KhepriCoat is an anti-reflective coating developed by DSM that significantly increases the transmission of light through solar cover glass, boosting the efficiency and output of solar modules. It works by forming nano-pores within the coating through a unique process of "turning solid particles into pores". KhepriCoat can increase light transmission by up to 3% per side coated and module efficiency by 4-8%, outperforming other AR coatings on the market. It is also highly durable and resistant to weathering.
KhepriCoat™ is the best-performing solar anti-reflective coating technology in the solar industry - and well placed to become a major factor in that battle.
The Innovative KhepriCoat™ technology boosts the efficiency of both solar PV and thermal modules while remaining cost-effective, flexible and durable.
For me details, please send us email
Discover KhepriCoat™ anti-reflective coating technology for solar modules from DSM that is truly like no other.
This revolutionary technology increases the daily performance of solar Photovoltaic (PV) modules by up to 4% and solar thermal modules by up to 8%.
For more info please visit www.khepricoat.com or send us email to info.advancedsurfaces@dsm.com
Bifacial PV modules can generate energy from the front and rear side of a PV module. Unlike mono-facial modules, the rear
side of bifacial modules is lined with cells to capture reflected and diffused irradiation. The nameplate power of the
rear side of the modules is however less than the front side.
https://www.sgurrenergy.com/
KhepriCoat™ is the best-performing solar anti-reflective coating technology in the solar industry - and well placed to become a major factor in that battle.
The Innovative KhepriCoat™ technology boosts the efficiency of both solar PV and thermal modules while remaining cost-effective, flexible and durable.
For me details, please send us email
Discover KhepriCoat™ anti-reflective coating technology for solar modules from DSM that is truly like no other.
This revolutionary technology increases the daily performance of solar Photovoltaic (PV) modules by up to 4% and solar thermal modules by up to 8%.
For more info please visit www.khepricoat.com or send us email to info.advancedsurfaces@dsm.com
Bifacial PV modules can generate energy from the front and rear side of a PV module. Unlike mono-facial modules, the rear
side of bifacial modules is lined with cells to capture reflected and diffused irradiation. The nameplate power of the
rear side of the modules is however less than the front side.
https://www.sgurrenergy.com/
History is the evidence that it is the generation of thin film revolution,that's why we're able to reduce the dimension of electronic devices.In this study,we can find some particular application of thin film coating and their limitation.
The Comparison of Different type reflector materials using with Small Solar Thermal Dish Stirling 10 kW Power Plant for Thailand Soft-land and Poor Insolation Nature
CIGS Solar Cells: How and Why is their Cost Falling?Jeffrey Funk
My master's students use concepts from my (Jeff Funk) forthcoming book (Technology Change and the Rise of New Industries) to analyze the economic feasibility of CIGS (Cadmium Indium Gallium Selenide) Solar Cells. Improvements in efficiencies and reductions in cost per area (through new processes and increasing the substrate size) are causing steady reductions in the cost of electricity from them. See my other slides for details on concepts, methodology, and other new industries..
The presentation slides were submitted as a part of the Seminar and Technical Writing course at NIT Rourkela. The topic of the presentation is Lithography.
Development of Multi-functional Coatings(Anti-Reflective and Anti-Fogging)HasanAhmed139
Multifunctional nano-coatings with distinctive optical properties and super-wettability are extremely enthralling due to their wide array of applications. In our work, sequential dip-coatings have been applied, to glass slides, so as to develop anti-fog coating with high transmittance values of around 95%. Although the numbers are highly commendable; however, special care and variable coats are necessary with the intention to achieve the objective. Keeping this in mind, the first coating of single layer applied directly on glass slide, is that of Acid Catalyzed Silica Sol (ACSS) which serves the purpose of a binding layer between the glass slide and the successive coatings. Following that, three layers of small Solid Silica Nano-particles (SSNs) are applied subsequently over ACSS in order to provide the desired transmittance. Thereafter, a three layer coating of Dendrimer-like Mesoporous Silica Nano-particles (DMSNs) is applied over SSNs; to obtain a super-hydrophilic surface that serves as a highly wettable surface in specific and an anti-fog coating in general. The ratio 1: 3: 3, for coatings of ACSS, SSNs and DMSNs, was nominated as an optimal match for the predominant multifunctionality of the coating and any slight change in the ratio brought about a huge divergence in the corresponding character of the coating.
