Post on 11-May-2017
ISO 9001:2008 Certified Energy Services Company
Malaysia’s leading
Energy Services Company
…… Since 1996
Mr. Udupi Krishna KumarEngineering Director
MATRIX ENERGY (M) SDN. BHD.
Energy Efficiency & Renewable Energy for Green Communities
Technology Expertise
Carbon Emission Reduction
Sustainability
Energy Saving
Green Economy
0
50
100
150
200
250
300
350
CO
2em
issio
ns (
Millio
n t
on
nes)
Year
Projected CO2 emissions in Malaysia, 2000-2020
Electricity generation
Industrial
Transport
Residential
Total
The Driving ForceGHG Emission/Climate Change
The launch of the National Green
Technology Policy on 24 July last
year by Prime Minister reflects the
Government’s earnest move for
green technology to act as a
catalyst for economic growth along
the low-carbon trajectory in
Malaysia.
“Green Technology will offer enormous opportunities
and potential for innovation, wealth creation and
economic growth”
“It can create a revolutionary impact on our lives and
reduce Malaysia’s carbon footprint while enhancing
environmental sustainability”
Dato’ Sri Peter Chin Fah KuiMinister of Energy, Green Technology & Water.
Malaysia’s Prime Minister says that
the country is committed to
adopting green technology and
renewable energy.
“Only those who master the
application of green technology and
sustainable energy will be the
winners in the 21st century,” he said
at the launch of the Green
Technology Financing Scheme.
In line with National Green Technology Objective
To minimize growth of energy consumption while enhancing economic development;
To facilitate the growth of the Green Technology industry and enhance its contribution to the national economy;
To increase national capability and capacity for innovation in Green Technology development and enhance
Malaysia’s competitiveness in Green Technology in the global arena;
To ensure sustainable development and conserve the environment for future generations; and
To enhance public education and awareness on Green Technology and encourage its widespread use.
Green Technology Objective
Ministry of Energy, Green Technology and Water - Malaysia
Green IT
Balancing Responsibility, Accountability, and the Economy
• Largely ROI driven
• Heavy emphasis on power savings
• Expanding focus on non-power related green issues
Green IT activity to date
Green IT in 2010
Economic Challenges
New Mandates & Requirements coming E-Waste
Power Usage
Movement continues to grow Green is no longer a nice ‘tag line’
Organizations will be expected to deliver
Need to re-think your approach
Organizational Vision
Data Center
Create Green Technology Portfolio
Create Green Technology Portfolio
• Covers all the Green IT options
• Balance– Energy Savings
– Environmental impact
– Cost reduction
– Staff acceptance
– Communications Impact
– Customer / Vendor Acceptance
– Mandates / Requirements
Not just a Help Desk or IT discussion!
Components of a Green IT Portfolio
Virtualization
• Not really about green, but high impact for Green portfolio
– Power savings
– Reduction of legacy technology equipment
– Smaller heating/cooling footprint
Next Steps
• Establish Baselines Spending– Power
– Consumables
– Material Disposal
• Establish Environment Goal– Reduction of hazardous material
– Improvement of e-waste management
– Reduce paper consumption
• Set Goals per category
• Increase fuel efficiency standards for vehicle, appliances, buildings
• Tax and other financial incentives for energy efficiency
• Subsidize renewable energy use, research and development
• Internalize externalities for fossil fuels
• By 2050: – Increase renewable energy to 50%
– cut coal use by 50%
Creating a Sustainable Energy Future
Solutions: A Sustainable Energy Strategy
Energy Efficiency & Renewable EnergyDirect Impact on Economic & Environmental Bottom line
Renewable Energy
Building Integrated Photo Voltaics
Energy Efficiency:
We all know that being energy efficient saves both
money and the planet, but what is the actual
definition of energy efficiency?
'using less energy to provide the same
or improved level of output'
An energy resource that is
replaced rapidly by natural
processes.
Some examples of renewable
energy resources are
sunlight, hydropower (water
falling through a dam), and
wood.
