C o m p a n y P r o f i l e - Enmac Sekutuenmacsekutu.com/ESSB_CV.pdfEnmac Sekutu Sdn Bhd is an...
Transcript of C o m p a n y P r o f i l e - Enmac Sekutuenmacsekutu.com/ESSB_CV.pdfEnmac Sekutu Sdn Bhd is an...
T : +60 3 2162 1684 / +60 3 2163 1885F : +60 3 2161 1422 W : enmacsekutu.comE : [email protected] #383, Lot 7.10, 7th Floor, Wisma Central, Jalan Ampang 50450 Kuala Lumpur, Malaysia.
Enmac Sekutu Sdn Bhd
C o m p a n y P r o f i l e
Table of ContentsOverview 1
Corporate Profile 2
Professional Affiliation 2
Capabilities 3
Core Services 3
Services 4
Strengths 4
Key Projects 6
Overseas Projects 6
District Cooling System 7
Combined Cycle Power Plant 11
Aerospace Systems 17
Hospital and Medical Centres 18
Commercial Complexes 19
Residential Projects 21
Mixed Development 22
Renewable Energy and Energy Efficiency 23
Solar Photovoltaic Feed-in Tariff (FiT) 24
Palm Oil Mill Effluent Treatment and Water Recycling System 24
Biogas Plant Integration with Palm Oil Mill 26
Smart City 27
Smart City and ICT 28
Overview
Enmac Sekutu Sdn Bhd is an established professional engineering consultancy firm based in Malaysia
specialising in Mechanical and Electrical engineering services. Our company was founded in 1986 and
incorporated as a Private Limited Company (Sdn Bhd) in 1996.
Our company serves as an one stop solution centre. We provide tailored solutions and we collaborate
with relevant specialists to deliver results in adherence to the clients’ needs and in compliance with
authority standards. Our engineering personnel are registered Professional Engineers (PE) in their
respective fields. We are a dedicated team of professionals from different disciplines working together to
produce cost-effective results in a timely manner.
Our core services include :
■ Mechanical and Electrical Engineering Design
■ Project Management and Consultancy
We look forward to the exciting opportunities and challenges in the years ahead. We are committed to
actively contribute to society and the environment.
Our company philosophy is :
“Ethical conduct, mutual trust and teamwork to complete projects
on time and within budget.”
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Corporate Profile
Enmac Sekutu Sdn Bhd was established in 1986 and incorporated as a Private Limited Company (Sdn Bhd)
in 1996 with paid up capital of RM 500,000.00 and authorised capital of RM 500,000.00.
Professional Affiliation
Our engineering personnel are registered as Professional Engineers in their respective fields with the
Malaysian Board of Engineers (BEM). We are also registered with the following authorities :
✦ Lembaga Jurutera Malaysia (Board of Engineers, Malaysia)
✦ Kementerian Kewangan bahagian Pengurusan Perolehan Kerajaan (Ministry of Finance)
✦ Perbadanan Putrajaya (Putrajaya Corporation)
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Capabilities
Core Services
Enmac Sekutu Sdn Bhd is capable in providing consultation services during all phases of industrial,
commercial and residential projects. We have undertaken diverse roles ranging from initial concept planning
to detailed engineering design, authority liaison and project management.
Our extensive industry experience has equipped us with valuable knowledge and know-hows to ensure
smooth completion of projects. We routinely collaborate with specialists to ensure all aspects of projects are
considered and serving the clients’ best interests.
Supported by a team of professional engineers, draughtsman, technical assistants and other service
oriented management and administrative staff, Enmac Sekutu is confident in adding value to your projects in a
timely manner.
Our key capabilities are in :
Project Management and Consultancy
We assist clients in identifying project feasibility and provide services in project planning and development. Our accrued industry exper ience and in -depth knowledge of authorities liaisons are valuable asset for project development.
Engineering Design
We specialise in Mechanical and Electrical system design in compliance with authority requirements and standards with the aid of state of the art softwares.
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Services
We provide a broad scope of Mechanical and Electrical engineering services with primary focus on building
services and power delivery systems. We work closely with clients to understand their needs and determine
the services best suited to their requirements.
