FOR IMMEDIATE RELEASE: July 13, 2015
DABS Engineer Fixes Two-Year Problem at Tarakhil Plant
Kabul, Afghanistan – For two years, the problem at Tarakhil Power Plant baffled engineers and
international consultants. However, Afghan engineer Ehsan Khaibar figured out how to bring the
plant’s master engine controls back online. Khaibar, an electrical engineer, works at the Afghan
national power utility, Da Afghanistan Breshna Sherkat (DABS).
Khaibar’s solution potentially saved the U.S. government more than $850,000 and put an end to a
challenge that two international contractors were unable to solve over the last two years. He also
successfully repaired the system that controls the switchyard of the power plant.
The fix to Tarakhil’s Master Supervisory Control and Data Acquisition (SCADA) system enables
operators to control all 18 engines of the power plant from one power control room. Previously
each block of engines had to be controlled from three different control centers.
“We applaud engineer Khaibar for his work to repair the control system and make Tarakhil Power
Plant run more efficiently,” said William Hammink, Mission Director of the U.S. Agency for
International Development (USAID). In early May, Hammink presented a U.S. Embassy
certificate to Khaibar at a meeting with DABS CEO Abdul Raziq Samadi and other DABS and
“I did not fix this problem just as part of my job,” Khaibar said, “I did it to fulfill my responsibility for
my country and people.” In 2010, Khaibar spent five months in a USAID-supported training
program for engineers in Turkey.
With USAID’s financial help, DABS is handling procurement of construction contracts to build
more than 500 kilometers of transmission lines and several substations to connect power from
Kabul to Kandahar. The $814 million Power Transmission Expansion and Connectivity project
began in 2012 and is scheduled to be completed by December 2018.
The project is designed to expand and improve Afghanistan’s electric transmission system and
build DABS’s ability to operate through increasing revenue production and reducing revenue