Now Open For Registration! 

Working in partnership, GLASE, OptimIA, and LAMP are excited to announce the first annual Plant Lighting Short Course! This 6-week modular short course is designed to provide participants the opportunity to learn about all aspects related to the selection, implementation, and benefits of plant lighting systems.

In each sequential module, attendees will use interactive tools to define their specific lighting requirements, hear from industry experts about available horticultural lighting systems, and learn how to compare different lighting strategies. By the end of the course, participants will be equipped to make informed decisions about the best options to meet their lighting needs.

More Info & Registration

Media Partners

Recordings Now Available

The photosynthetic activity of far-red photons was discovered 70 years ago, but has largely been ignored since then. Recent research has drawn new attention to the importance of far-red photons.

This short presentation will cover the history of research on photosynthetic responses to light spectrum, recent work on the importance of far-red photons, and a discussion of the implication of (not) extending the definition of PAR. There will be ample time for discussion following the presentation.

Register Here - August 26 • 2-3 p.m. EST

July 6, 2021 

Eindhoven, the Netherlands – Signify (Euronext: LIGHT), the world leader in lighting, is supplying Walters Gardens with the Philips GreenPower LED toplighting compact to expand their existing lighting installation. Walters Gardens is a market leader in the ornamental industry from Zeeland, Michigan, in the United States.

They first trialed Philips GreenPower LED toplighting in 2014 - one of the first growers in North America to install Philips horticulture LED grow lights over ornamental crops, with the aim to jump-start their spring perennial production.  

As a result of the trial’s success, Walter’s Gardens partnered with Signify again, when expanding their lighted growing areas in 2019 - 2020, with the Philips GreenPower toplighting compact.

“It was a really easy decision to go with the Philips LED toplighting compact”, says Aren Philips, finishing lead grower at Walters Gardens. “The tops are fuller, the roots are more active, we are able to finish our hostas product 1 to 2 weeks ahead of schedule.”

Together with the high efficacy of the toplighting compact, and the easy 1:1 replacement of the HPS, leading to a great ROI, Walters Gardens knew the expansion would pay off.

Learn more about the Philips LED grow lights for floriculture here.   

--- END ---

For more information:

Global Marcom Manager Horticulture at Signify

Daniela Damoiseaux

Tel: +31 6 31 65 29 69

Email: daniela.damoiseaux@signify.com

www.philips.nl/horti

About Signify

Signify (Euronext: LIGHT) is the world leader in lighting for professionals and consumers and lighting for the Internet of Things. Our Philips products, Interact connected lighting systems and data-enabled services, deliver business value and transform life in homes, buildings, and public spaces. With 2020 sales of EUR 6.5 billion, we have approximately 37,000 employees and are present in over 70 countries. We unlock the extraordinary potential of light for brighter lives and a better world. We achieved carbon neutrality in 2020, have been in the Dow Jones Sustainability World Index since our IPO for four consecutive years and were named Industry Leader in 2017, 2018 and 2019. News from Signify is located at the Newsroom, Twitter, LinkedIn, and Instagram. Information for investors can be found on the Investor Relations page.

While celebrating its 125 years of existence this year, Certhon is far from done developing and expanding within the horticultural market. There have been a lot of developments for the company in the last few years. For example, Certhon established its own Innovation Center to research the optimization of technologies in the field of indoor farming. With a team of technology experts and agronomists, Certhon always tries to find ways to improve cultivation methods. Another development is the partnership between DENSO and Certhon that has been established last year. This collaboration is meant to accelerate the technologies used in horticulture.

We also see that projects are becoming more and more complex, large-scale, and international. Certhon is already active all over the world: from Europe to the Middle East and from Asia to North America. Because the demand for fresh greenhouse produce is still on the rise in the North American market, Certhon works to realize a stable presence in the United States. That’s why Timo Kleijwegt and Fred van Veldhoven have joined Certhon to rejuvenate and bring in experience to serve this growing market optimally. This, combined with dedicated local people and a support team based in the headquarters in Poeldijk, the Netherlands, entrepreneurs in North America can rely on the best Certhon has to offer and 24/7 support.

Turn-key greenhouse projects
For expansion of an existing greenhouse, new (indoor) facility, or turnkey set up, Certhon has all the knowledge, know-how, and technologies under one roof to enable entrepreneurs to produce local, fresh food. All in accordance with the local regulations and requirements, and the wishes of the customer. One of Certhon’s solutions is the SuprimAir greenhouse, which is a semi-closed greenhouse that provides optimal growing conditions for various crops like tomatoes and peppers, but also ornamentals like orchids.  

“In fact, Certhon doesn’t just design and construct a greenhouse, but creates the optimal climate and conditions to realize the best results,” says Fred van Veldhoven, who recently joined Certhon as International sales manager. “Certhon has its own developed system to obtain a complete and updated backtrack of the climatological conditions of a particular area per hour!” continues Fred. “All available data has been brought together and presents a reliable picture of the local situation. Future developments are being forecasted and extremes are being analyzed. This way, the right facility can be calculated, designed, and built for anything, anywhere.”

The American market is probably the most dynamic and demanding in the world and the consumers are used to have access to high-quality food, flowers, and ornamental plants. “Entrepreneurs choose for the total solution approach of Certhon, so they only have to turn the key,” concludes Fred.

State-of-the-art indoor farms
Besides traditional greenhouses, indoor farming has become a professional segment that develops faster in the United States than anywhere else. In some cases, these facilities are complementary to the greenhouse, but mostly these are stand-alone setups. The legalization of cannabis production in various states in the US and Canada has boosted this development. However, more and more entrepreneurs discover the benefits of fully controlled indoor food production, just around the corner.

