Weather, Plus Compensation, Transmission, Standardization

Disagreeing With "An Engineer's View of Global Warming" and Explaining the Benefits of Compensation

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"Ask the Experts" is moderated by Béla Lipták (, process control consultant and editor of the three-volume Instrument Engineer's Handbook (IEH). If you would like to contribute to the 5th edition by updating an existing chapter or by preparing a new chapter, or if you have questions for our team of experts, please write to

Q: I have just read with great interest your article "An Engineer's View of Global Warming" on Sustainable Plant ( While agreeing with almost everything you say, I am afraid you have made a simple mistake that will give the "deniers" an easy way to refute all the good stuff you have said.

There are a couple of places you mention the "two-mile high" ice cap at the North Pole.  The ice cap at the North Pole is floating, and if it melts, there will be no change in sea level. There is a "two-mile high" ice cap at the South Pole, and that sits on a large continental mass. If that ice melts, we are all in big trouble.

There is a large ice cap on Greenland, which is melting, and that will cause the sea level to rise significantly. I guess it is a polar region, but it is not the North Pole.

Peter Green

A: Sorry, Peter, obviously I meant Greenland and the South Pole.

On the larger issue of why does global warming cause cold and snowy winters on the East Coast, I wrote a letter to the New York Times: If you want to read more on these topics you can refer to:

Basically, both the ocean currents and the hurricanes are gigantic heat conveyors fueled by temperature/pressure differences in the oceans and the air, which are moved by the rotation of the earth and by the Coriolis force. This force causes both the air and the water to move "downhill" as the earth's diameter reduces northward from the equator. Because of global warming, the Gulf Stream is slowing, so our winters get colder, while the hurricanes become more powerful. The behavior of hurricanes or the Gulf Stream is just as predictable as the operation of industrial heat pumps. They respond the same way to changing operating conditions (to pressure and temperature differences, etc.) and, therefore, their future behavior can be similarly predicted on the basis of their past behavior as defined by their dynamic models (relative gains, time constants, etc.) 

In case of the hurricanes, at 80 °F or higher "hot spots," the water evaporates, and the moist air is pulled up from the surface of the ocean at the walls of the "eye" (this is similar to how a compressor's force pulls refrigerant vapors in the evaporator of an industrial chiller), and as the rising moist air cools (as in a condenser), rain is caused. This reduces the pressure at the "eye," causing more evaporation, faster pumping of the heat from the ocean, and higher velocity winds. The hurricane travels northwest, moved by westerly wind, and rotated by the Coriolis force (counter-clockwise). The Gulf current moves more water than all the rivers on earth, and hurricanes can generate as much force as do earthquakes.

Béla Lipták

Q: Could you explain the benefits of compensation? Why is it needed in thermocouples (CJC), two-, three- or four-wire RTDs or in thermistors (Steinhart equation)? Also, what is the difference between the two- and the four-wire transmitters? What would happen if we used 4-20 PSIG pneumatic transmitters?

Ulaga Nathan

A: Compensation serves to eliminate the effects of variations, such as the length of the connecting wires or the changes in ambient conditions, which have nothing to do with the variable of interest. Compensation can also serve to "linearize" the relationship between the measured variable and the output signal of the transmitter.

Whenever a transmitter or sensor operates by detecting the difference between the signal generated by the sensor and the signal generated by a reference, (such as the cold junction in case of a thermocouple), compensation eliminates the error caused by variation in the reference. Therefore, in case of a thermocouple, if the temperature of the cold junction changes due to ambient temperature variation, an error would result without compensation.

The difference between two- and four-wire transmitters has to do with the power wires. In a four-wire system, the power and signal wires are separate, making it easier to reject electrical and magnetic common-mode interference. In two-wire designs, power and signal are carried on the same pair of wires. The advantage of this design is that their sensitivity to electrical noise and loading effects are reduced.

As to the signal ranges used for the range of 0% to 100% readings of the transmitters, controllers and control valves, they do not matter much. What matters is that they accurately represent the desired value, and that they are the same for all loop components. In other words, a 4-20 PSIG or a 0.2 to 1.0 ATM range is just as good as a 4-20 mA or a 3-15 PSIG range.

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