Sent: 2019-07-18 7:36:38 AM

EMAIL FROM Rick (C. Richard) DeVore (son-in-law to Karl H. Norris) with added links. Subject: Karl H. Norris news.

Dear Colleagues and Friends of Karl Norris,

It is with a heavy heart that I notify you of the passing of Karl Norris yesterday afternoon, 2019 July 17, in Alexandria VA.  Karl had entered the hospital on July 11 with two rapidly developing, antibiotic-resistant infections.  He fought valiantly but ultimately succumbed to them after transitioning to hospice care. His final hours were calm and pain-free, and he slipped away quietly at the end with family at his side.  He was 98 years old.

Karl is survived by one daughter and one son, two grandsons, three great-grandsons, one brother and one sister, and numerous nieces and nephews.  (I am his son-in-law.)  He was predeceased by his wife of 69 years, Maxine E. (Thomas) Norris, on 2017 August 28, and by his parents, two brothers, and two sisters.

Two weeks prior to his death, Karl was pursuing his normal everyday life in an assisted-living community.  He was ambulatory with a walker and needed help only with accurate administration of a very few daily medications.  His health was amazingly robust for his age.

Karl felt blessed by his continuing communications with many of you – by mail, by phone, in person – who shared his great joy in discovery and invention.  That ongoing contact was a source of satisfaction and delight for him in both the prime years and the sunset of his life.  We, his family, thank all of you for your varied associations with Karl over his long life.

Per his wishes, there will be no funeral, and Karl’s body will be cremated.  He and Maxine were long-time members of Emmanuel United Methodist Church in Beltsville MD, and a memorial service will be held there in the near future, date to be determined.

Owing to his stature in his profession, and the regard with which he was held by you and so many other colleagues, we are developing plans for a more formal celebration of his life and achievements at a facility and on a date to be determined.  We will keep all of you informed by email of the plans.  Please do let us know at your convenience if you intend to participate and of any constraints on scheduling that may affect you.  We would like to accommodate as many of his professional colleagues and friends as we possibly can.  Because Karl’s favorite gatherings were the IDRC meetings in Charmbersburg PA – he still regularly wore the colorful polo shirts from those conferences! – a service held before or after the 2020 assembly is a possibility, although that event is a year away.

The distribution of this message is not meant to be exclusive; please feel free to forward it to colleagues and friends whom you know but we have not yet managed to identify and acquire contact information.

Finally, please know that although we are saddened by this loss, and we are sure that many of you will be, Karl lived a long, eventful, fruitful life.  He did amazing things, visited amazing places, and worked with amazing people, such as yourselves. Celebrate and remember fondly your experiences with him, as he did his experiences with you, with a smile, even today.

With sincere thanks and regards,
Rick (C. Richard) DeVore

The Karl Norris Award

The Karl Norris Award honors the unique contribution of Karl Norris as the internationally recognized founder of near infrared spectroscopy in the modern world.

Customers are often concerned with what flowrates are compatible with our Multipurpose flow cells and sample systems. To help answer this question Guided Wave has developed a Reynolds Number calculator, which is located towards the bottom of this webpage. The same concerns can also be applied to our family of insertion transmission spectroscopy probes, but we will limit our discussion to the less complex geometry of the flowcell.

The Relationship Between Analyzer Noise and Reynolds Number

The question of flow rate cannot be answered without more information regarding the sample. To achieve stable Near Infrared Spectroscopy readings, a steady flow of fluid must be passing through the optical beam during the measurement. The flow can either be smooth and laminar or turbulent. Flowrate alone cannot be determined without understanding the fluid dynamics such as the kinematic viscosity and the diameter of the pipe passing through the flowcell. Additionally, if the flow has particulates, bubbles, or mixed phases which will vary the chemical composition and index of refraction during the measurement period, then the NIR measurement will not be stable.

What is Viscosity?

The textbook definition of viscosity is the resistance of the fluid to flow or deform. Said another way, viscosity is the thickness of the fluid. The classic example is molasses which is thicker and thus has a higher viscosity than water. This may be referred to as the absolute or dynamic viscosity of the liquid.

What is Kinematic Viscosity?

The kinematic viscosity of a fluid is the ratio of the viscosity of the fluid to the fluid’s density. For most fuel and other liquids, fluid dynamic values have already been tabulated. For example, 100% ethanol at 25C has the following known properties.

What is a Reynolds Number?

The Reynold Number (Re) is a mathematical equation helps to determine if the flow in the pipe is Laminar Flow or Turbulent Flow. This is achieved by relating the kinematic viscosity of the fluid, diameter of the pipe, and the linear speed or flowrate of the liquid sample. See equation 1

*To achieve laminar flow Re < 2100 or turbulent flow Re> 3000

Relating the Flow Rate to the Fluid Velocity.

To calculate the linear velocity of the fluid we use equation 2, shown below. Our 10 mm pathlength Multipurpose Flowcell has an approximate internal surface area of 9.37×10^-5 m².

Calculating the Reynolds Number for Ethanol.

If we assume the flow rate through the inner 0.43-inch pipe diameter (1/2 inch OD pipe) is 3.0 L/min, then we get:

Fluid Velocity = (4*3(L/min)) / (3.14*(0.010922m)) = 0.53 meters per second

Now applying this value into equation 1 with the tabulated value for viscosity we see that:

Re= 0.53 m/s * 0.010922m / 0.000001 m²/s ≈ 4500

Because a Re of 4500 is greater than 3000, we can be confident that the flow through the optical beam of the flowcell is turbulent. Thus measurement of the sample liquid should result in high-quality spectra. This again assumes that the liquid sample passing through the flowcell is heterogeneous and free of particulate matter or other contaminants.

Interested in determining what your Renolds number is? Check out the Reynolds number calculator below.

The U.S. Department of Energy announced that a research and development project submitted by Guided Wave Inc. has been selected as an award winner in its Industrial Energy Efficiency Grand Challenge. This initiative provides funding to various research and development projects across the country for the development of transformational industrial processes and technologies that can significantly reduce greenhouse gas emissions throughout the industrial sector.

As a grantee, Guided Wave, a leading manufacturer of process chemical analyzers, will receive significant funding towards the development of an advanced on-line sensor for polymer processing. “This is a unique technique to control the plasticizing process,” states, Guided Wave, Corporate Fellow Dr. Terry Todd. “A high rate of scrap recycle is caused due to color problems. This new sensor may reduce this scrap significantly, thus minimizing energy consumption in the polymer extrusion process.”

According to the Department of Energy, American industry accounts for more than 30 percent of the energy used nationwide, is responsible for 27 percent of the country’s carbon emissions, and supports nearly 13 million core manufacturing jobs.  With such a large impact on the nation’s economic and environmental interests, the industrial sector remains a major part of the Nation’s clean energy equation. This funding will promote breakthrough achievements in the development of energy-efficient technologies and practices that will lower the energy demand of industry, open up new potential markets, and enhance the competitiveness of American business.