New Jersey company revolutionizing farming

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In New Jersey, an innovative farming concept is completely converting traditional farming to become more sustainable and reliable.

According to the U.S Geological Survey, 70 percent of all consumed freshwater is used for agriculture and only half of this can be recycled. In addition, agriculture farming also consumes huge swaths of land and is greatly dependent on stable environmental conditions to grow high quality crops and produce.

AeroFarms is an innovative company, which believes it has a much better farming solution that will be more environmentally friendly and also provide a more stable farming environment. The company’s method requires no soil, sunlight, very little water and takes place indoors. In fact, any indoor location could be a possible fertile growing ground despite what the locations outdoor climate is.

AeroFarms stems from the initial concept of Professor Ed Harwood, who invented a new system for growing plants in a cloth material he created. There was no need for dirt use beneath the cloth and the plant roots were sprayed with nutrient-rich mist.

Harwood received a patent for his invention and founded Aero Farm Systems, which refers to ‘aeroponics’, meaning the method of growing plants without placing them in soil or water. However this company was purely a side project for Harwood and did not generate much revenue.

In 2011, David Rosenberg and Marc Oshima began exploring potential new methods to resolve the inefficiencies of traditional farming. They sensed an opportunity when coming across Aero Farm Systems and liked what Harwood had developed so much that they asked to come on-board as co-founders.

Rosenberg and Oshima proposed a change to the company’s business model and saw a bigger opportunity in optimizing the growing process and selling the crops themselves. From here the company became ‘AeroFarms’ and began to open facilities in New Jersey which consisted of a steel mill, a club and a paint ball center and began converting them into indoor farms.

Today, the farms grow and sell a large amount of produce to grocers such as, Whole Foods, ShopRite and Fresh Direct, as well as to dining halls at businesses like Goldman Sachs and the New York Times.

As the company is easily able to set up centers close to their customers and are not affected by external environmental conditions, they are able to ensure local and fresh growing all year round. As transport is therefore reduced, costs for the fresh produce are able to be kept to a minimum.

Through research and development carried out, AeroFarms can collect hundreds of thousands of data points at each facility, allowing altering of LED lighting to control taste, texture, color and nutrition. Additionally, the data also helps the company adjust variables like temperature and humidity to optimize its crop yields.

AeroFarms has proven to be 130 times more productive per square foot annually than a field farm. An AeroFarm also uses 95 percent less water than a field farm, 40 percent less fertilizer than traditional farming and no pesticides.

Leafy greens make up most of the company’s output and would traditionally take 30-45 days to grow, however with the AeroFarm method it can take as little as 12 days.

New Jersey’s new AeroFarm headquarters in Newark will be the world’s most productive indoor farm by output once it reaches full capacity. The farm consists of a dedicated R&D center, plant scientists, microbiologists, mechanical engineers and electrical engineers.

AeroFarms do still have some hurdles to overcome before it can claim to be a practical solution for replacing all the world’s farms. One significant problem is the large amount of electricity required, which is costly and also offsets much of the good done by preserving water due to the large carbon footprint it creates. Never the less, AeroFarms is working hard to address such problems and is optimistic about research findings into more energy efficient strategies.

To date AeroFarms employs 120 people across nine farms and plans to reach 25 farms within the next five years. The company has raised more the $100 million and continues to develop and spread its concept worldwide. Oshima says, “From day one, this has been about having an impact around the world,” and this is precisely what the company will continue striving to achieve.

New Jersey has several R&D tax credits available for certain qualifying R&D activities. If your company is engaging in R&D, it may qualify. Contact a Swanson Reed R&D Tax Adviser today to receive an assessment and discuss your R&D incentive eligibility.

IKEA is going to Mars?

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While IKEA is commonly known as the Swedish King of flat packs and the ‘build your own furniture’ company, the design team are now taking on an entirely new venture.. or should we say an entirely new planet!

Recently the IKEA design team traveled to and lived inside the Mars Desert Research Center in Utah for three days. The visit was intended for their space-inspired furniture collection scheduled to launch in 2019 as well the possibility of IKEA actually making it to Mars one day!

The center is operated by the NASA Mars Society and simulates a Mars environment for humans taking part in experiments and training. Astronauts spend long periods of time inside this research center to prepare themselves for space flights and ultimately the future endeavors of one day exploring the actual planet Mars.

The IKEA designers were able to learn about how space affects an entire design process by gaining a firsthand insight of how the designing of furniture is affected by the demanding space environmental forces.

