended mass
production Safer worksites

RDDC Module

Background
Rapid growth in demand for
data centers has led to an increase in
need for data centers
that are easily built and expanded.
Purpose
To accelerate construction, save costs,
and improve energy efficiency
Effects
Optimized manufacturing processes
and modular designs Standardized
manufacturing of mass-produced
products Simplified field installation
process that reduces the cost
and duration for construction
Module LIFT
Photo of module lift
Omni-directional Alignment
and Movement
• Omni-directional Mecanum Wheel
   technology enables rotation
   and the operation of multiple units
   concurrently
• Lifts can be aligned and moved
   by the mm in a narrow space
Various Movements
• Upper platform can be detached
• Standard rising height is 7.0m
   (up to 18.0m in height can be
   manufactured)
• Precise movement along X, Y, Z axis
   using the upper jig
Interlocked and
Integrated Control
• The number of equipment able to
   connected can be freely changed
   from 2 to 10 units according to the
   on-site conditions
• Multi-interlocks enable transfer
   and lift of greater loads
Background
To reduce construction duration,
costs, and field workforce, and
to prevent safety incidents
Purpose
To reduce construction duration and
prevent safety incidents
Effects
Construction of system ceiling is
accelerated and its construction
efficiency is maximized.
System ceiling is easy to assemble,
and prevents safety accidents by
reducing the need of working at height.
Research and Development
Modular OAC
Background
Reinforced regulations regarding field safety and quality control have led to longer construction times
for installation and challenges in site management.
Reinforced regulations regarding field safety and quality control have led to longer
construction times for installation and challenges in site management.
Purpose
To reduce construction duration, prevent safety incidents, and develop modular OAC,
which provides the same capacity within the space of out air control unit installations.
Effects
A reduction in the onsite workforce and construction duration
More consistent quality through extended mass production
Safer worksites

RDDC Module

Background
Rapid growth in demand for data centers has led to an increase in need for data centers that are easily built and expanded.
Rapid growth in demand for data centers has led to an increase in need for
data centers that are easily built and expanded.
Purpose
To accelerate construction, save costs, and improve energy efficiency
Effects
Optimized manufacturing processes and modular designs
Standardized manufacturing of mass-produced products
Simplified field installation process that reduces the cost and duration for construction
Module LIFT
Photo of module lift
Omni-directional Alignment
and Movement
• Omni-directional Mecanum Wheel technology
   enables rotation and the operation of
   multiple units concurrently
• Lifts can be aligned and moved by the mm
   in a narrow space
Various Function
• Upper platform can be detached
• Standard rising height is 7.0m
   (up to 18.0m in height can be manufactured)
• Precise movement along X, Y, Z axis using the upper jig
Interlocked and Integrated Control
• The number of equipment able to connected
   can be freely changed from 2 to 10 units
   according to the on-site conditions
• Multi-interlocks enable transfer and lift of greater loads
Omni-directional
Alignment and
Movement
• Omni-directional Mecanum
  Wheel technology enables
  rotation and the operation of
  multiple units concurrently
• Lifts can be aligned and moved
  by the mm in a narrow space
Various Movements
• Upper platform can be detached
• Standard rising height is 7.0m
  (up to 18.0m in height can be
  manufactured)
• Precise movement along X, Y, Z
  axis using the upper jig
Interlocked and
Integrated Control
• The number of equipment able
  to connected can be freely
  changed from 2 to 10 units
  according to the on-site
  conditions
• Multi-interlocks enable transfer
  and lift of greater loads
Background
To reduce construction duration, costs, and field workforce, and to prevent safety incidents
Purpose
To reduce construction duration and prevent safety incidents
Effects
Construction of system ceiling is accelerated and its construction efficiency is maximized.
System ceiling is easy to assemble, and prevents safety accidents by reducing the need of working at height.
Construction of system ceiling is accelerated and its construction efficiency is maximized.
System ceiling is easy to assemble, and prevents safety accidents by reducing
the need of working at height.
Design &
Interpretation

CAE

CAE (Computer
Aided Engineering)
to assess performance of
design models and
address errors
Design and analyze products
using a variety of tools
Use simulations to predict a problem
and find a solution
Fluid and Heat & Mass
Transfer Simulation
Identification and
remediation of issues in
temperature and material
transfer based on the flow
of fluids including
convention and conduction
Analysis of indoor pollutants, airflow,
pressure distribution, temperature,
and humidity lead to an optimal design
by predicting and solving problems
Air Flow Simulation
Structural Analysis
Calculation of structural
displacement and stress
distribution based on
different load conditions,
and design feasibility
assessment
Interpretation of the load, strain, and
stress of the structure Design feasibility
assessment through structural analysis
and interpretation

Design & Interpretation

CAE

CAE (Computer Aided Engineering) to assess performance of design models and address errors
CAE (Computer Aided Engineering) to assess performance of design models
and address errors
Design and analyze products using a variety of tools
Use simulations to predict a problem and find a solution
Fluid and Heat & Mass Transfer Simulation
Identification and remediation of issues in temperature and material transfer
based on the flow of fluids including convention and conduction
Analysis of indoor pollutants, airflow, pressure distribution, temperature, and humidity
lead to an optimal design by predicting and solving problems
Air Flow Simulation
Structural Analysis
Calculation of structural displacement and stress distribution
based on different load conditions, and design feasibility assessment
Interpretation of the load, strain, and stress of the structure
Design feasibility assessment through structural analysis and interpretation

Testing & Assessment

Clean Equipment
Test bed
From FFU through WSS
and OAC, critical equipment
inside the clean room is
tested to implement flawless
clean room engineering.
Clean Equipment Test bed
• FFU • EFU • HEPA & ULPA Box
• HEPA & ULPA Filter • BFU • Panel Lighting
Clean Equipment Test bed
• WSS • OAC • Heating & Cooling Coil
Dry Room Test Bed
One of the best dry room test beds
in the country simulates all conditions
to predict the best performance and
ensure performance in actual
manufacturing.

Testing & Assessment

Clean Equipment Test bed

From FFU, WSS and OAC, critical equipment inside the clean room is tested to implement flawless clean room engineering.

From FFU through, WSS and OAC, critical equipment inside

the clean room is tested to implement flawless clean room engineering.

Clean Equipment Test bed
• FFU • EFU • HEPA & ULPA Box • HEPA & ULPA Filter • BFU • Panel Lighting
Clean Equipment Test bed
• WSS • OAC • Heating & Cooling Coil
Dry Room Test Bed
One of the best dry room test beds in the country simulates all conditions to predict the best performance
and ensure performance in actual manufacturing.
One of the best dry room test beds in the country simulates all conditions to predict
the best performance and ensure performance in actual manufacturing.
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