We provide one-stop solution by engaging with relevant specialists for project evaluation when necessary
for optimum project outcome. Emerging technologies are often suggested and deliberated for incorporation
into new projects as part of our value-adding strategy.
Our company also has experience in liaising with local authorities to satisfy design standards and public
safety requirements. We have the technical expertise and know-hows to assist you in maximising your
projects’ potential.
Strengths
We have accumulated and developed invaluable experiences through our expansive operations. We are a
company that strives to provide optimum cost-effective results :
✦ We adopt a professional approach towards every project.
✦ We have the ability and resources to mobilise and provide highly qualified professional personnel.
✦ Our team has extensive experience in diverse range of projects.
✦ Our company is multi-cultural and multi-lingual.
✦ Up to date project evaluation techniques and management procedures are adopted to support in
providing high quality service.
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Our design and consulting services encompass :
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Building Services
We provide integral Mechanical and Electrical building services including:
‣ Fire Protection Systems‣ HVAC Systems‣ Plumbing Services‣ HT & LT Transmission and Distribution
Networks‣ Main Switchboards and Distribution Boards‣ Standby Generator Sets‣ Luminaries‣ Telecommunications‣ ELV Systems‣ Earthing and Lightning Protection Systems‣ Horizontal and Vertical Transportation Systems‣ Liquefied Petroleum Gas (LPG) Systems
Specialised Systems
We specialise in design and integration of power delivery systems and industrial plant systems. We actively seek out new technologies and strategies which best serve stakeholders’ interests. We are committed in delivering renewable energy programs to reduce our environmental impact.
‣ Co-Generation plants and District Cooling Systems
‣ Power Plant design and Infrastructure reticulation‣ Township Planning‣ Smart Grid Integration‣ IPP Generation‣ LPG and Natural Gas Projects‣ Airplane Docking Systems‣ Data Centre Development
‣ Pipe Networks and Pressure Vessels‣ Oil and Bitumen Storage Facilities‣ Green Agriculture‣ Waste disposal systems‣ Palm Oil Mills‣ Biofuel projects‣ Landfill Biomass Power Plant‣ Solar PV Plants‣ Biogas Plants
We assess project feasibility and proactively engage specialists for optimum outcome and in compliance with authority standards.
‣ Client Engineer‣ Independent Engineer‣ Local authority submission and liaison‣ Feasibility studies and Cost analysis‣ Network and engaging specialists‣ Project planning and development‣ Project Co-ordination‣ Turnkey project structure and procedures‣ Negotiation of Power Purchase Agreement
Project Management and Consultancy
Key Projects
Overseas Projects
‣ HVAC system design for Cocoa processing plant in Côte d’Ivoire (2012)
‣ Engineering system design for Palm Oil Refinery in Mozambique (2012)
‣ Engineering system design for 45T FFB/hr Palm Oil Mill in Batik Nau, Bengkulu, Indonesia (2008)
‣ Engineering system design for 60T FFB/hr Palm Oil Mill in Seluma, Bengkulu, Indonesia (2008)
‣ Feasibility studies for 2 x 600 MW coal-fired power plant in Dominican Republic (2004)
‣ Township planning and engineering design for Nanyang Industrial Park in Huai Bei, Anhui Province, China
(2002)
‣ Aircraft docking system M&E design for Thai Airways at U-Tapao Airport, Thailand (2000)
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District Cooling System
Project Name 40 MW KLIA2 District Cooling Plant, Sepang
Completed Year 2012
Project Description District Cooling Plant to supply chilled water and cooling energy for KLIA2 Main Terminal Building, commercial complex, hotel, KLIA2 Control Tower and administration building
Technical Specification • 40 MW generation capacity• 18,000 RT installed capacity• 30,000 RTh Thermal Energy Storage Tanks
Role Acted as PMC and Independent Engineer
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Project Name The Curve Shopping Complex, Petaling Jaya
Completed Year 2010
Project Description Existing The Curve DCS plant extension to meet increased cooling energy demand from adjacent buildings. Upgrade works carried out without interrupting continuous operation and new equipment installed within limited amount of space available
Technical Specification • Addition of 2,250 RT installed capacity
Role System design upgrade and extension works supervision
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Project Name Colour Picture Tube Industrial Complex for Chunghwa Picture Tube Plant Corporation, Subang Industrial Park
Completed Year 2000
Project Description Proposed cogeneration plant on site for power, heating and cooling energy supply to industrial complex. System designed to replace TNB supply and boilers in bid to reduce utility costs.