As air is very limited in space and must be reused for many months or even years, this then reflects on the living materials as it must be designed with this in mind.

The creative leader of IKEA referred to the experience as “crazy and fun”. The team were completely isolated for three days and got first hand insights into what astronauts go through for three years. The research center consists of a tight two story space which is only eight meters in diameter.

IKEA designers also learnt about the huge costs involved in space transportation, as it can cost about $2 million to transport just one kilo of mass to the surface of Mars.

While this currently makes it impractical for IKEA to send materials to Mars, it generated an entirely new design process perspective. Storage and furniture would need to be created in an entirely new and innovative way which is completely shifting from traditional methods.

Marcus Engman, Ikea’s Head of Design, said putting the designers in this demanding environment forced them to think much more creatively and ultimately producing completely innovative solutions. These solutions have the potential to work better than anything else ever seen on Earth.

IKEA designers will continue working with people from NASA and students from Sweden’s Lund University and are excited about the future of IKEA’s space-inspired collection.

Swanson Reed assist clients that have innovative businesses everyday to help them achieve the best R&D tax credit possible. If you think your business may be eligible for any R&D Tax Credit or would like to simplify the process, contact a Swanson Reed R&D Tax Adviser today.

New automotive R&D facility opens in Oregon

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The automotive commercial vehicle manufacturer, Daimler Trucks North America (DTNA) has officially opened its Oregon-based research and development facility.

The 87 acre, $18.7 million R&D facility consists of a state of the art test track, a brand new 32,000 square foot office that will be home to approximately 40 employees, a sizable workshop with 14 service bays for technicians to work and several driver lounges and conference rooms.

DTNA invested in the following R&D facility to solidify and validate itself as North America’s undisputed market leader and become a louder player in the realm of R&D. In addition, it is also hoped that the following facility will allow for DTNA to bring its innovative technology to the market faster than ever before.

DTNA’s president and CEO says he is excited for the future opportunities which lie ahead as a result of this significant R&D investment. The R&D projects to be carried out at the facility will allow for the company to become a more predominate player in the testing of product durability and reliability. In addition, the facility will also aid in the company’s future plans to test autonomous vehicles at the facility.

The location of Madras was specifically chosen because of its proximity to the company’s Portland headquarters. This allows the engineering team to travel by car to access the testing facility and will significantly save the company time and bring the engineers closer to the product.

The new test track at the facility is very similar to the one in Germany and Brazil and is specifically engineered to help DTNA determine a truck’s full service life in just six months.

While this R&D investment is an exciting opportunity for DTNA as a company, it is also an exciting time for Madras as a city. Having DTNA invest in Madras has shown to be a win-win for both parties and the city of Madras looks forward to supporting the undisputed market leader in the commercial vehicle industry.

If your company is currently or has recently invested in R&D, it may be eligible for an R&D tax credit. To receive an eligibility assessment and be guided through the R&D claim process, contact a Swanson Reed R&D Tax Adviser today. We look forward to speaking with you.

Aerospace and defense technology R&D center opens in N.D

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The leading American global aerospace and defense technology manufacturer, Northrop Grumman Corporation has opened a new research and development facility. The facility is located at the Grand Sky Aerial Systems (UAS) Business and Aviation Park in Grand Forks, North Dakota, which is dedicated to fostering autonomous systems and other capabilities.

Northrop Grumman’s new 36,000-square-foot facility serves as a hub for UAS R&D, operations and mission analysis, aircraft maintenance and training for pilots, operators and maintainers. The building is positioned in an anchor space along the alert pad at Grand Sky, which allows quick access to the runway of the adjacent Grand Forks Air Force Base for launch and recovery operations.

The research center will incorporate science, technology and math to achieve different solutions and bring together collaborative ideas. Grand Sky will allow for the collision of ideas so that software developments can become more advanced. The projects will revolve around future designing of UAS systems and making them more cognitive, which is the next generational leap in mission operations planning.

The R&D facility was initially completed late 2016 and officially opened April 21 2017. Northrop Grumman was the first tenant to sign a lease at Grand Sky and now have further construction plans to build a hangar to take advantage of the aviation park’s easy access to the Air Force base.

In addition to the Grand Sky facility, Northrop Grumman also operate a manufacturing site in New Town, North Dakota, which produces RF, fiber optic and wire harnesses for aircrafts including the Global Hawk and Boeing F/A-18.

