Each team has a unique 'team personality' made up from the individuals that form it. It is this aspect that determines how effectively the team works together, the quality of their performance and what they are capable of achieving. This course looks at how teams work together to achieve common results, referred to as team objectives. Effective teams have a common 'team spirit' which directly impacts on their results.
Leaders and managers are powerful people who are able to exercise considerable influence over the way in which an organisation operates and its employees. Ethical leadership involves the way that managers and leaders carry out their decision-making in terms of moral issues and choices. It is concerned with right versus wrong, good versus bad and the many shades of grey in between. Moral implications spring from virtually every decision, both on and off the job, requiring the ethical leader to have more imagination and the courage to do the right thing, from an ethical standpoint. This course examines the role of the ethical leader and the influence that he or she can exert in terms of corporate social responsibility (CSR) and improving an organisation’s ethical climate.
Estimates show that some 70% of your work time is spent in some aspect of communication or another. With so much practice and experience, it would appear that we are all experts, but that is not the case. This course looks at your ability to reach a shared or common understanding with another person and how you apply your verbal and written abilities as well as your capacity to listen and understand.
Transforming leadership is about leaders having a transforming approach to their work and lives. They operate from a set of core beliefs about people that when displayed and operated upon, motivate them to perform effectively and contribute to the development of the organisation. This transforming approach simultaneously impacts the personal development and corporate productivity of all involved. This course explores seven key areas to help you become more effective as a leader.
Much of management is about finding creative solutions to problems and identifying the appropriate course of action. Creativity and originality explores the power of the mind in bringing things into being from original thought or basic concepts. This course sets out to demonstrate how the power of imagination can build on original thoughts to create solutions and plans, which contribute to workplace performance.
Personal character is the sum of your moral and ethical qualities. It is these same qualities that provide the foundation for your working relationships. This course helps you to reflect on your work behaviour and how this manifests itself in terms of integrity. Without this it is impossible to lead and manage a team with any degree of lasting success. Nor is it possible to survive in an organisation, which is not dedicated to ethical relationships.
After completing this course, participants will be able to: Contrast the difference between types of Electric Vehicles (EV) including Hybrid Electric Vehicles (HEV), Plug-in Hybrid Electric Vehicles (PHEV) and Battery Electric Vehicles (BEV). Describe the various commercial and industrial EV in the marketplace and their charging equipment requirements. Demonstrate awareness of the various terminologies used throughout the EV industry to describe equipment supplying energy to charge EV. Describe the difference between AC Electric Vehicle Supply Equipment (EVSE), DC charging equipment, and wireless EV charging. Explain the benefits of conducting a site assessment and what should be considered when installing Electric Vehicle Charging Equipment (EVCE). Demonstrate an awareness of specific utility and municipal requirements for the installation of EVCE.
In this class, we'll review basic PV system types that use battery storage, the various use cases, and we'll take an in-depth look at what metrics are used to compare technologies. We'll discuss features of the most common battery chemistries currently used with PV systems and compare them. We'll look at how battery chemistry impacts battery bank sizing by reviewing a couple of design examples. Finally, we'll use a design example as the basis for a cost comparison of different battery technologies looking at both upfront and life cycle costs.
Common chemistries, including lead acid, lithium ion, and nickel iron, each have different installation, maintenance, storage, and transportation requirements that can lead to fatal consequences if not conducted properly. This 8-hr online course, produced under an OSHA Susan Harwood Training Grant, provides training on the hazards associated with each energy storage technology and the control measures to eliminate or mitigate those hazards. This training includes five lessons for a total of 4 contact training hours. Lessons includes presentations, field videos, interactive exercises, and quizzes. Lesson content includes Lesson 1: Introduction to the Course and OSHA requirements Lesson 2: Energy Storage Technologies- Energy storage basics, lead-acid energy storage systems, lithium-ion energy storage, other types of electrochemical energy storage systems Lesson 3: Energy Storage Safety Regulations- OSHA safety regulations, NFPA 70 (the National Electrical Code) and NFPA 70E (Standard for Electrical Safety in the Workplace) NFPA 855 (Installation of Stationary Energy Storage Systems), the International Residential Code (IRC) and the International Fire Code (IFC) Lesson 4: Electrical Hazards- Electrical shock hazards, electrical arc flash hazards, electrical PPE, electrical connection hazards Lesson 5: Other Hazards- Chemical hazards, fire hazards, gas hazards, physical hazards, storage and transportation hazards, temperature effects on batteries, working space and clean installations
Thermal inspections of PV arrays specifically can safely provide fast and accurate information regarding system health. We will present the fundamental theories and considerations for proper thermal camera use including the various applications in solar operations and maintenance (O&M) and how to read test images. We will also review several IR cameras that are commercially available and commonly used in PV inspections. Drones are another tool whose use in PV installation and inspection has increased in recent years. We will discuss the fundamentals of drones and discuss considerations when selecting a drone for commercial use. Drones can be used in a variety of applications: to obtain site information pre-sale; site or system mapping; during and after installation to determine progress; and finally to perform aerial thermographic inspections. Examples of the latter will be looked at and assessed in this course. We will introduce licensure requirements as well as common models of drones - and price points - that are commercially available which can be used in PV applications.