Kayla Whitefield
About Kayla Whitefield
Kayla Whitefield is a Senior Inside Sales professional at Forum Energy Technologies, specializing in MultiLift Solutions. She has extensive experience in artificial lift systems and a background in clinical psychology from Texas Tech University.
Work at Forum Energy Technologies
Kayla Whitefield has been employed at Forum Energy Technologies since 2017, holding the position of Senior Inside Sales for MultiLift Solutions. She operates out of Odessa, Texas, and has contributed significantly to the company over her seven years of service. Her role involves collaborating with a dedicated team of technical experts to enhance artificial lift systems. Whitefield has also played a key role in the development and promotion of custom, easy-to-install products that utilize next-generation technology.
Previous Employment Experience
Before joining Forum Energy Technologies, Kayla Whitefield worked as a Recruiter at KeyStaff from 2016 to 2017 in the Dallas/Fort Worth Area. Prior to that, she served as a Sales Administrator at Knight Energy Services, LLC from 2014 to 2015 in the Odessa/Midland, Texas Area. Her diverse experience in sales and recruitment has contributed to her expertise in the industry.
Education and Expertise
Kayla Whitefield studied Clinical Psychology at Texas Tech University from 2011 to 2014. This educational background has equipped her with valuable skills that complement her professional roles in sales and technical solutions. Her expertise includes a proven track record in protecting against cable breaks, hard starts, gas slugs, and corrosion in artificial lift systems.
Professional Contributions
At Forum Energy Technologies, Kayla Whitefield has made significant contributions to the development of innovative products that enhance the efficiency of artificial lift systems. Her involvement in promoting custom solutions reflects her commitment to leveraging technology to address industry challenges. Whitefield's role in a team of technical experts underscores her dedication to advancing the capabilities of artificial lift systems.