Also within the larger agglomeration areas where fresh food is more expensive, indoor farming is part of the supply chain. Recently, Timo Kleijwegt joined Certhon as sales manager for the US market to respond to this development. Timo: “In our Innovation Centre, we have several indoor cells that are all designed differently so we can test which systems are working better for different purposes.

One of the crops we are testing and that is very interesting for indoor farming, are strawberries. Certhon has developed a unique growing concept for indoor strawberry production, which is highly profitable. Besides all the benefits that come with indoor growing, we see enormous positive results in yield and taste of growing strawberries indoors. At the moment, the final trials are being concluded. If anyone is interested in the results, they can contact me for a one-on-one presentation.”

Certhon will be present at key events in the US and Canada to share the latest developments, including the PMA in New Orleans in October. “We are looking forward to talking to ambitious entrepreneurs there,” Timo concludes.

'Where in recent years vertical farming enthusiasts have perhaps been mainly qualified as hipsters with a rather expensive hobby, this new branch of horticultural sport is steadily on the rise and traditional growers are also finding their way to the multi-layer installations.'

They see opportunities in using techniques from vertical cultivation, for example in propagation. “It is not just about improving the quality of the young plants, but above all about the controllability of the cultivation, and thus the speed and quality,” says Koen with Mechatronix.

What is the most expensive greenhouse there is? That would be an empty greenhouse, and that is exactly where, according to Koen van Mechatronix, opportunities lie for vertical farming. “In lettuce cultivation you see many nurseries working with fully automated cultivation systems. With mobile gutters, they can use the available space in the greenhouse as efficiently as possible. However, it remains difficult to adjust the speed of the preliminary cultivation to the available space in the pond. By replacing traditional, unexposed or illuminated cultivation with cultivation that is more controllable in a multi-layer system, you can plan much more precisely how many plants to set up. Accurate to the day, you know how many plants are ready to go in,” he says.

The lighting company developed a multi-layer cultivation system together with Meteor Systems: an automated track, including spray booms. In the past quarter, intensive testing was already carried out with a grower who works with floating gutters. “We have 120,000 cuttings up in the test setup. Multi-layered, of course, because otherwise, it would be too expensive in terms of floor space. Now you can grow enough cuttings on a few square meters to fill 1 / 3rd of the garden,” he shows.

The controlled cultivation makes it possible to use the entire cultivation system more intensively, which shortens the payback period and the depreciation period. “You can get more heads of lettuce from your expensive greenhouse,” Koen summarizes. “In addition, you always send exactly the same quality plants to the pond, which also gives you more control over your outgrowth. If you still adhere to the correct lighting strategy, you can start making a perfect prediction on your planning. This wasn't possible before. ”

Further opportunities
In herbs there are also opportunities for hybrid cultivation, where part of the cultivation will takes in an indoor or multi-layer cultivation system and the outgrowth will take place "as usual" in the greenhouse. “In the classic, fast-growing herbs, a full indoor cultivation is soon done, but in the woody herbs it is purely the rooting that takes place in a VF installation,” says Koen. “Total cultivation is too slow for this. Your turnaround time is too long and that makes the investment per m2 too expensive, but rooting often goes perfectly in a VF system.” In the same way, plant breeders use the techniques in part of the propagation, for example, to improve healing after grafting or to speed up cultivation from mother plants. "Ultimately, propagation is about the controllability of a known phase of the propagation."

All in all, this means that there appear to be more and more surprising opportunities for vertical farming, also in Europe. “The first major projects are starting to arrive, although we also see that people here are even less familiar with the possibilities and often depict it as expensive cultivation,” says Koen. “And of course an economic assessment must always be made. It will not be the case that complete crops will be placed indoors here tomorrow - there is always a reason to look at the sun. Where possible we use the sun, and where necessary the lighting. ”

For more information:
Koen Vangorp  
MechaTronix 
koen@mechatronix-asia.com
www.horti-growlight.com

8 Apr 2021

Light Science Technologies Opens Its New In-House Laboratory

Light Science Technologies (LST), has opened its new, state-of-the-art in-house laboratory as it aims to help growers create the most optimal plant recipe. 

Simon Deacon, CEO of Light Science Technologies said: “The opening of the laboratory demonstrates our full commitment to the ‘art’ of plant science. It will help accelerate the development of horticulture lighting and environmental technologies over the next few years. And, beyond as we seek out more sustainable, energy-efficient ways of farming."  

The purpose-built testing facility at LST’s Derby site will mimic, via a test and replicate process, a grower’s closed indoor environment and test new crops in its controlled environment chambers managing temperature, humidity, and CO2. By running up to 12 concurrent trials in 6 chambers, a team including in-house scientists and top-level industry experts will harness historical and real-time data to help farmers and growers create the right recipe.  

Simon continued: “Our testing facility provides a multi-faceted solution with the potential to controlled environment agriculture (CEA) farmers and the industry at large. Not just recipe development for higher density and profit margin crops, but a pathway to industry-leading scientists in different plant species. And, equally importantly, an opportunity to prototype new crops before investment.” 

