[vc_row css=”.vc_custom_1667962416911{padding-bottom: 30px !important;}”][vc_column][vc_single_image image=”902″ img_size=”full”][/vc_column][/vc_row][vc_row css=”.vc_custom_1633505885697{padding-bottom: 80px !important;}”][vc_column width=”2/3″][vc_custom_heading text=”Economic Benefits of PFCS-LCE” use_theme_fonts=”yes”][vc_column_text el_class=”x-main-product_block”]
(1) Saving the costs of reactive energy
- PF 0.84-0.75 : 1.5% each of total bills.
- PF 0.74 downwards : 3% each of total bills.
- example : 500kW operating for 4,000H per annum & at average PF 0.7.
- Chargeable reactive energy : [(500kWx4,000) x 0.4] x 30%= RM 240,000 per annum.
- Required PFCS capacity 268 kVAr ,Payback period less than 1 year illustrates the economic viability of PFCS-LCE.
(2) Additional savings through reduce active power losses
- The use of PFCS-LCE reduces the apparent power (kVA) in the company network and hence also the power losses and the costs for active energy (kWh) in addition to saving reactive energy costs.
- The PFCS-LCE also reduces the costs for the active power expended on network losses depends on equipment performance (3-5%).
(3) Reduction in investment costs
- If the company is planning to extend its facilities and increase its power demand by 200 kW from the present level of 500 kW.
- The existing transformer with a rating of 800 kVa has been adequate to date but would be overloaded after the plan expansion, making it necessary to extend the power infrastructure, with a transformer, switch gear, cabling, distribution board, etc.
- In this case, the apparent power can be reduced by means of PF correction, so that the existing infrastructure is still adequate.
- in this project, the PFCS-LCE system involves a considerably smaller investment than an expended infrastructure, means a cost saving of RM 135,000.
(4) PFCS-LCE reduces RE infra costs & expedites the ROI
- Factory consuming active & reactive power WITHOUT SOLAR SYSTEM
- Factory with 60kW PV system producing power at a unity Power Factor
- System installed with reactive power control to produce active & reactive power
- Impact of PFCS-LCE
–Increased the PF Grid at optimum level by compensating the reactive elements near to the load
[/vc_column_text][/vc_column][vc_column width=”1/3″ el_class=”x-main-product_images”][vc_single_image image=”688″ img_size=”full” css_animation=”bottom-to-top”][/vc_column][/vc_row][vc_row css=”.vc_custom_1633505885697{padding-bottom: 80px !important;}”][vc_column width=”2/3″][vc_custom_heading text=”Reducing power losses through PFCS-LCE
(Saving Co2 emissions)” use_theme_fonts=”yes”][vc_column_text el_class=”x-main-product_block”]
- PFCS-LCE reduces the apparent power in a network, and thus the current loading in the same proportion. Network power losses are proportional to the square of the current
- 5% less current = 10% lower losses
- Meanwhile, power factor is an indication of the proportion of reactive power in a network, the graph illustrates how the current loading and network losses depend on power factor
- i.e. the lower the power factor, the higher are the reactive power, current loading and network losses
There are 3 scenarios
Scenarios 1 : No PF correction
Where reactive charges or power factor fee being charges to the consumer.
Scenario 2 : Partial PF correction
Where consumer partially corrected the PF unit with no PF fee imposed due to the partially kVAr install to a network or causes by non inductance equipment
Scenario 3 : Full PF correction
Where the maximum reduction in network losses achieved
Notes :
Reduction of annual network losses by 1.5 billion kWh roughly equivalent to the energy generated by 1 coal-burning power station/0.45 million household consumption
[/vc_column_text][/vc_column][vc_column width=”1/3″ el_class=”x-main-product_images”][vc_single_image image=”745″ img_size=”full” css_animation=”bottom-to-top”][vc_single_image image=”744″ img_size=”full” css_animation=”bottom-to-top”][vc_single_image image=”699″ img_size=”full” css_animation=”bottom-to-top”][/vc_column][/vc_row][vc_row css=”.vc_custom_1633505885697{padding-bottom: 80px !important;}”][vc_column width=”2/3″][vc_custom_heading text=”How PFCS-LCE compensates other energy savings solution” use_theme_fonts=”yes”][vc_column_text el_class=”x-main-product_block”]
Smart grid is very important aspects to ensure our clean energy being transported efficiently to end users. Grid with high proportion of reactive energy will cost more network losses. With PFCS-LCE
- it creates more space to the transmission & distribution infrastructure including transformer, switch gear, cabling, distribution board, etc.
- It can lower the investment costs for new infrastructure in transporting a clean energy from solar, wind and others.
- On grid, the performance of the storage equipment such as solar batteries also can be improve by increasing network efficiency level.
- Besides, our green data centre can measure all the consumption movement more precisely by using kVA (apparent power) as a basis. This will definitely expedite the objective of zero carbon emissions.
