new - the global specialist in energy management - Schneider Electric
new - the global specialist in energy management - Schneider Electric
new - the global specialist in energy management - Schneider Electric
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Installation Assessment<br />
MP4 Methodology<br />
www.eastmed.schneider-electric.com<br />
Step 1<br />
Specify your electrical <strong>energy</strong><br />
needs and assess your current<br />
capabilities<br />
@ Understand your process & quantify your<br />
risks<br />
@ Identify <strong>the</strong> critical po<strong>in</strong>ts <strong>in</strong> your process<br />
@ Make <strong>the</strong> l<strong>in</strong>k with <strong>the</strong> electrical network,<br />
and p<strong>in</strong>po<strong>in</strong>t <strong>the</strong> devices or busbars that<br />
could trigger <strong>the</strong>se high-risk events<br />
@ Locate <strong>the</strong> ma<strong>in</strong> <strong>energy</strong> consumption po<strong>in</strong>ts<br />
@ Understand your current and future<br />
operations & ma<strong>in</strong>tenance organisation and<br />
capabilities<br />
Example of process modelization and critical po<strong>in</strong>ts<br />
Step 2<br />
Assess equipment and<br />
evaluate network robustness<br />
@ For each set of equipment, build a stress<br />
<strong>in</strong>dicator based on:<br />
_ environmental conditions (humidity,<br />
temperature, sal<strong>in</strong>ity, etc.)<br />
_ operat<strong>in</strong>g conditions (load rate, number<br />
of operations, etc.)<br />
_ equipment age<strong>in</strong>g<br />
@ Carry out a reliability study to evaluate <strong>the</strong><br />
robustness of network design with regards to<br />
<strong>the</strong> critical po<strong>in</strong>ts identified <strong>in</strong> Step 1<br />
@ Classify each set of equipment accord<strong>in</strong>g to<br />
its contribution to <strong>the</strong> probability of occurrence<br />
of <strong>the</strong> unwanted events<br />
Example of equipment assessment<br />
Example of electrical risk identification Example of reliability calculation<br />
Dis_Valti1_P63<br />
Dis_Valti2_P63<br />
Dis_Valix_P63<br />
Dis_ATM_P63<br />
Dis_Filag_P63<br />
CM_Bat1_P63<br />
CM_Bat2_P63<br />
IM_Arv_VN<br />
TM_VN<br />
Dis_TGL_VN<br />
DisBT_S_Drev<br />
DisBT_N_Drev<br />
JDBbt_Lam_TGL<br />
CabBT_TGL_Drev<br />
CabBT_TGL_Lam<br />
EDF,<br />
Dis_EDF_P63<br />
Zz_Cab_63kV<br />
JDB_63kV_P63<br />
TR1_63kV<br />
TR2_63kV<br />
Dis_TR1_P63<br />
JDB_5kV_P63<br />
Cab_P63_VN<br />
Cab_TR1_P63<br />
JDB_5kV_VN<br />
Cab_VN_trTIV<br />
DisBT_geTIV<br />
CabBT_TR1_TGL<br />
CabBT_TR2_TGL<br />
CabBT_TR3_TGL<br />
...<br />
Reliability Level<br />
Low<br />
Medium<br />
High