Stakeholders of Northrop Grumman are excited to be able to officially begin their operations at Grand Sky and being able to cement their leadership in the development and use of autonomous systems. It is anticipated that the important work at Grand Sky will support the evolving needs of the company’s customers while advancing R&D in autonomous systems capabilities for today and the future.

To find out more about R&D and to find out whether your company could be eligible to receive the R&D Tax Credit, Contact a Swanson Reed R&D Tax Specialist today.

R&D Tax Incentive inspiring ground-breaking research

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3D printing has revolutionized hundreds of industries and has been particularly notable in the biomedical field. The technology is being used to make prosthetic limbs, replacements for bones, tendons, functional organ pieces and living human tissue for the testing and development of new drugs.

In 2007, Keith Murphy and Professor Gabor Forgacs from the University of Missouri founded the company Organovo. Organovo designs and prints functional human tissue for disease modelling and toxicology, human body implants and drug research and testing. The company also provides 3D printed tissue to academic facilities allowing future medics to get better training.

With the 3D printing market becoming increasingly more popular to invest into, particularly with the increase of government incentives for research and development, companies like Organovo can significantly benefit from substantial tax credits.

The federal R&D Tax Credit allows a credit of eligible spending for new and improved product and processes if qualified research meets the following four criteria:

  • New or improved products, processes or software
  • Technological in nature
  • Elimination of uncertainty
  • Process of experimentation

In 2015 the R&D Tax Credit became permanent, allowing the claiming of employee wages, cost of supplies, cost of testing, contract research expenses and costs associated with developing a patent. In 2016 start-up businesses could begin to utilize up to $250,000 credit in payroll taxes, which is particularly beneficial for 3D bio printing companies like Organovo, due to the long R&D time period of the projects.

The R&D tax incentive scheme has allowed for some ground breaking research achievements which will significantly benefit the wellbeing and treatment for people as well as improving future research. Organovo have been able to produce a 3D liver, named the ExVive Human Liver, which is being used to study predictive liver tissue-specific toxicity. The company has also created the ExVive Human Kidney which is being used to study nephrotoxicity due to drug responses. Additionally, the Missouri founded research company is also working on 3D printed tissue to be used as a source of therapy for patients with damage and disease to natural tissue.

Such ground-breaking findings pin point the significance of R&D tax credits in supporting innovation and development of revolutionary technologies. If you would like to find out more about the R&D incentive and whether your company may qualify for a tax credit, contact a Swanson Reed R&D tax specialist today, we look forward to speaking with you.

$100 Million invested into medical technology

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The American medical technology company, Becton Dickinson (BD), which produce more than two billion insulin syringes per year, have announced a $100 million research project to expand the company’s Nebraska research facility.

The investment will support new manufacturing equipment and technology to expand production for BD insulin syringes. Insulin syringes are used by approximately 40 percent of people with diabetes as part of their management regimen. This research investment will provide significant benefits to the diabetes population and underscores BD’s commitment to supply high-quality, industry-leading syringes to patients.

BD’s Nebraska facility is 350,000 square feet in size and was established in 1966. The facility houses more than 650 employees and manufactures 20 different products.

This is not the first time BD has significantly invested into research and development. In August 2016, after 60 years of running its facility in Utah, the company completed a $20 million facility upgrade. The upgrade allowed for more space and technology to produce IV catheters and valves, blood collection devices and surgical products.

The Utah facility was first purchased in 1956 and has since grown to 440,000 square feet in size and 1,200 employees. The research facility was the first to use renewable energy sources and later became landfill-free, where waste is reduced, recycled or converted into energy.

Companies like BD demonstrate the significant positive outcomes that result from investing in R&D. If you believe your company is incorporating research and innovation into its business activities, it may be eligible for an R&D tax credit. To find out more contact a Swanson Reed R&D Tax Advisor today for an assessment.

Virginia Tech University open food R&D center

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Virginia Tech University and Israeli food maker Strauss Group have started up an R&D agro/food tech program to help Israeli agriculture and food tech start-ups expand their activities in the US market.

Several Israeli companies were invited to make presentations to the Virginia Tech R&D team and Strauss Group in January. Later this year the staff of the selected companies will travel to Virginia to further their business development.

The R&D program will provide start-ups with funding opportunities, the chance to part take in business development meetings with experts from Virginia and facilitate excellent networking opportunities. Additionally, there is also the chance to test and trial different technologies, carry out consumer testing and allow for attaining necessary permits and regulation information.