Utilizing its Conviron A2000 reach-in grow chambers along with its integrated, fully updateable and bespoke lighting solutions, LST’s lab offers multiple benefits to growers while helping them achieve the optimal yield, including lowering CAPEX and OPEX costs.​ 

By harnessing advanced lighting technology, LST’s lighting systems can identify the right spectral waveforms and PPFD levels required for any species of plant or microbiology and can validate the performance of a grower’s existing set-up or compare new solutions independently, using its own Quantum PAR Photo-Goniometer testing facility. Built inside a 22-meter bespoke light tunnel using its 2021 SSL Spectral Photo Goniometer, it can accurately measure PAR (400nm-700nm) Quantum PAR (250nm-1040nm) and CIE.*  

The lab’s capabilities also mean it can measure plant health thanks to the LIcor LI-6800, the only photosynthesis system capable of measuring combined gas exchange and fluorescence from leaves and aquatic samples in just a few seconds with the highest level of accuracy and detail. It also instantly details temperature and humidity.  

Other key elements include advanced water and environmental testing, used to help growers identify the macronutrients in their plants and check for all types of food safety, quality and chemical contamination. And, to ensure only plant performance data is collected, GrowFoam, a natural biodegradable growing medium that has no effect on the plant, will be used in the chambers.  

One of the most interesting aspects of the lab is the focus on developing an AI capable of monitoring and proactively controlling environmental parameters and plant performance. This is done by leveraging LST’s partnership with a number of universities and its work using an in-house Big Data resource. Using the latest stacked GPGPU technology, data can be brought to life to increase plant performance, taste control and quality. 

For more information:
Light Science Tech 
Claire Brown, PR Consultant
claire.brown@lightsciencetech.com
www.lightsciencetech.com 

Publication date: Wed 17 Mar 2021

More and more LEDs are going from purple to white. Is there any difference among the countless white LED light options on the market, in addition to fluorescent? Cool white, warm white, full-spectrum white, fluorescent, white with UV and far red, etc. How to evaluate these choices? 

In this free webinar, we break down the differences among different types of white horticultural lighting. We will present the results of comparative plant trials we conducted using a variety of our own and other LED providers’ luminaires.

Spectra appearing white to human eyes contain a variety of spectrum colors, including green. Humans can distinguish them in terms of their temperature (e.g. warm white and cool white) and CRI (color rendering index) which determines how realistic objects appear under them.

Plants however can have dramatically different reactions to light that appear nearly the same to us. The example here shows the difference in biomass accumulation from three light sources that look exactly the same!

This webinar is aimed at growers and researchers trying to understand which kind of light to illuminate their growth chambers, indoor farms, and greenhouse compartments with.

Register for the webinar here.

Contact Valoya sales here - sales@valoya.com 

About Valoya

Valoya is a provider of high-end, energy-efficient LED grow lights for use in crop science, vertical farming, and medicinal plant cultivation. Valoya LED grow lights have been developed using Valoya's proprietary LED technology and extensive plant photobiology research. Valoya's customer base includes numerous vertical farms, greenhouses, and research institutions all over the world (including 8 out of 10 world’s largest agricultural companies).

Additional information:

Valoya Ltd, Finland

Tel: +358 10 2350300

Email: sales@valoya.com

Web: www.valoya.com

Facebook: https://www.facebook.com/valoyafi/

Twitter: https://twitter.com/valoya

12-03-2021 Philips Lighting

ITALY, Milan- Introducing Travaglini FarmTech, a new business division that has been established by Travaglini S.p.a., the world leader in meat, cheese, and fish processing equipment. Travaglini FarmTech will deliver turnkey vertical farm solutions to food processors to help them improve product consistency and simplify their supply chain dynamics. 

“With vertical farming
we can grow and process consistent, high-quality produce in one location that can be close to retailers and consumers. We have full control over the entire process.”

- Luca Travaglini, leader Travaglini FarmTech 

The challenge  

Travaglini S.p.a. builds on 68 years of expertise in developing extremely accurate climate control, industrial automation, processing, and packaging equipment. The company is partnering with Philips Lighting, the world leader in lighting, to establish Italy’s first vertical farm research lab in Milan. This facility will be used to develop a state-of-the-art model for vertical farming growth strategies and technologies. The Italian vertical farm research lab will focus primarily on the production of leafy greens.

The right lighting   

Vertical farming is a reply to the environmental problem that exists today in horticulture – how to provide fresh food to urban environments in a way that’s efficient and sustainable. “With vertical farming we are looking to answer many of the questions that the food industry is facing today and that will only become clearer and more pressing in the coming years,” said Travaglini. We can grow and process consistent, high-quality produce in one location in a vertical farm that can be close to retailers and consumers. Plus, we can fully control the entire supply chain, from seed to packaging.”

Luca Travaglini, leader of Travaglini FarmTech division said, “We chose to work with Philips Lighting because they have the strongest expertise in this field, and we trust them to help us expand our skillset and knowledge base over the long-term.

Photos Courtesy of Philips Lighting

Click here for more information.

Five Years of Feeding Tomorrow’s Cities

Ellis Janssen, Director city farming at Signify explains: “At the GrowWise Center, we believe in vertical farming. Over the past five years, we have helped hundreds of entrepreneurs and pioneers all over the world discover how they can feed tomorrow’s cities and grow plants faster, in a more sustainable way."

Jarno Mooren, Signify's plant specialist vertical farming with tomato crops cultivated at the GrowWise Center

"We work closely with our customers and partners, looking at all aspects of the business case: whatever a grower’s needs are, we can translate them into a dedicated recipe for growth. To achieve this, our team of plant specialists, application engineers and key account managers look at the most important aspects that determine the set-up of a farm so they can give the grower dedicated advice in making the best decisions," Ellis states.

She adds, "We have learned a lot over the past five years, and as we are evolving our customers are evolving as well. They want the best solutions for their specific needs. At the GrowWise Center, we support them wherever we can. The world continues to change, and we will change along with it. Through this all, and by combining the latest technology, business insights and plant expertise, we can help growers make their business successful and future-proof."