Technical Specification • 30 MW generation capacity• 10,000 RT installed capacity• 60 ton/hour of steam
Role Performed detailed engineering design and feasibility studies
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Project Name Bandar Baru Klang township District Cooling System
Completed Year 1997
Project Description District cooling system for the entire Bandar Baru Klang township development consisting shopping malls, medical centre, hotel and business centres
Technical Specification • 15 MW generation capacity• 10,000 RT installed capacity
Role Performed basic engineering design based on preliminary load estimation
Our company participated in the following DSC project tenders :
• Putrajaya Precinct 2G3 and 2G4
• Doha International Airport
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Combined Cycle Power Plant
1,750 MW Tunku Jaafar Combined Cycle Power Station, Port Dickson
Local submitting engineer for Mitsubishi Heavy Industries (MHI)
300 MW Gelugor Combined Cycle Power Plant, Penang
Local submitting engineer for Kawasaki Heavy Industries (KHI)
2 x 20MW Cogen Plant in Toray Industrial Complex, Prai, Penang
Local submitting engineer for Shinryo Corporation
3.2 MW Biogas Plant in Bukit Tagar under Renewable Energy Initiative
M&E System Engineering Design
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Highway Projects
LED streetlighting along Kuala Lumpur - Karak Highway
Industrial / Chemical Plants
RAPID Package 14-1701 Main Control Buildings and Laboratory Buildings for PETRONAS, Pengerang
EPCC Design Consultant
Chemical Plant Extension for Polyplastics Asia Pacific Sdn Bhd, Gebeng
Consultant for Mitsubishi Kakoshi Kaisha (MKK)
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Ethylene Oxide and Ethylene Glycol (MEOG) Plant, Kertih, Kuala Terengganu
Consultant for Toyo Engineering Corporation
PVC Paste Plant construction and extension for Kaneka Sdn Bhd, Gebeng
Consultant for Mitsubishi Kakoshi Kaisha
Ethylene Petrochemical Plant, Kertih, Kuala Terengganu
Consultant for Toyo Engineering Corporation
Gas Processing Plant DPCU (II), Kertih, Kuala Terengganu
Consultant for Toyo Engineering Corporation
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Aromatic Gas Plant (KR II), Kertih, Kuala Terengganu
Consultant for Toyo Engineering Corporation
Bitumen Plant for Shell Malaysia Sdn Bhd, Tanjung Gelang
Hot Rolled Steel Mill for China Jigang Dimensi, Kuantan
Colour Picture Tube Industrial Complex for Chunghwa Picture Tube Corporation, Subang
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Process system design and steam piping system upgrade for Genting Sanyen Paper Mill, Kuala Langat
Ball Bearing Factory for SKF, Nilai
Pharmaceutical Factory for Kota Pharma Sdn Bhd, Malacca
Pharmaceutical Factory for YSP, Bangi
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Ductile Iron Pipe Factory for Suasa Unik Sdn Bhd, Kuantan
Food and Household Product Factory for CNI Enterprise, Glenmarie Industrial Park, Shah Alam
We also served as consultants in the following industrial complexes :
• Boil Off Gas Reliquefaction Process Plant in Bintulu as local submitting engineer for Malaysia LNG Sdn Bhd
• Hydrogen Plant for Fatty Chemical Acid Plant in Prai, Penang with Mitsubishi Kakoshi Kaisha
• Vinyl Chloride Monomer Plant in Kertih, Terengganu for Petronas with Toyo Engineering Corporation
• Waste Processing and Recover Plant in Kemaman, Terengganu for Aldwick Enviro-Management
• BASF OXO Complex for Petronas Chemicals Sdn Bhd with Toyo Engineering Corporation
• Paper Mill for Union Paper Industries in Bentong, Pahang
• Copper Rod factory for Metrod Sdn Bhd
• Mount Building for Chunghwa Picture Tubes Components Sdn Bhd in Kampar, Perak
• Overhead pipebridge Installation works for Shell Timur Sdn Bhd in Labuan
• Abattoir in Serendah, Selangor for Sentuhan Saujana
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Aerospace Systems
Docking system in Hangar 6 for Malaysian Airline Systems (MAS), Kuala Lumpur International Airport
Docking system for Thai Airways, U-Tapao Airport
with Muhibbah Engineering as EPCC contractor