Renewable Energy
• task 1a: Meeting with top management
• task 1b: Form a Team and inform staff
• task 1c: Pre-assessment to collect general information
• task 1d: Select focus areas
• task 1e: Prepare assessment proposal for top management approval
Step 1: Planning and Organization
• task 2a: Staff meeting and training
• task 2b: Prepare focus area flow charts
• task 2c: Walkthrough of focus areas
• task 2d: Quantify inputs and outputs and costs to establish a baseline
• task 2e: Quantify losses through a material and energy balance
Step 2: Assessment
• task 3a: Determine causes of losses
• task 3b: Identify possible options
• task 3c: Screen options for feasibility analysis
Step 3: Identification of Options
• task 4a: Technical, economic and environmental evaluation of options
• task 4b: Rank feasible options for implementation
• task 4c: Prepare implementation and monitoring proposal for top
management approval
• task 5a: Implement options and monitor results
• task 5b: Evaluation meeting with top management
Step 5: Implementation and Monitoring of Options
• task 6a: Prepare proposal to continue with energy efficiency for top
management approval
Step 6: Continuous Improvement
Step 4: Feasibility Analysis of Options
• task 1a: Meeting with top management
• task 1b: Form a Team and inform staff
• task 1c: Pre-assessment to collect general information
• task 1d: Select focus areas
• task 1e: Prepare assessment proposal for top management approval
Step 1: Planning and Organization
• task 2a: Staff meeting and training
• task 2b: Prepare focus area flow charts
• task 2c: Walkthrough of focus areas
• task 2d: Quantify inputs and outputs and costs to establish a baseline
• task 2e: Quantify losses through a material and energy balance
Step 2: Assessment
• task 3a: Determine causes of losses
• task 3b: Identify possible options
• task 3c: Screen options for feasibility analysis
Step 3: Identification of Options
• task 4a: Technical, economic and environmental evaluation of options
• task 4b: Rank feasible options for implementation
• task 4c: Prepare implementation and monitoring proposal for top
management approval
• task 5a: Implement options and monitor results
• task 5b: Evaluation meeting with top management
Step 5: Implementation and Monitoring of Options
• task 6a: Prepare proposal to continue with energy efficiency for top
management approval
Step 6: Continuous Improvement
Step 4: Feasibility Analysis of Options
Project Flow Chart
Barriers
Primary
Secondary
Barrier:
Environment seen as
• Compliance issue
• Cost burden
Result: Companies
not willing to look at
environment unless
they absolutely need to
Ways to Improve Energy Efficiency
Insulation
Eliminate air leaks
Air to air heat exchangers
Efficient appliances
Efficient electric motors
High-efficiency lighting
Increasing fuel economy
ENERGY EFFICIENCY PRODUCT RANGE:
1. MATRIX ENERGY SAVING DEVICE FOR LIGHTING CIRCUITS
2. MATRIX POWER CONTROLLER FOR AHU/FCU
3. MATRIX STREETLIGHTING MANAGEMENT SYSTEM
4. MATRIX GSM BASED REMOTE MONITORING SYSTEM
5. MATRIX OPTIMA FOR PETROL STATIONS & RETAIL OUTLETS
6. MATRIX CHILLER OPTIMIZER FOR CHILLER SYSTEM MANAGEMENT
7. MATRIX AUTOMATIC VOLTAGE STABILZERS FOR POWER QUALITY IMPROVEMENT
8. MATRIX COOLFLO ENERGY EFFICIENT FANS FOR COOLING TOWERS & HEAT EXCHANGERS
9. MATRIX POWER FACTOR REGULATOR SYSTEM
10.VARIABLE FREQUENCY DRIVE SYSTEM FOR MOTORS
11. COMPRESSED AIR MANAGEMENT SYSTEM
12.T5 LAMPS & LED BASED LIGHTING RETROFITTING
13.ENERGY EFFICIENT PRISMATIC LUMINAIRE SYSTEM
14.CUSTOMIZED ENERGY MANAGEMENT AUTOMATION & SOFTWARE SOLUTIONS
ENERGY SERVICES:
1. ENERGY AUDITING & BENCHMARKING
2. ENERGY MANAGEMENT CONSULTANCY
3. ENERGY RELATED DESIGN & RE-ENGINEERING
4. ENERGY SAVING MEASUREMENT & VERIFICATION SERVICES
5. CARBON EMISSION REDUCTION ANALYSIS
RENEWABLE ENERGY PRODUCT RANGE:
1. SOLAR PHOTOVOLTAIC POWER SYSTEM
2. WIND TURBINE GENERATING SYSTEM
3. SOLAR THERMAL SYSTEM
Comprehensive Energy Solutions
MATRIX ENERGY
MANAGEMENT SOLUTION
FOR
UPTO 20%
CO$T $AVINGREFRIGERATION CONTROL
REMOTE ENERGY MONITORING
SYSTEMS
COOLFLO ENERGY
EFFICIENT FANS
MATRIX POWER
CONTROLLERS
SOLAR PHOTOVOLTAIC
SYSTEMS
ENERGY RETROFITS
MATRIX FREQUENCYCONTROLS
HIGH EFFICIENCY
MOTORS
MATRIX ENERGY SAVERS
MATRIX CHILLER OPTIMIZERS
Matrix Green Technology Integration
Energy Usage
Air Conditioning
- Chiller
- Air Handling Units
1. Air/Water Cooled Package Units
- Condenser Water Pumps
- Chilled Water Pumps
- Cooling Towers
2. Centralized Air Conditioning
Lighting
Lifts
Pumps
General Power Sockets
Energy Saving Solutions
Air Conditioning
- Chiller - Matrix Chiller Optimizers
- Air Handling Units - Matrix Power Controllers
1. Air/Water Cooled Package Units - Matrix Power Controllers
- Condenser Water Pumps - VFVS Drives
- Chilled Water Pumps - VFVS Drives
- Cooling Towers - COOLFLO Hollow FRP Fans
2. Centralized Air Conditioning
Lighting - Matrix Energy Savers
Lifts - Frequency Inverters / Zoning Automation System
Pumps - VFVS Drive
General Power Sockets – Matrix Power Saving Stabilizers
Maximum Demand Strategic Planning & Power Quality Improvement
T5 Re-lamping Installation in Penang Logistics Hub (PLH)
Installation at Module 1 Installation at Module 2
Energy Audit
DATA
COLLECTION
MEASUREMENTS
Analysis
CHILLER13509 KWHr
31.09%
CHILLER SAVING1501 KWHr
3.45%
PUMPS AC5135 KWHr
11.82%
COOLING TOWER494 KWHr
1.14%
COOLING SAVING123.5 KWHr
0.28%
AHU8832 KWHr
20.32%
AHU SAVING768 KWHr
1.77%
FCU1194 KWHr
2.75%
FCU SAVING104 KWHr
0.24%
LIGHTING5850 KWHr
13.46%
LIGHTING SAVING1950 KWHr
4.49%
ROOMS1384 KWHr
3.18%
ROOMS SAVING121 KWHr
0.28%
LIFTS & OTHERS400 KWHr
0.92%
KITCHEN & LAUNDRY1140 KWHr
2.62% KITCHEN & LAUNDRY SAVING
60 KWHr0.14%
DOMESTIC WATER PUMP892 KWHr
2.05%
Implementation
WIND TURBINE GENERATOR
INVERTERS
SOLAR THERMAL SYSTEM
SOLAR PV
• LIGHTING
• WATER PUMPING
ELECTRICAL ENERGY SAVING REPORT
FLEXTRONICS TECHNOLOGY (SHAH ALAM) SDN. BHD.