"At the GrowWise Center, we are proud of all that has been accomplished in vertical farming over the past five years, and we are excited to see where we can take the dreams and ambitions in vertical farming in the future," Ellis notes.

Global Marcom Manager Horticulture at Signify

Daniela Damoiseaux

Tel: +31 6 31 65 29 69

E-mail: daniela.damoiseaux@signify.com

www.philips.com/horti

About Signify

Signify (Euronext: LIGHT) is the world leader in lighting for professionals and consumers and lighting for the Internet of Things. Our Philips products, Interact connected lighting systems and data-enabled services, deliver business value and transform life in homes, buildings, and public spaces. With 2020 sales of EUR 6.5 billion, we have approximately 38,000 employees and are present in over 70 countries. We unlock the extraordinary potential of light for brighter lives and a better world. We achieved carbon neutrality in 2020, have been in the Dow Jones Sustainability World Index since our IPO for four consecutive years and were named Industry Leader in 2017, 2018, and 2019. News from Signify is located at the Newsroom, Twitter, Linked In, and Instagram. Information for investors can be found on the Investor Relations page.

By Mike Martens, Senior Manager, Illumination Marketing at Osram Opto Semiconductors, North America

The global pandemic has turned the world upside down, bringing unprecedented change to the way we live, work and play. But the crisis has also paved the way for important new innovations. For instance, massive disruption to the global supply chain is now compelling many nations to ramp up their indoor and urban farming efforts to secure their food supply and feed their people.

Take the desert nation of the United Arab Emirates. Amid the ongoing pandemic, the country is experiencing something of a food crisis. That’s why it recently announced a $100 million investment in cutting-edge indoor farming facilities that can help feed its population. The effort will include the creation of the world’s largest vertical farm to help solve the challenge of local food production.

A key component of vertical farming is LED technology. In places across the globe where farmland is limited, innovative LED lighting solutions offer a major advantage because they can provide the exact light composition that various plants need for ideal growth or to develop certain characteristics. Plants can also be grown in a very space-saving manner and with considerably higher yields thanks to these lighting solutions.

LEDs are more efficient

For decades, traditional high-pressure sodium (HPS) lamps were commonly used for greenhouses and other horticultural purposes but they bring with them many challenges. They have a short lifespan and are often only suitable for top lighting in greenhouses due to their high heat output.

This is a big problem for greenhouse owners because efficient energy use is essential to economic production. In traditional greenhouse and urban farming setups, HPS lights are often inefficient. They do provide light for plants, but it is often not the most efficient wavelength range because the lamps cannot be customized to provide ideal growing conditions for different types of plants.

HPS lights often generate a lot of heat , causing considerable evaporation and ultimately limiting crop yield. What’s more, due to this heat production, HPS fixtures often cannot be placed very close to plant canopy, preventing more efficient vertical-farm setups. After all, you don’t want to singe your produce.

The good news is that innovative LED technologies can alleviate many of these concerns. For starters, LEDs produce almost no radiated heat, allowing for the light fixtures  to be placed closer to plants and for plants to be stacked much higher, enabling farmers to grow more produce in smaller spaces while simultaneously reducing water costs.

LED lights also offer customizable wavelengths for different plants’ needs, allowing greenhouse operators and urban farmers to grow specific plants in their optimal conditions. For instance, LEDs can be tailored to supply light with a higher amount of red or blue content, generating exactly the wavelengths the plant, such as iceberg lettuce, tomatoes and basil need for optimal growth.

Urban farming is not a new phenomenon, but LEDs have the power to take it to the next level and more efficiently feed the world. In terms of sheer numbers, LEDs have an average lifespan of 50,000 hours compared to 8,000 hours for HPS lamps, making LEDS much more economical (and better for the environment). Indeed, vertical farms that leverage LED technology can achieve 40% energy savings compared to traditional lighting methods like HPS lamps. And due to the optimized light spectrum at 450, 660 and 730 nanometers, LEDs can provide the perfect lighting for all types of plants, allowing growers to adjust the lighting exactly to the needs of various crops.

LEDs grow healthier produce

LED are the most efficient lighting technologies to date for growing produce. They not only help produce fresh food in smaller spaces without the use of pesticides, they also make it easier for consumers in urban areas to obtain fresh and healthy food quickly, a must, considering the planet’s ever-growing population and ever-decreasing farmland.

Consumers in urban areas often rely on produce grown in faraway places that is brought to them on trucks using fossil fuels. This produce is often grown with pesticides to keep insects away, as well as fertilizers, so plants can be grown throughout the year, even in suboptimal conditions. All of these factors contribute to climate change and more polluted water sources. With horticultural LEDs,  these issues can be mitigated.

LEDs also provide optimal growing conditions in any environment with minimal water waste, while reducing the need for pesticides in indoor growing environments. Communities then have the ability to grow produce closer to home, which allows consumers to learn more easily what exactly goes into their food and greatly reduces the fossil fuel usage to get produce from the (urban) farm to their tables. Urban farming has great potential to make positive impacts on local environments and communities. It’s more sustainable and decreases communities’ reliance on foods shipped in at great cost from around the globe.

LEDs light the way

As we grapple with the many concerns facing our modern society, it is imperative to invest in efficient and time-saving technology of all types. LEDs are one of these technologies. Indeed, they light the way to the farms of the future. They will have an enormously beneficial impact on agriculture by dramatically increasing crop production and putting food on every table more efficiently.

Have you ever visited a plant factory with artificial lighting (PFAL)? The Japan Plant Factory Association is now receiving applications for its 2021 Online Training Course on PFALs scheduled for Feb. 18-March 11. The course gives you the privilege of taking an exclusive look inside a large-scale, commercial PFAL in central Japan.