History is the evidence that it is the generation of thin film revolution,that's why we're able to reduce the dimension of electronic devices.In this study,we can find some particular application of thin film coating and their limitation.
The Comparison of Different type reflector materials using with Small Solar Thermal Dish Stirling 10 kW Power Plant for Thailand Soft-land and Poor Insolation Nature
CIGS Solar Cells: How and Why is their Cost Falling?Jeffrey Funk
My master's students use concepts from my (Jeff Funk) forthcoming book (Technology Change and the Rise of New Industries) to analyze the economic feasibility of CIGS (Cadmium Indium Gallium Selenide) Solar Cells. Improvements in efficiencies and reductions in cost per area (through new processes and increasing the substrate size) are causing steady reductions in the cost of electricity from them. See my other slides for details on concepts, methodology, and other new industries..
The presentation slides were submitted as a part of the Seminar and Technical Writing course at NIT Rourkela. The topic of the presentation is Lithography.
Development of Multi-functional Coatings(Anti-Reflective and Anti-Fogging)HasanAhmed139
Multifunctional nano-coatings with distinctive optical properties and super-wettability are extremely enthralling due to their wide array of applications. In our work, sequential dip-coatings have been applied, to glass slides, so as to develop anti-fog coating with high transmittance values of around 95%. Although the numbers are highly commendable; however, special care and variable coats are necessary with the intention to achieve the objective. Keeping this in mind, the first coating of single layer applied directly on glass slide, is that of Acid Catalyzed Silica Sol (ACSS) which serves the purpose of a binding layer between the glass slide and the successive coatings. Following that, three layers of small Solid Silica Nano-particles (SSNs) are applied subsequently over ACSS in order to provide the desired transmittance. Thereafter, a three layer coating of Dendrimer-like Mesoporous Silica Nano-particles (DMSNs) is applied over SSNs; to obtain a super-hydrophilic surface that serves as a highly wettable surface in specific and an anti-fog coating in general. The ratio 1: 3: 3, for coatings of ACSS, SSNs and DMSNs, was nominated as an optimal match for the predominant multifunctionality of the coating and any slight change in the ratio brought about a huge divergence in the corresponding character of the coating.
Let's dive deeper into the world of ODC! Ricardo Alves (OutSystems) will join us to tell all about the new Data Fabric. After that, Sezen de Bruijn (OutSystems) will get into the details on how to best design a sturdy architecture within ODC.
LF Energy Webinar: Electrical Grid Modelling and Simulation Through PowSyBl -...DanBrown980551
Do you want to learn how to model and simulate an electrical network from scratch in under an hour?
Then welcome to this PowSyBl workshop, hosted by Rte, the French Transmission System Operator (TSO)!
During the webinar, you will discover the PowSyBl ecosystem as well as handle and study an electrical network through an interactive Python notebook.
PowSyBl is an open source project hosted by LF Energy, which offers a comprehensive set of features for electrical grid modelling and simulation. Among other advanced features, PowSyBl provides:
- A fully editable and extendable library for grid component modelling;
- Visualization tools to display your network;
- Grid simulation tools, such as power flows, security analyses (with or without remedial actions) and sensitivity analyses;
The framework is mostly written in Java, with a Python binding so that Python developers can access PowSyBl functionalities as well.
What you will learn during the webinar:
- For beginners: discover PowSyBl's functionalities through a quick general presentation and the notebook, without needing any expert coding skills;
- For advanced developers: master the skills to efficiently apply PowSyBl functionalities to your real-world scenarios.
Search and Society: Reimagining Information Access for Radical FuturesBhaskar Mitra
The field of Information retrieval (IR) is currently undergoing a transformative shift, at least partly due to the emerging applications of generative AI to information access. In this talk, we will deliberate on the sociotechnical implications of generative AI for information access. We will argue that there is both a critical necessity and an exciting opportunity for the IR community to re-center our research agendas on societal needs while dismantling the artificial separation between the work on fairness, accountability, transparency, and ethics in IR and the rest of IR research. Instead of adopting a reactionary strategy of trying to mitigate potential social harms from emerging technologies, the community should aim to proactively set the research agenda for the kinds of systems we should build inspired by diverse explicitly stated sociotechnical imaginaries. The sociotechnical imaginaries that underpin the design and development of information access technologies needs to be explicitly articulated, and we need to develop theories of change in context of these diverse perspectives. Our guiding future imaginaries must be informed by other academic fields, such as democratic theory and critical theory, and should be co-developed with social science scholars, legal scholars, civil rights and social justice activists, and artists, among others.
