DESIGN OF CONTROL AND ACTUATING MECHANISM FOR MICROGRID MAINTENANCE SUBSYSTEM IN 3T REGION
ABSTRACT DESIGN OF CONTROL AND ACTUATING MECHANISM FOR MICROGRID MAINTENANCE SUBSYSTEM IN 3T REGION By Michael Kresna Putra NIM: 13218066 (Bachelor ) The location of the power plant and microgrid system which is in the 3T (Lagged, Frontier, Outermost) area makes the mitigation process in the...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/66527 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | ABSTRACT
DESIGN OF CONTROL AND ACTUATING MECHANISM FOR
MICROGRID MAINTENANCE SUBSYSTEM IN 3T REGION
By
Michael Kresna Putra
NIM: 13218066
(Bachelor )
The location of the power plant and microgrid system which is in the 3T (Lagged,
Frontier, Outermost) area makes the mitigation process in the power plant and
microgrid system in an emergency more difficult due to transportation access and
limited system capabilities. Thus, the design of a suitable microgrid system in the
3T area needs to be equipped with a control mechanism to carry out emergency
system maintenance that can be carried out remotely, is easy to operate without a
central operator having to go to the site and is able to handle major scenarios that
can disrupt production of electricity to households in the 3T area, such as
conditions where there is a shortage of energy reserves from the microgrid system
or an excess of nominal current. In addition, the control mechanism must also be
able to be operated easily by the operator remotely while still considering the safety
and authentication of every action taken. The design of the control mechanism will
be carried out using the Smart Grid Architecture Model (SGAM) approach to
identify the components and activities involved in each layer.
Keywords: 3T, control, operator. |
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