Plant factories, or vertical farms, are grabbing the headlines lately. Learn about them on our science-based practical online course--anytime at your convenience and anywhere in the world during the course period.

Besides introductory classes on the basics of PFALs, the course has the just mentioned PFAL virtual tour and the following other special content:

• A lecture on phenomics and the potential of phenotyping

• Hands-on technical training on PFAL business management

• Tailored, further explanations on previous-course lectures,

• Operational and hygiene management, future of PFALs in COVID-19 times (2020 Workshop)

Its introductory classes cover not only PFAL principles and the basics like photosynthesis, respiration, transpiration, light environment and plant growth, nutrient solution and hydroponic cultivation, but also forthcoming technologies and PFAL business management.

The JPFA oversees a plant factory hub on the Chiba University Kashiwanoha campus in Kashiwa, northeast of Tokyo. The nonprofit organization has shifted from on-site to online training due to the coronavirus pandemic.

The first-rate lecturers of the coming course include Toyoki Kozai, professor emeritus and former president of Chiba University, who is known as the father of plant factories, and Chieri Kubota, professor at the Ohio State University.

Along with lectures, the training course, run on a specified platform, encourages participants to interact each other and gives them a chance to join an online live question-and-answer session.

The course is available for anybody interested in PFALs--not only JPFA members but nonmembers as well. If you are curious, check here and apply now.

Apply Now

For more information

Japan Plant Factory Association
https://npoplantfactory.org/en/
https://npoplantfactory.org/information/news/2120/

https://npoplantfactory.org/wp-content/uploads/2020/12/Renewed-Information-for-JPFA-2021-Online-Training-Course-on-Plant-Factories-with-Artificial-Lighting-PFALs-2021.1.20.pdf

Japan Plant Factory Association

The Japan Plant Factory Association, a nonprofit organization founded in 2010, is devoted to advancing the plant factory industry and controlled-environment agriculture in and outside Japan through academia-industry collaborations.

Its mission is to develop and disseminate sustainable plant factory systems in a bid to address issues concerning food, the environment, energy and natural resources.

The JPFA oversees plant factories on the Chiba University Kashiwanoha campus in Kashiwa, northeast of Tokyo. Also, it works on about 20 R&D projects and runs workshops and training courses.

How to Become a JPFA Member

Apply for JPFA membership here. For more information, visit the JPFA website or email us at training@npoplantfactory.org. We welcome your inquiries.

Price List for JPFA 2021 Online Training Course on PFALs

Want more online educational options?

The lighting company LumiGrow has ceased operations and is now out of business. 

LumiGrow was a company focused on LED lights, and it hit the headlines at the beginning of 2020 for the purple glow that illuminated the sky over Navajo County, Arizona, which was coming from a cannabis greenhouse where LumiGrow LEDs were installed. 

The company has not shared specific information as to why operations have been ceased. For sure, the global pandemic together with the fierce competition in the LED sector of horticulture have had an impact. 

Publication date: Tue 2 Feb 2021

© HortiDaily.com / Contact

Broad spectrum white LEDs are widely available

San Jose, CA – February 2, 2021 – Lumileds today announced immediate high quantity availability of its LUXEON 3030 HE Plus Horticulture LEDs. Based on the company’s leading 3030 LED portfolio and characterized for horticulture, the new options offer high PPF/W, broad-spectrum white light that enables grow lights that are productive and economical.

“In horticulture applications growers are looking for time tested, top performance and reliability, the LUXEON 3030 HE Plus Horticulture delivers the photons that enable consistent and high growth output with the highest of efficiencies,” said Mei Yi, Product Manager.

The new LEDs are engineered for robust sulfur protection – critical for long and stable lifetime in warm and humid environments – and are specified for horticulture at 65mA and Tj= 25°C with CCTs from 2200K to 6500K and CRI of 70, 80 or 90. When matched with LUXEON Deep Red and Far Red options a complete horticulture illumination solution is at hand.

LUXEON 3030 HE Plus Horticulture is available in manufacturing quantities today. It offers a 0.1V forward voltage bin, quadrant color bin inside 3SDCM, and a maximum drive current of 480mA. Detailed product information can be found at https://lumileds.com/3030Horticulture.

About Lumileds

For automotive, mobile, IoT, and illumination companies that require innovative lighting solutions, Lumileds is a global leader employing more than 7,000 team members operating in over 30 countries. Lumileds partners with its customers to push the boundaries of light.

To learn more about our portfolio of lighting solutions, visit lumileds.com.

For further information, please contact:

Steve Landau, Director Marketing Communications

Steve.Landau@lumileds.com

+1 408 710 4090

"Signify’s expanded GrowWise Control System helps growers boost operational efficiencies. This allows for full dimming for Philips toplighting compact in greenhouses. Besides, it enables growers to plan and automate light recipes one year ahead and to control the grow lighting through their climate computer or greenhouse management system. This will result in lower manual labor costs and improved operational efficiency," the company announces.

Signify has expanded its GrowWise Control System, allowing for higher levels of automation and reducing manual labor and operational costs. This can be achieved by automating the lighting planning for their crop’s full growth cycle, up to one year ahead. The software tool brings dynamic lighting to greenhouses and vertical farms and fits seamlessly with modern climate computers and greenhouse management systems. This enables growers to automatically adjust light levels to maintain consistent levels on cloudy days, save energy on sunny days and simulate sunrise and sunset throughout the day or season.

Growers, like the Italian vertical farm, Planet Farms, and the Belgium greenhouse, De Glastuin, are already using the expanded system providing additional value within their growing facility. 