Accelerate your Kubernetes clusters with Varnish CachingThijs Feryn
A presentation about the usage and availability of Varnish on Kubernetes. This talk explores the capabilities of Varnish caching and shows how to use the Varnish Helm chart to deploy it to Kubernetes.
This presentation was delivered at K8SUG Singapore. See https://feryn.eu/presentations/accelerate-your-kubernetes-clusters-with-varnish-caching-k8sug-singapore-28-2024 for more details.
JMeter webinar - integration with InfluxDB and GrafanaRTTS
Watch this recorded webinar about real-time monitoring of application performance. See how to integrate Apache JMeter, the open-source leader in performance testing, with InfluxDB, the open-source time-series database, and Grafana, the open-source analytics and visualization application.
In this webinar, we will review the benefits of leveraging InfluxDB and Grafana when executing load tests and demonstrate how these tools are used to visualize performance metrics.
Length: 30 minutes
Session Overview
-------------------------------------------
During this webinar, we will cover the following topics while demonstrating the integrations of JMeter, InfluxDB and Grafana:
- What out-of-the-box solutions are available for real-time monitoring JMeter tests?
- What are the benefits of integrating InfluxDB and Grafana into the load testing stack?
- Which features are provided by Grafana?
- Demonstration of InfluxDB and Grafana using a practice web application
To view the webinar recording, go to:
https://www.rttsweb.com/jmeter-integration-webinar
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
State of ICS and IoT Cyber Threat Landscape Report 2024 previewPrayukth K V
The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
Expansion of bot farms – how, where, and why
In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
Download the full report from here:
https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
Kubernetes & AI - Beauty and the Beast !?! @KCD Istanbul 2024Tobias Schneck
As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Software Delivery At the Speed of AI: Inflectra Invests In AI-Powered QualityInflectra
In this insightful webinar, Inflectra explores how artificial intelligence (AI) is transforming software development and testing. Discover how AI-powered tools are revolutionizing every stage of the software development lifecycle (SDLC), from design and prototyping to testing, deployment, and monitoring.
Learn about:
• The Future of Testing: How AI is shifting testing towards verification, analysis, and higher-level skills, while reducing repetitive tasks.
• Test Automation: How AI-powered test case generation, optimization, and self-healing tests are making testing more efficient and effective.
• Visual Testing: Explore the emerging capabilities of AI in visual testing and how it's set to revolutionize UI verification.
• Inflectra's AI Solutions: See demonstrations of Inflectra's cutting-edge AI tools like the ChatGPT plugin and Azure Open AI platform, designed to streamline your testing process.
Whether you're a developer, tester, or QA professional, this webinar will give you valuable insights into how AI is shaping the future of software delivery.
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
2. KhepriCoat®
2
Boost module efficiency
Maximize light transmission by minimizing reflection
Minimum reflection, maximum
transmission
Wherever glass meets air, about 4% of the
light hitting the glass at a perpendicular
angle is reflected. And that percentage rises
steeply as the light’s angle of incidence
increases. Obviously, for solar energy
systems, reflected light represents a wasted
opportunity. KhepriCoat®
minimizes this
effect. In fact, it delivers a record-breaking
performance in terms of light transmission,
outperforming all other AR coatings on the
market today. Plus, it is mechanically robust
and highly durable – essential properties
for this outdoor application.
Why KhepriCoat®
is different
AR coatings – turning particles into pores
KhepriCoat®
is a unique technology,
developed and patented by DSM. To achieve
this breakthrough, DSM has turned the
structure of traditional nano-porous sol-gel
coatings “inside out”, by turning solid
particles into light-transmitting nano-pores.
It is this structure that enables KhepriCoat®
to deliver a unique combination of
mechanical and optical properties.
