New Mexico Chemical and Ethics 30 PDH Discount Package 2

This engineering online PDH course contains a discussion of, and an example calculation of, the density and viscosity of a specified gas at a given temperature and pressure. In this course, the Redlich Kwong equation will be used for calculation of the compressibility factor of a gas. The Sutherland formula will be discussed and used in example calculations. Another method for calculating the viscosity of air at a specified temperature and pressure will also be presented and discussed.

The density and/or viscosity of a gas is often needed for some other calculation, such as pipe flow or heat exchanger calculations. If the gas temperature is high relative to its critical temperature and the gas pressure is low relative to its critical pressure, then it can be treated as an ideal gas and its density can be calculated at a specified temperature and pressure using the ideal gas law.  If the density of a gas is needed at a temperature and pressure at which it cannot be treated as an ideal gas law, however, then the compressibility factor of the gas must be calculated and used in calculating its density. The Sutherland formula can be used to calculate the viscosity of a gas at a specified temperature and pressure if the Sutherland constants are available for the gas.   

This 2 PDH online course is intended for chemical, mechanical and environmental engineers. After completing this course, you will have knowledge about methods for calculating the density and viscosity of a gas at specified temperature and pressure. 

This online engineering PDH course describes the chemical measures taken to retard the corrosion often found in water systems. It also addresses the consequences of radioactivity on facility cooling water systems.

Radiation synthesis is a process that takes place in the reactor coolant system. This phenomenon is limited to the reactor coolant system because of the high flux (radiation) levels that exist in the core region and further complicate chemistry control of the reactor plant.

This 3 PDH online course is applicable to chemical engineers, design and construction personnel, technical staff and facility operators who are interested in gaining a better understanding of the reactor water chemistry.

This online engineering PDH course addresses the principles of ion exchange in the context of water purity. It also discusses typical water treatment methods and the basis for these methods.

Water treatment is necessary to remove the impurities that are contained in water as found in nature. Control or elimination of these impurities is necessary to combat corrosion, scale formation, and fouling of heat transfer surfaces throughout facility support systems.

This 3 PDH online course is applicable to chemical and environmental engineers, design and construction personnel, technical staff and facility operators who are interested in gaining a better understanding of the principles of water treatment.

This online engineering PDH course provides an introduction to the techniques and methods for treating makeup water used in industrial water systems.

Many installations use fresh water and, often, potable water. Makeup water, often referred to as "makeup," is fresh water that is added to an industrial water system to replace water lost by blowdown, evaporation, wind drift, leaks, steam, humidification, or withdrawal from these systems. The usual source of makeup water is the installation's potable water supply. This source is water that has been conditioned and is usually of a very uniform quality from day to day. Other sources of makeup water could include groundwater obtained from shallow or deep wells, or surface water from streams or holding ponds. These sources are not treated to the extent that the potable water source is treated. Still another source is reuse water (i.e., water that is "used" and reclaimed and not rated as potable).

This 3 PDH online course is intended for mechanical engineers, civil engineers and other design and construction professionals seeking an introduction to makeup water and makeup water treatment for industrial water systems.

This online engineering PDH course describes pesticide label requirements for Chemigation, Chemigation system operation and calibration and Chemigation system safety.

Chemigation, or the addition of chemicals to irrigation water, has probably been around for as long as both irrigation and chemicals have been used in agriculture. Chemigation became more widely used in the 1970's with the adoption of center pivot irrigation systems in the Midwest. Backflow prevention is necessary to prevent pesticide contamination of surface water supplies as well as ground water.

This 1 PDH online course is applicable to mechanical engineers, civil engineers, chemical engineers and environmental engineers who are interested in learning more about chemigation in irrigation water.

This online engineering PDH course provides guidance on building field capabilities in order to respond to the contamination of drinking water. The course also provides planning and implementation guidance, templates, customizable report forms, and other documentation for Sampling and Analysis (S&A) activities.

When performed in response to possible or credible drinking water contamination, the goal of Sampling and Analysis (S&A) is to confirm or rule out contamination through field and laboratory testing. It is one of the earliest utility-led activities initiated when the utility has activated its drinking water contamination response plan and continues throughout remediation and recovery if contamination is confirmed.

This online engineering PDH course provides an introspective look into reducing CO2 emissions through comprehensive multi-sector and electric models.

The Inflation Reduction Act of 2022 (IRA) represents a significant legislative commitment to transform energy production and consumption, reduce the risks of climate change, improve environmental quality, and simultaneously spur investments that create economic opportunities. This course presents results from state-of-the-art multi-sector and electric sector models to assess how the IRA’s provisions reduce CO2 emissions.

This course is responsive to section 60107(5) of the Low Emissions Electricity Program within the IRA, which requires EPA to assess “... the reductions in greenhouse gas emissions that result from changes in domestic electricity generation and use that are anticipated to occur on an annual basis through fiscal year 2031.” This course primarily focuses on carbon dioxide (CO2) emissions because the vast majority of direct electric sector GHG emissions are from fossil fuel combustion and the increased use of clean electricity primarily offsets fossil fuel use in end-use sectors.

This online engineering PDH course provides an introduction to the design, construction and process control considerations for microbiological and corrosion control in cooling water systems.

Microbiological organisms are composed of three classes: algae, bacteria, and fungus. Large biological organisms such as clams, snails, mussels, or similar species are referred to as macrobiological organisms. The presence of any biological growth can be detrimental to cooling tower operations. Problems include fouling, corrosion, and loss of efficiency. These problems can lead to downtime, higher operating cost, and even premature replacement of equipment. Additionally, some bacteria are pathogenic and can pose a risk to human life. To alleviate these problems, proper implementation of microbiological and corrosion control measures in cooling water systems is imperative.

This 2 PDH online course is intended for civil, environmental and sanitary engineers as well as other design and construction professionals interested in learning about microbiological and corrosion control in cooling

In this online engineering PDH course, background on the philosophical models that guide ethical behavior is discussed and then applied to specific situations in engineering codes of ethics. This course is based on the American Society of Mechanical Engineers Professional Practice Curriculum, Volume 8, Section: Engineering Ethics.

Many engineering organizations have drafted codes of ethics to which their members are required to commit.  Generally, these codes are quite similar and are based on a few fundamental principles which provide guidance to professional engineers in common situations. Nevertheless, there are many difficult or ambiguous situations in which the best ethical solution is difficult to determine.

This 2 PDH online course is intended primarily for engineers seeking to learn ethical principles and how to apply them to their professional practice.