CONNECTED LOAD KW OP HRS OP DAYSKWHR/
MONTH
KWHR
(RM) MD (RM)
BASELINE
TNB BILL (RM)
ENERGY
SAVING
COST
SAVING
(RM)
TOTAL
SAVING
TNB BILL
(RM)
LIGHTING 423 23.1 30 293,139 51,592.46 9,179.10 60,771.56 25% 15,192.89 4.1% 45,578.67
AHU 543 17.7 30 288,333 50,746.61 11,783.10 62,529.71 12% 7,503.56 2.0% 55,026.14
CHILLER 600 24.0 30 432,000 76,032.00 13,020.00 89,052.00 8% 7,124.16 1.9% 81,927.84
COOLING TOWER 105 24.0 30 75,600 13,305.60 2,278.50 15,584.10 25% 3,896.03 1.1% 11,688.08
PUMPS 240 24.0 30 172,800 30,412.80 5,208.00 35,620.80 8% 2,849.66 0.8% 32,771.14
MACHINE & OTHERS 1,089 14.4 30 471,082 82,910.43 23,631.30 106,541.73 5% 5,327.09 1.4% 101,214.65
TOTAL 3,000 1,732,954 304,999.90 65,100.00 370,099.90 41,893.39 11.3% 328,206.51
OCCUPIED FLOOR AREA 45,043.09
DESCRIPTION (BASELINE) BEFORE SAVING AFTER SAVING
MONTHLY ENERGY COST
INDEX8.22 ( RM / m² ) 7.29 ( RM / m² )
MONTHLY ENERGY INDEX 38.47 ( KWHr / m² ) 34.13 ( KWHr / m² )
TOTAL POWER INDEX 66.60 ( Watts / m² ) 59.08 ( Watts / m² )MATRIX ENERGY (M) SDN. BHD.
Project Results
CRANES (AFTER SAVING)
498,566.98 27%
SAVING(CRANES)
55,396.33 3%
REEFERS (AFTER SAVING)
455,919.34 25%
SAVING (REEFERS)
50,657.70 3%
PORT LIGHTING (AFTER
SAVING)
36,072.42 2%
SAVING (PORT LIGHTING)
12,024.14 1%
ADMIN BUILDING(AFTER
SAVING)
292,556.88 16%
SAVING (ADMIN BLDG)
32,506.32 2%
TENANTS
21,045.18 1%
MAXIMUM DEMAND(AFTER
SAVING)
356,297.11 19%
SAVING (MAX. DEMAND)22,742.37
1%
ELECTRICAL ENERGY SAVING PROJECTION ANALYSIS
PORT OF TANJUNG PELEPAS
MONTHLY ELECTRICITY COST SAVING
RM 183,378.00
Comprehensive Energy Saving Project
Green Partners
Business leaders are
becoming increasingly
aware of the need for
energy efficiency and
the potential impact this
can have on reducing
operating costs.
• OUTRIGHT PURCHASE
Needs Capital Investment, Return through saving
Shorter Payback Period ( 2.5 years to 4 years)
Risk Factor – High, if No Money Back Guarantee on Minimum Saving
• HIRE PURCHASE
Requires Down Payment
Fixed Monthly Installments payable through monthly saving
Risk factor – Moderate, if No money back guarantee on min saving
Payback Period (5years to 6 years)
• PARTIAL INVESTMENT SHARED SAVING
Partial Capital Investment, proportionate share from Saving
Payback Period ( 5 years to 6 years)
Risk factor – Low, higher share from saving
• ENERGY PERFORMANCE CONTRACT
No Capital Investment, Lower share from Saving
Contract Period ( 6 to 15 years)
Risk factor – Very Low, No Capital at stake.
Procurement Options
Thank You