Traditional coatings
The cost price of solar panels is under
constant pressure. As a result, when it
comes to AR coatings, manufacturers must
use single-layer systems to remain cost-
effective. Whilst traditional single-layer AR
coatings can be applied in a single-step
process, they are limited in the optical
benefits they can deliver, due to the way
they are structured. Traditional single-layer
AR coatings consist of solid silica nano-
particles “glued” together with a binder
so that the spaces between the particles
act as nano-pores (see figure 1). Use too
much binder, and this reduces the nano-
porosity – and thus the AR performance
– of the coating. Use too little binder, and
this leads to poor mechanical strength and
low durability. What’s more, the structure’s
open surface (see figure 1) makes the
silica layer of the coating vulnerable to
hydrolysis when exposed to extreme
weather conditions. And this can cause a
sharp deterioration of both the optical and
mechanical properties.
Over recent years, global demand for sustainable energy has grown steadily – and is
certain to continue growing. As a result, solar energy systems will play an increasingly
central role in the energy economy of the future. And as the technology becomes more
efficient, their role will become even more critical. To help boost the price/performance
ratio of solar energy systems, DSM is developing new breakthrough technologies –
technologies such as KhepriCoat®
. Set to contribute significantly to the hunt for grid parity,
KhepriCoat®
is the best-performing anti-reflective coating technology for solar cover glass
on the market. By transmitting more light, it boosts module efficiency significantly.
Advantages at a glance:
• KhepriCoat®
maximizes light transmission by minimizing reflection.
• KhepriCoat®
is tough, durable and easy to clean.
• KhepriCoat®
adds significant value by improving the price/performance ratio,
thus lowering the cost/Wp.
• KhepriCoat®
can be used on both rolled (patterned) and float glass, and can be
applied on one or both sides of the glass.
• KhepriCoat®
can be used in a wide range of solar applications, including solar
thermal modules, crystalline-silicon modules and thin-film photovoltaic modules.
• KhepriCoat®
can be applied using a range of deposition technologies, such as
roll, spray, slot-die and dip coating.
• KhepriCoat®
does not need an additional curing step if the glass is tempered.
3. 3 KhepriCoat®
DSM uses core-shell particles that have a polymer
core and a silica-based shell. In the coating stage,
a 100-150 nanometer layer of these particles is
deposited on the surface of the glass. The
spaces between the core-shell particles are at the
same time filled with a modified silica binder.
The binder immediately forms a solid network
between the core-shell particles. During the
curing step, the polymer cores of the particles are
removed, leaving a glass layer with a high internal
porosity (figure 2).
Furthermore, because the coating layer and its
glass substrate have similar compositions, the
adhesion of the coating layer to the glass surface
is excellent.
The optimized nano-pore/binder ratio ensures
KhepriCoat®
delivers both outstanding optical
and mechanical properties. And because it has a
smooth, “closed” surface (see figure 3), the
risk of hydrolysis is sharply reduced, enabling
KhepriCoat®
to withstand extreme weather
conditions and making it ideal for solar-cell
cover glass. In addition, this prevents dirt from
penetrating the coating’s surface, making it very
easy to clean.
Why KhepriCoat®
is different
AR coatings – turning particles into pores
KhepriCoat®
avoids this trade-off between optical and
mechanical properties by turning the structure of the coating
inside out. Instead of being formed in the spaces between
solid nano-particles, the nano-pores in KhepriCoat®
are
actually hollow particles.
Binder
Solid silica particles
Glass substrate
Figure 1: The structure of a traditional sol-gel nano-porous AR coating
Coating layer
(100-150 nm)
Glass substrate
Figure 2: The structure of a single layer of KhepriCoat®
Figure 3: SEM picture of KhepriCoat®
showing
the closed modified silica surface and high
proportion of nano-pores
Coating
200 nm
4. KhepriCoat®
4
Breaking records in light transmission
Make huge gains when the sun is high…
…and even larger gains when the sun is low
And when the light’s angle of incidence is not
perpendicular, the average gain in transmittance can
be as high as 8% per coated side (see figure 6).