“Using the GrowWise Control System is ideal for us,” says Luca Travaglini, co-founder of Planet Farms. “We want to automate as many aspects of our operations as possible to become more cost efficient. Now we can easily create custom light recipes and set them to run year-round to provide the right light recipe with the right light intensity at the right time throughout the crop’s growth cycle. By automating our full light strategy during the growth cycle, for the whole year, we can run our operations very efficiently and keep our manual labor costs low. That makes it easier for us to maintain consistent quality as we scale up our production.”

The demand for the GrowWise Control System is increasing for greenhouse applications as well. “The lighting can be used much more efficient, since it gives us the flexibility to reduce light levels at any moment we need to,” says Wouter de Bruyn, owner at De Glastuin. Lettuce grower De Glastuin is using the GrowWise Control System to control the Philips GreenPower LED toplighting compact grow lights via its climate control system. “The climate computer is equipped with a daylight sensor that sends actual light measurements to the GrowWise Control System so we can adapt our light levels automatically to ensure an even light level throughout the day and season. This results in a continuous high-quality crop. In case the electricity is the limiting factor, we are still able to use the LEDs evenly for the whole greenhouse in a lesser intensity.”

“Dynamic lighting in a greenhouse is the next step in improving the cost-efficiency and quality for the cultivation process,” says Udo van Slooten, Business leader Horticulture LED solutions at Signify. “It allows growers to effortlessly maintain a consistent level of light throughout the day to produce the best possible crops. The system compensates for cloudy weather and creates a more controlled growing environment for your crop.”

Signify
www.philips.com/horti

29 Jan 2021

Staff Reporter Jan 25, 2021

Vertical farming involves; growing crops indoors under artificial temperature and lighting conditions. This technology focuses on increasing productivity in small places. It utilizes soil-free methods like aeroponics, aquaponics, and hydroponics. Read on to understand the main tech you need for your vertical farm. 

Lighting systems

Covered agriculture, which is the traditional method of farming uses HPS (High-Pressure Sodium) vapor lamps. These units generate a warm light, which appears as an orange-yellow glow in areas with many glasshouses. LED technologies have evolved, becoming more energy-efficient and cheaper. 

LED vertical farming lighting dictates the next generation controlled environment agriculture (CEA). While HPS lamps generate orangey-yellow light, LEDs can be designed to generate light in any color or combination of choice. Today, more LED lights are specially designed for the CEA industry. 

Researchers are working with manufacturers to manufacture crop-specific lights to enhance photosynthesis, guarantee crop quality, and boost yield production. When growing crops in an indoor environment without a natural or external light source, the quality and quantity of artificial vertical farming lighting for your crops is critical. 

Heating, Ventilation and Air Conditioning (HVAC)

Controlling the heating, ventilation, and air conditioning is crucial in managing a vertical farm. Remember, the HVAC can influence the yield, health, and quality of your crops. Smart regulating systems are crucial for the management and maintenance of ventilation, temperature, and humidity. Installing smart enabled HVAC systems that can be incorporated into a general control system is critical.

Nutrients

Controlled environment agriculture allows farmers to regulate the frequency, levels, and nutrients they use on the crops. Commercial nutrient mixes are not only readily available but are also easy to use for your vertical farm. However, you can improve the quality of your crops and increase production with a crop-specific nutrient mix. Research and knowledge help you produce efficient nutrient mixtures for your vertical farm. 

Control Systems

Control systems audit, and manage all elements of a controlled environment. Doing so allows the farmer to make proper decisions for crop-specific growing conditions. Advanced control systems give farmers crucial data on crop health, development, and the environment. 

With this data, the farmer can develop different features of the growing conditions. Further, control systems facilitate the implementation of nutrient mixes and light that can change throughout growing, light intensity, and delivery of supplementary C02 (carbon dioxide). 

Future vertical farms should come with integrated control systems and inline crop monitoring systems to facilitate disease management. These components will help boost conditions, enhance energy-efficiency, and increase yield. 

Growing Systems

Vertical farming involves various hydroponic systems, making soil and other growing media unnecessary. Farmers can use different substrates, as seen below. 

• NTF (Nutrient Film Technique)

The NTF comprises narrow troughs or channels where flowing small amounts of nutrient and water solution drains to the bottom of the troughs. This process creates a thin film. Plants are hanged over the trough in net containers. They receive small amounts of the nutrient solution often per day. 

The fine nutrient film solution facilitates watering of the rear of the roots without getting soaked. The top part of the roots stays dry and consumes oxygen. The nutrient film technique is ideal for baby greens, salads, leaves, strawberries, and herbs. 

• Flood and Ebb System

The flood and ebb system is also known as drain and flood. It involves the use of trays filled with a nutrient solution for a few minutes before the water drains. The plant roots are swayed around the nutrient solution. Using flood like circumstances allows the plants to consume nutrients and oxygen, making them healthy and strong. The flood and ebb system is ideal for producing microgreens. 

Finally

Vertical farming allows farmers to grow crops throughout the year, and this facilitates maximum crop production. This technology does not rely on the weather. You can grow your crops with the help of LED lighting. Apart from being eco-friendly, vertical farming allows you to farm within limited spaces, as is the case in cities. 

There are a number of key variables to consider when setting up your own vertical farm that calls for considerable financial clout. Light Science Technologies offers a bespoke solution that helps growers to achieve maximum yield while saving costs and energy. 

The rising AgriTech start-up offers the first of two features offering tips to help you to reap optimum results and high returns.