[/vc_column_text][/vc_column][vc_column width=”1/3″ el_class=”x-main-product_images”][vc_single_image image=”705″ img_size=”full” css_animation=”bottom-to-top”][/vc_column][/vc_row][vc_row css_animation=”bottom-to-top” css=”.vc_custom_1668138015970{padding-top: 60px !important;}” el_class=”x-cost-saving_block” el_id=”cost-saving”][vc_column][vc_custom_heading text=”Higher Power Factor will save your money” font_container=”tag:h1|text_align:center” use_theme_fonts=”yes” subtitle=”Determination of “Cost Savings“”][vc_row_inner][vc_column_inner el_class=”x-no1″ width=”1/2″][stm_info_box title=”Saving the costs of reactive energy” image=”203″ vc_image_size=”full”]Required PFCS capacity 268 kVAr ,Payback period less than 1 year illustrates the economic viability of PFCS-LCE[/stm_info_box][/vc_column_inner][vc_column_inner el_class=”x-no2″ width=”1/2″][stm_info_box title=”Additional savings through reduce active power losses” image=”201″ vc_image_size=”full”]The use of PFCS-LCE reduces the apparent power (kVA) in the company network and hence also the power losses and the costs for active energy (kWh) in addition to saving reactive energy costs.[/stm_info_box][/vc_column_inner][/vc_row_inner][vc_row_inner][vc_column_inner el_class=”x-no3″ width=”1/2″][stm_info_box title=”Reduction in investment costs” image=”201″ vc_image_size=”full”]The existing transformer with a rating of 800 kVa has been adequate to date but would be overloaded after the plan expansion, making it necessary to extend the power infrastructure, with a transformer, switch gear, cabling, distribution board, etc.[/stm_info_box][/vc_column_inner][vc_column_inner el_class=”x-no4″ width=”1/2″][stm_info_box title=”PFCS-LCE reduces RE infra costs & expedites the ROI” image=”200″ vc_image_size=”full”]Factory consuming active & reactive power WITHOUT SOLAR SYSTEM.[/stm_info_box][/vc_column_inner][/vc_row_inner][vc_row_inner][vc_column_inner el_class=”x-no5″ width=”1/2″][stm_info_box title=”Reduce maintenance cost of machinery and electrical equipment” image=”202″ vc_image_size=”full”]Since both are absorbing current at optimum level, there is no problem of excessive supply. When equipment is running at optimum level, the cost of maintenance and parts replacement will subsequently reduce.[/stm_info_box][/vc_column_inner][vc_column_inner el_class=”x-no6″ width=”1/2″][stm_info_box title=”Reduces the reinvestment cost on acquiring new machine or repurchasing of electrical equipment” image=”201″ vc_image_size=”full”]Prolong the lifespan of the equipment.[/stm_info_box][/vc_column_inner][/vc_row_inner][vc_row_inner][vc_column_inner el_class=”x-no7″ width=”1/2″][stm_info_box title=”Prolong the servicing and replacement cycle of main Capacitor bank as the power factor rating is jointly controlled with our product” image=”200″ vc_image_size=”full”]It is common knowledge that the servicing or replacement capacitor bank is expensive and this is not included the calibration fee.[/stm_info_box][/vc_column_inner][/vc_row_inner][/vc_column][/vc_row][vc_row css=”.vc_custom_1633516298880{padding-top: 40px !important;}”][vc_column][vc_column_text]We will also provide post installation analysis upon receiving the next electricity bill to evidence the savings achieved by our customer.[/vc_column_text][/vc_column][/vc_row][vc_row css=”.vc_custom_1633569628861{padding-top: 80px !important;}” el_class=”x-installation_block”][vc_column][vc_custom_heading text=”Installation” use_theme_fonts=”yes”][vc_row_inner][vc_column_inner width=”1/4″][stm_info_box]Installation will be done at MSB, ELCB or MCB depending upon the wiring setup.[/stm_info_box][/vc_column_inner][vc_column_inner width=”1/4″][stm_info_box]Jointly control with existing capacitor bank to increase power factor unit without changing the whole MSB or DB setup via save cost.[/stm_info_box][/vc_column_inner][vc_column_inner width=”1/4″][stm_info_box]Installing at ELCB of sub DB to determine which DB have inductance load (more resistance ) that cause low power factor.[/stm_info_box][/vc_column_inner][vc_column_inner width=”1/4″][stm_info_box]Installing at MCB (lighting) give the optimum reduction of apparent power and can save cost.[/stm_info_box][/vc_column_inner][/vc_row_inner][/vc_column][/vc_row][vc_row disable_element=”yes” css=”.vc_custom_1667785616803{padding-top: 80px !important;}” el_id=”previous-works”][vc_column][vc_custom_heading text=”Previous Works” use_theme_fonts=”yes”][vc_column_text el_class=”x-align_center”]
- Office – Private / Government
- Installation – Shops
- Installation – Restaurants
- Installation – Factory
[/vc_column_text][vc_column_text el_class=”x-align_center2″]
- Berjaya Starbuck Coffee Company Sdn Bhd
- Watson Personal Cares Stores Sdn Bhd
- SME Bank Berhad
- GCH Retail (Malaysia)
- Federal Power & Telecoms Sdn Bhd
- Marry Brown Sdn Bhd
- Hospital Sultanah Aminah
- MBJB
- Wisma Nanas
- Lebuh AMJ, Street Lighting, Melaka
- Kedai Ayamas Sdn Bhd
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