Leading to larger energy yields
The increase in light transmission leads to a
comparable rise in the energy yield of the solar
module. In fact, the increase in a module’s output
can exceed 20%, especially at low angles of
incidence ( figure 7).
In practice, the actual improvement in energy
yield depends on several parameters: for
example, on the type of cover glass, on the type
of solar cell and on the local cycle of the sun. The
typical daily improvement in module efficiency
will be in the range of 4% for PV modules and
6-8% for solar thermal modules.
Solar cover glass that is coated with KhepriCoat®
will transmit, on average, around 3% more,
per coated side, of the light hitting it at a perpendicular angle of incidence, see figure 4 for
single and double sided coated float glass and figure 5 for patterned glass.
Figure 7: Angle dependent output gain of modules coated with KhepriCoat®
Figure 6: Comparing the average angle-dependent gain in transmittance
of 4 mm low-iron float glass when either uncoated or coated with
KhepriCoat®
on both sides.
Figure 5: Transmittance spectra of 3.2 mm rolled (patterned) glass
(uncoated, single and double sided coated with KhepriCoat®
)
Figure 4: Transmittance spectra of 3.2 mm low-iron float glass (uncoated,
single and double sided coated with KhepriCoat®
)
90
91
92
93
94
95
96
97
98
99
100
400 500 600 700 800 900 1000 1100
Uncoated glass
Single sided coated glass
Double sided coated glass
89
90
91
92
93
94
95
96
97
98
99
100
400 500 600 700 800 900 1000 1100
Influence of KhepriCoat®
on the transmittance of rolled glass
Wavelength [nm]
Transmittance[%]
Influence of KhepriCoat®
on the transmittance of float glass
Wavelength [nm]
Transmittance[%]
Uncoated glass
Single sided coated glass
Double sided coated glass
90
91
92
93
94
95
96
97
98
99
100
400 500 600 700 800 900 1000 1100
Uncoated glass
Single sided coated glass
Double sided coated glass
89
90
91
92
93
94
95
96
97
98
99
100
400 500 600 700 800 900 1000 1100
Influence of KhepriCoat®
on the transmittance of rolled glass
Wavelength [nm]
Transmittance[%]
Influence of KhepriCoat®
on the transmittance of float glass
Wavelength [nm]
Transmittance[%]
Uncoated glass
Single sided coated glass
Double sided coated glass
0
2
4
6
8
10
12
14
16
18
20
50
55
60
65
70
75
80
85
90
95
100
80 70 60 50 40 30 20 10 0
Transmittancegainrelativetoreference(%)
Averagetransmittance370-800nm[%]
Angle of light incidence [degrees]
uncoated glass
AR-coated glass
Relative transmittance gain
(right axis)
Relative transmittance gain of double sided glass coated with KhepriCoat®
vs uncoated glass
0
5
10
15
20
25
90 75 60 45 30 15 0
%Powergain
Angle of light incidence (degrees)
Power output gain (%) of modules with KhepriCoat®
coated glass vs
uncoated reference modules as a function of angle of incidence
5. 5 KhepriCoat®
Add proven value to your products
IEC 61215) and to abrasion-resistance tests.
KhepriCoat®
surpassed all test criteria, with
only minor changes in transmission being
observable following these tests.
Suitable for cSi and thin-film modules
By optimizing the coating’s thickness, its
properties can be tailored to suit a variety of
different module types, including both wafer-
based and thin-film modules.
Apply KhepriCoat®
on one –
or both – sides
One-sided coatings of KhepriCoat®
can be
applied using various coating technologies,
such as roll coating, spray coating and
slot-die coating.
In the solar glass industry, roll coating is the
most commonly used deposition technology
for AR-coatings. KhepriCoat®
can be applied
in both the forward and the reverse coating
mode. At its Application Technology
Development Center in The Netherlands,
DSM has a commercial-scale roll coater that
it uses during product development and for
producing samples for customers (figure 8).
In addition, DSM has adapted existing slot-
die-coating technology for the high-speed
deposition of optical coatings on rigid
substrates. This new system can even carry
out in-line coating at speeds as high as 20
meters per minute. Using this technology,
DSM has achieved a coating thickness of
100–150 nm with a thickness tolerance of
just ± 2 nm. Patents are pending for this
process, and a pilot line is available for
customer trials at DSM (see figure 9).