Malaysian Airline System Catering Centre for MAS, Kuala Lumpur International Airport
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Hospital and Medical Centres
Project Name Klang Specialist Hospital for KPJ Healthcare
Completed Year 2012
Project Description Proposed integrated 300-bed hospital with full specialist facilities
Project Specification • 6 levels of hospital beds and consultant offices• Building M&E services including electrical system, ELV system, fire fighting system, HVAC system, plumbing system, lift services, medical gas pipelines and building control system
• Design specification to meet healthcare regulations
Role Performed detailed M&E system engineering design and feasibility studies
Mawar Hemodialysis Centre (PHM), Seremban
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Commercial Complexes
Putrajaya 2G3 and 2G4, Putrajaya Precinct 2
Wisma MKH and Metro Inn Hotel, Kajang
Metro Point Complex, Kajang
SSTwo Mall in Petaling Jaya
as Client Engineer
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Hotels and Resorts
Mandarin Court Hotel, Kuala Lumpur
Redang Beach Resort, Pulau Redang
as Design Engineer
Klang Executive Club for PNSB Acmar, Klang
Seri Malaysia Budget Hotels for JKR Holdings, various locations
as Design Engineer
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Residential Projects
Ceriaan Kiara, Mont Kiara
Sri Kenny Condominium, Bukit Tungku
Sri Intan Condominium, Kuala Lumpur
Bandar Baru Klang Condominium for PNSB Acmar, Klang
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Renewable Energy and Energy Efficiency
Our engagement in power plant design and power supply systems puts us in a unique position to promote
sustainable development. We believe we can contribute by increasing utilisation of alternative energy
resources and maximising resource efficiencies. We adopt a holistic approach in our projects and aim to
incorporate various strategies to promote the sustainability agenda.
“ Look and listen for the welfare of the whole people and have always in view not only the present but also the coming generations, even those whose faces are yet beneath the surface of the ground - the unborn of the future Nation.”
We have experience in designing and building palm oil processing plants which utilise biomass for power
production. Zero waste disposal palm oil mill is an attainable goal with the current technology available. Our
renewable energy projects and energy saving strategies include :
3.2 MW Biogas Landfill Power Plant design in Bukit Tagar
Detailed design proposals for 60T FFB/hr and 45T FFB/hr Palm Oil Mills in Indonesia
Incorporation of energy-saving Thermal Storage Tank (TES) for KLIA2 DCP
Design proposal for energy-efficient LED street light along Kuala Lumpur - Karak Highway
Participated in Malaysia SEDA FiT mechanism application for 5 MW solar PV farm
The Malaysian Government has taken a step towards joining the international initiative in renewable
energy production. The Renewable Energy Act 2011 was passed to encourage growth in the renewable energy
industry. Malaysia aims to have 13% share of renewable energy in the power mix by 2050.
Apart from clean energy production, increasing resource efficiency is crucial in minimising our
environmental footprint. We have undertaken numerous retrofitting projects and integrated new energy-
saving technologies in projects. Our personnel have also successfully completed Green Building Index
Facilitator course.
We believe with the strong support from government policies, there is huge potential for renewable
energy projects in Malaysia. We look forward to more active participation in renewable energy and green
projects.
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Solar Photovoltaic Feed-in Tariff (FiT)
Malaysian Government established a feed-in tariff mechanism to encourage renewable energy systems.
Sustainable Energy Development Authority Malaysia (SEDA) was tasked with overseeing and administer the
entire operation. Enmac in partnership with Chinese Solar Photovoltaic panel providers applied for 5 MW solar
PV farm in Tanjung Malim.