Tip 1: Location, location, location
While you don’t need as much land as traditional growing, finding the right location for your vertical farm is crucial. The wrong location can prove a costly mistake, so do your homework before committing. Do you have the right local infrastructure in place to get your product to your buyer as efficiently as possible? Can you source enough electricity? How much does water cost in this county compared to the next one over? 

Tip 2: Minimize energy costs
However, energy-efficient your operation is, you’re still going to use a huge amount of electricity every year. The most cost-effective solution might be to create your own renewable energy. That isn’t possible for all sites, but even micro-generation could help to bring your OPEX down. 

Tip 3: Engage the experts
Let’s be frank: vertical farming is no small subject. Start building relationships as early as possible with people who know everything on it, from lighting and data to botany. 

Tip 4: Balance OpEx and CapEx costs
Think big picture in terms of cost. Spending more initially could reap rewards later on. For instance, heavier investment in technology in order to automate seeding, feeding, watering and harvesting will require a greater initial outlay, but a far smaller workforce; labour costs can easily account for over 50% of a vertical farm’s OpEx. 

According to CambridgeHOK, a small vertical farm with minimal automation costs around £1,000 per square metre to set up. A large farm with full automation will cost in the region of £3,000 per square metre. You’ll also need to factor in OPEX differences to the growing system you choose (hydroponic, aeroponic, and/or aquaponic).

Tip 5: Don’t cut corners
Buy wisely. Avoid gambling on cheaper products, such as mass-produced imported lighting. Ensure major costs come with decent guarantees and support in place should anything go wrong. 

Cutting corners now could cause repercussions later down the line, and not just in maintenance and replacement costs. Cheaper options could spell inflexibility, killing your vertical farm’s true potential.

6. Choose your crops carefully
There are pros and cons to different types of crops. Quick-growing plants tend to be cheaper to grow, resulting in an abundance of product. However, some slower-growing crops, such as medicinal cannabis, can earn you far more per plant. Some crops require less energy. Others take up less space so you can pack more in. Fastidious research and number crunching will help you to choose the best option for your own vertical farm.  

Tip 7: Know your audience
Assuming there’s a market for what you’re growing is where you could fall short. Many vertical farmers focus on fast-growing salad crops. In an optimized environment, you could end up producing 30 tonnes of salad a day. But can you guarantee sales of lettuce through the depths of winter? Potentially, this could either mean considerable wastage or letting part of your vertical farm sit idle for weeks on end, which will mean diminishing returns. 

Sound planning and organization from the start is essential and will enable you to factor in a different crop switch every few months with flexible lighting systems if required. 

For more information:
Light Science Tech 
Claire Brown, PR Consultant
claire.brown@lightsciencetech.com
www.lightsciencetech.com 

Publication date: Fri 8 Jan 2021

Urban Farming Using LEDs From Fluence by OSRAM

ECF Farmsystems uses innovative LED lighting solutions from Fluence for today’s herb cultivation in the heart of Berlin. An innovative urban farm, ECF Farm Berlin (ECF Farmsystems) uses techniques for greenhouse and vertical cultivation of basil. The farm also uses aquaponics to naturally fertilize the crops, the produce of which then goes to Rewe, Germany's second-largest supermarket chain.

Less space and more production is the name of the game at ECF Farmsystems: comprehensive lighting solutions, from growing to greenhouse culture, enable the year-round production of uniform, aromatic basil plants.

Urban cultivation from seed to finished product
On-site propagation on VertiCCs, a racking system for vertical cultivation developed by ECF Farmsystems, increases production by 35% with the same footprint and optimized supply chain from seed to finished product.

The system also ensures consistent, uniform products. This is because ECF Farmsystems completely controls the entire growing cycle with less pest infestation and more accurate yield forecasting. In addition, the VYPR lighting systems offer higher-quality light spectra compared to conventional lamp systems. In addition, thanks to VYPR solutions, greenhouse growing is no longer seasonal, as efficient crop lighting provides uniform plants with consistent productivity, regardless of local weather.

With Fluence's RAZR Series, ECF Farmsystems achieves more effective operations and a 35% increase in production without the need for new construction or remodeling. By expanding vertical growing in the plant nursery, which eliminates the need to invest in additional growing space/facilities, ECF Farmsystems saves important emission costs. Propagation on VertiCCs systems with RAZR exposure allows ECF Farmsystems to control the entire growth cycle, better manage pests, and now calculate yields more accurately.

The new RAZR module will be available in January 2021.

For more information:
fluence.science/webinars
https://en.ecf-farm.de/  
https://www.osram.com/os/applications/horticulture-lighting/index.jsp  

Publication date: Thu 7 Jan 2021

“According to our research, most vertical farms are focused on lighting as a means of improving yield and growth speed,” says Rob Agterberg, Partner at Back of the Yard Algae Sciences (BYAS).

“However, not enough vertical farms are looking at innovative ways of growing faster and better. Through our research, we’ve discovered that certain algal proteins improve the photosynthetic process and this results in a biostimulant effect and also improves taste, aroma, shelf life and nutrient value in vertically farmed crops such as lettuce." 

Algae biostimulant 
“At BYAS we’re creating ingredients such as alternative proteins, food colorants, made from microalgae. We have a patented, unique, zero-waste production process that enables us to extract food ingredients and alternative proteins from microalgae,” says Marc Peter Geytenbeek, Partner at BYAS. The company has been researching its biostimulant for vertical farming the past 2 years and recently published a scientific article outlining a number of breakthrough results. Currently, the biostimulant is being tested by vertical farming companies, including across the world.  