When it comes to solar-thermal
applications, AR glass is usually coated
on both sides. A two-sided coating of
KhepriCoat®
can be applied using standard
dip-coating equipment, or by using a
single-sided coating process to apply each
layer separately in turn.
The best light transmission
The strongest proof that KhepriCoat®
is the
best AR coating available today is that it was
used by independent research institute ECN
to help set a new world record for conversion
efficiency in multi-crystalline solar panels.
DSM can enable you to break your own
record, by helping you to optimize your
KhepriCoat®
coatings to match the absorption
spectrum of the specific cells you use.
Demonstrable durability
The durability of solar cover glass coated
with KhepriCoat®
has been evaluated
extensively. It has been subjected to
extended damp-heat tests, humidity-freeze
tests, thermal cycling tests (all according to
Figure 8: Roll coating unit in DSM’s Technology Development Center
6. KhepriCoat®
6
An investment that pays
With a license from DSM, you can produce and
sell high-performance AR solar cover glass coated
with KhepriCoat®
, using coating formulation that
is produced by DSM in-house and delivered to you
directly. The coating equipment requires a relatively
low capital investment. And most importantly, this
investment will provide you with optimized returns,
as the proven added value of glass coated with
KhepriCoat®
fully justifies a premium price.
DSM also licenses the technology to thin -film
module producers, who can apply the coating to the
cover glass before the active layers are deposited on
the glass. Depending on the process conditions, a
separate (pre) curing step may be necessary.
As pressure from governments and from public opinion
is expected to grow in the future, project developers will
increasingly ask for ever more efficient solar modules
in their hunt for grid-parity. In order to help you answer
this demand, KhepriCoat®
can enable you to further
differentiate your business, and tailor your products to suit
the rapidly growing solar cover glass market.
KhepriCoat®
in summary:
• Offers excellent optical properties in a single-layer coating.
• Can be applied 1- or 2-sided on all types of glass, using a range of deposition
technologies.
• Increases the output of PV modules by up to 4%.
• Is highly robust, withstands extreme weather conditions and is easy to clean.
• Meets the durability criteria as specified in IEC61215 and is TÜV certified.
• Can be tailored to suit a variety of different cells and types of solar cover glass.
• Offers you a quick return on investment.
• Is supported by a high level of design and engineering services.
• Helps you to maintain or improve your position in a fast growing market by
providing a differentiated product offering.
Figure 9: DSM’s pilot slot-die coating line
Tempered glass? No pre-curing,
drying step or chemicals needed
If your solar cover glass is thermally tempered, there
is no need for a separate thermal treatment (such as
pre-curing or drying) or for a chemical curing step.
As a result, you do not need to invest in special
ovens, and there is no additional variable cost. And
because you don’t need to handle chemicals for
curing, DSM’s KhepriCoat®
technology is very safe
and environmentally friendly.
The expert support you need
If you are not yet coating glass in-house, DSM can
supply you with a complete engineering package
and the technical support you need to construct
and get started with coating facilities. Drawing
on its technical support teams and application
development labs based in Europe and China, DSM
can offer this technical support globally. Get in touch,
and we will help you prepare for the future.
Choose KhepriCoat®
To make your products truly stand out
7. 7
Khepri is the name of one of the major
Gods in ancient Egyptian mythology.
He was believed to push the sun across
the sky and is responsible for the dawn.
This name was chosen as sunrise and
sunset are the times when the benefits
of KhepriCoat®
offer the highest yield
increase versus normal solar glass.
DSM – Bright Science. Brighter Living.™
Royal DSM is a global science-based company active in health, nutrition and materials.
By connecting its unique competences in Life Sciences and Materials Sciences,
DSM is driving economic prosperity, environmental progress and social advances to
create sustainable value for all stakeholders. DSM delivers innovative solutions that
nourish, protect and improve performance in global markets such as food and dietary
supplements, personal care, feed, pharmaceuticals, medical devices, automotive,
paints, electrical and electronics, life protection, alternative energy and bio-based
materials. DSM’s 22,000 employees deliver annual net sales of about €9 billion. The
company is listed on NYSE Euronext. More information can be found at www.dsm.com
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