Dr. Eyal Shimoni, vice president of Technologies at Strauss Group, says this project is about promoting developments of healthy food solutions and improving the quality of life for consumers worldwide.

Startups that specialize in food tech and agriculture are encouraged to apply to any future projects conducted by Strauss Group and Virginia Tech University. Possible future project focuses include sugar, salt and fat reduction technologies, improved nutrition methods and digital solutions, food safety, aquaculture, soil sciences and food process quality monitoring.

To find out whether your business activities qualify for the Research and Development Expenses Tax Credit, contact a Swanson Reed R&D Tax Specialist. 

Kentucky launches center for cancer and metabolism research

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The University Of Kentucky has been awarded an $11.2 million prestigious Centers of Biomedical Research Excellence (COBRE) grant to assist with the study of cancer and metabolism.

The grant was received from the National Institutes of General Medical Sciences and will fund the research and development project for the next 5 years.

The project aims to discover and prove a direct link between obesity and cancer. The need for research into this field is of high necessity, particularly for Kentuckians. Kentucky has disproportionately high incidences of both cancer and metabolic disorders and currently leads the nation in cancer deaths and obesity rates.

The University of Kentucky and its Markey Cancer Center have developed one of the strongest cancer research, prevention and treatment programs in the country. The awarding of the competitive grant is recognition of the University being a national leader in biomedical research.

Kentucky’s Center for Cancer and Metabolism (CCM) capitalizes on highly specialized institutional strengths in cancer and advancement metabolomics tools. This research focuses on the underlying mechanisms that link dysfunctional metabolism to cancer. Recent studies have shown that Mitochondria, the metabolic powerhouse of cells, can influence how aggressive a cancer becomes.

Research and development is at the core of economic and human development and it is why the University of Kentucky is the state’s instrumental change agent, health provider and economic engine.

The importance of the following R&D grant is largely significant to Kentucky, as the synergy and collaboration between researchers and clinicians to further studies in cancer could not be carried out without them.

To find out more about R&D or to determine whether your business is eligible for Kentucky’s .395 Research Facilities Tax Credit, contact a Swanson Reed R&D tax specialist.

Idaho Company Increases Sustainability Efforts

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Fish Breeders of Idaho is setting up a feed facility to recycle a waste product into an expensive feed ingredient.

Fish Breeders raises a variety of fish and had been giving away the waste generated by producing fillets and other products for the market. But this is all about to change. This is all about to change. The company is building a facility to generate fish feed without using dry fishmeal.

“The best thing you can feed a fish is another fish,” said Leo Ray, company found and president.

The company has plans to make many different kinds of feed to cater both to the different species of fish raised, and for different life stages.

Ray says that about 30-50% of the store’s fish may be sold while the other percentage would be considered waste products.

“If you grow a fish, you have enough waste to make fishmeal to grow another pound of fish. If you do it right, it’s a very sustainable process, all you have to do is add grains – there’s not excuse for depleting the ocean,” said Ray.

Using an internally generated product instead of fishmeal is supposed to cut the company’s expenses for fish feed almost in half.

To find out more about R&D or to determine whether you may be eligible for an R&D Tax Credit  Contact a Swanson Reed specialist to see if you qualify.

North Carolina R&D project receives $1.47m Grant

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SeaTox Research Inc. and the University of North Caroline Wilmington (UNCW) have collaborated in an R&D study to further develop toxin tests for seafood.

The study has now received a $1.47 million R&D grant, which will provide significant advancement in its ability to detect neurotoxins from harmful algal blooms that make people sick when they eat contaminated fish and shellfish.

The tests are designed to be used by research groups and regulatory agencies to monitor toxin content in fisheries to protect the public from the detrimental effects of neurotoxins.

SeaTox Research Inc. is a biotechnology company located in UNCW’s CREST Research Park. It is involved in assay development and pharmaceutical R&D utilizing materials, originating from the marine environment.

Assay development involves inventing and designing scientific tests, modifying the tests to optimize efficiency and then validating those tests with a large pool of data to determine effectiveness.

The university’s strategic plan includes innovation as one of its core values as this is a commitment to continuous improvement and breakthrough advances to ensure distinctiveness.

To find out more about R&D or to determine whether you may be eligible for an R&D Tax Credit Contact a Swanson Reed specialist to see if you qualify.