Saving time and money
Rob states that about two-thirds of vertical farms are struggling to be economically viable, due to their high capital expenditures. He says: “Our research has shown that lettuce growth increases after adding the biostimulant. This increase results in up to 20% shorter growth cycles, saving on lighting and therefore energy and labor costs. We think that our biostimulant can be a huge boost to make vertical farms more economically sustainable.” 

Sustainable works
“Surprisingly, the biostimulant can be made from algae grown on agriculture waste streams,” says Rob. The biostimulant is organic and GRAS (generally recognized as safe). What is particularly interesting to vertical farming is the fact that the biostimulant is an extract, so there is no need to administer a live bacteria or fungus into a hydroponic system. BYAS is committed to the circular economy - sustainable re-use of resources. This can be found in the production processes that are zero-waste and use very little energy.

For more information:
Back of the Yard Algae Sciences
Marc Geytenbeek, Partner
marc.geytenbeek@algaesciences.com
www.algaesciences.com 

Rob Agterberg, Partner
rob.agterberg@algaesciences.com 
www.algaesciences.com

Publication date: Wed 6 Jan 2021
Author: Rebekka Boekhout
© VerticalFarmDaily.com

Martin Veenstra, Indoor Farming specialist at Certhon: “This way of growing strawberries is unique because all grow parameters can be precisely controlled during the entire growth cycle. From start to finish. This ensures optimum quality, yield, and fruit sizes, independent of the growing season. All grown without any pesticides and with a choice of both traditional as well as organic nutrients.”

The Certhon Innovation Centre consists of multiple indoor farms equipped with state of the art systems for LED lighting, climate control, CO2 dosing and irrigation systems which are all managed by Certhon's farm control system. In these farms, many crop trials are conducted for the indoor growing of a wide variety of plants, ranging from leafy greens to many vegetables and soft fruit. We would like to share exciting results of our trials with growing strawberries in our indoor farming system. 

Results
Yields vary off course per strawberry variety, but at least a minimum of 26 up to 30 kg per m² per year with a consistent BRIX of 8 or higher is now available to every grower. Also, fruit sizes are much more consistent compared to open field or even greenhouse growing.

"At Certhon, we focus on the consistent and uniform top quality of the produce with an improved shelf life. In addition to optimizing the yield, we also put a strong emphasis on minimizing the power consumption for lighting and climate control. Also reducing water consumption is a strong focus point."

Martin: “We are continuously improving our trials and see even more potential in the very near future. Besides strawberries, we are also testing with tomatoes, lettuce, and raspberries.” 

For more information:
Certhon
ABC Westland 555
P.O. Box 90
2685 ZH Poeldijk
The Netherlands
Tel: +31 174 22 50 80
Fax: +31 174 22 50 81
www.certhon.com

5 Jan 2021

January 4th, 2021

      Signify Chooses Artechno As its New Philips

Horti LED Partner For The Unique Modular

Turnkey Vertical Farming Solutions That it Provides

·        Lowers bar for growers and entrepreneurs to start a new vertical farm

·        Helps to automate the production process for diverse crops from seed to harvest

Eindhoven, Netherlands – Signify (Euronext: LIGHT), the world leader in lighting, has signed a partnership agreement with Artechno, global provider of scalable Automated Vertical Farming systems, to make it easier for growers and entrepreneurs to start a state-of-the-art vertical farm using Philips GreenPower LED lighting. Artechno, headquartered in De Lier, the Netherlands, is an engineering company that develops and realizes unique automated cultivation systems based on hydroponic substrates for clients across the globe.

“Partnering with Signify is a logical choice for us,” said Art van Rijn, Owner of Artechno. “We’re a winning combination as we offer our customers the highest efficiency and highest reliability, while Signify provides energy-efficient lighting solutions that perform 24/7, 365 days a year. Together this will help our customers to grow tasty, high-quality produce year-round.”

Artechno has channeled 100+ years of combined experience in horticulture into its flagship product, Automated Vertical Farming, or AVF+. It offers a fully automated solution for producing a variety of crops from seed to harvest. Artechno has automated all processes to ensure low labor costs and consistent crop production. AVF+ is a modular system that can be customized to the needs of the crop, available space, or desired production volume. Growers and entrepreneurs can start with a few key components and scale up their automation and operation as they grow.

“We’re proud to expand our partnership network with the knowledge and expertise of Artechno,” said Udo van Slooten, Business Leader Horticulture at Signify. “They share our values of innovation, quality and reliability. This partnership will help us lower the barriers for growers and entrepreneurs who are considering a vertical farm by enabling us to offer Philips GreenPower lighting within fully modular and automated systems for every aspect of their operations.”

Signify continues to expand its horticulture partner network, further demonstrating its commitment to lead the horticulture industry as the innovative LED lighting systems provider for the indoor farming industry.    

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For further information, please contact: 

Global Marcom Manager Horticulture at Signify

Daniela Damoiseaux

Tel: +31 6 31 65 29 69

E-mail: daniela.damoiseaux@signify.com

www.philips.com/horti 

About Signify

Signify (Euronext: LIGHT) is the world leader in lighting for professionals and consumers and lighting for the Internet of Things. Our Philips products, Interact connected lighting systems and data-enabled services, deliver business value, and transform life in homes, buildings, and public spaces. With 2019 sales of EUR 6.2 billion, we have approximately 37,000 employees and are present in over 70 countries. We unlock the extraordinary potential of light for brighter lives and a better world. We achieved carbon neutrality in 2020, have been in the Dow Jones Sustainability World Index since our IPO for four consecutive years, and were named Industry Leader in 2017, 2018 and 2019. News from Signify is located at the Newsroom, Twitter, LinkedIn and Instagram. Information for investors can be found on the Investor Relations page.