Palm Oil Mill Effluent Treatment and Water Recycling System
Palm oil mill design is fast approaching its mature phase, however, there is always room for improvement to
increase its efficiency. The key focus is to achieve “zero discharge” by innovating ways to process palm oil
waste.
Palm Oil Mill Effluent (POME) is the mixture of wastewater and other organic materials produced by processing
oil palm fresh fruit branches (FFB). In the early years of oil palm industry, POME was channelled directly into
waterways. It has been identified that POME should be dealt with particularly when the palm oil industry
boomed. POME’s oxygen depleting potential is 100 times greater than of domestic sewage, and poses a great
threat to the environment.
POME treatment technology has been utilised to minimise the environmental impact of palm oil processing.
There are three common system configuration for POME treatment :
• Ponding system
• Open tank digester and extended aeration system
• Closed anaerobic digester and land application system
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Apart from protecting the environment, POME treatment yields numerous benefits :
• Elimination of large areas designed for effluent ponds which in turn can be used to increase plantation
area for oil palms
• Smaller team of skilled labour employed to operate the treatment process instead of relying on the
shrinking supply of foreign immigrant workers to clean effluent ponds
• Remnants of the treated POME can be processed and used as fertiliser for the oil palms
• Being one of the world’s major producers of palm oil, we have the duty and responsibility to lead
innovation in this industry, especially when oil palm industry has been associated with the large scale
loss of rainforests and biodiversity in our region.
Palm Oil Mill Effluent Treatment and Water Recycling System
Ultra Filtration and UV
Pretreatment
Water Storage
Raw Water Source
Boiler Feed WaterPotable Water for Communities
Make up Water Flocculation and Clarification
Filtration
Aeration
Compost Plant
Palm Oil Mill
Oil Recovery
Add Organic Solution
To Mill’s Water Treatment Plant
(Recycle for Process and Wash Water)
100% POME
Enmac is currently involved with the 3cPalm Process system where POME treatment process is conducted
in parallel with water recycling system. There will be no discharge of POME (treated or untreated) into
waterways. All solid and wastewater drained from the mill will be discharged into a sludge drain tank where
the waste sludge will be pumped into a composting plant or distributed in the oil palm plantation as fertiliser.
The POME still contains considerable amount of palm oil. An organic solution containing microbes can be
added to the POME for oil recovery. The cost of this organic solution will be offset by the amount of oil
recovered. Treated water from POME treatment will be fed back into the palm oil mill. There will be an
estimated saving of 30% in water intake required for processing per ton FFB.
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Biogas Plant Integration with Palm Oil Mill
Building on existing POME treatment technology, we can further push for zero discharge and zero waste
efficient palm oil mills. Biogas is an important by-product of the POME treatment process. A biogas and / or
biomass power station can be integrated into the palm oil mill to meet its power demands. Biomass power
station would use the existing waste materials like empty fruit branches (EFB) and shells as its primary fuel.
Palm Oil Mill Effluent Treatment and Water Recycling Systemwith Integrated Biogas Plant
Ultra Filtration and UV
Pretreatment
Water Storage
Raw Water Source
Boiler Feed WaterPotable Water for Communities
Make up Water
Flocculation and Clarification
Filtration
Aeration
Compost Plant
Palm Oil Mill
Oil Recovery
Add Organic Solution
To Mill’s Water Treatment Plant
(Recycle for Process and Wash Water)
100% POME
Biogas Plant
Electricity Communities
Advantages of Biogas integrated Palm oil mills :
• Entrapment of methane, a greenhouse gas more destructive than carbon dioxide
• Energy produced via biogas and biomass would be deemed sufficient for the palm oil mill operation, thus
generating large amount of energy savings
• Excess energy can be used to power local communities or fed back into the national grid
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Smart City
Traditionally, cities have developed organically with purpose on elevate living standards via economic
means. “Smart cities” are loosely defined as cities designed with a holistic approach in urban planning
processes with emphasis on creating viable and environmentally friendly communities with excellent
economic prospects.
Smart cities differ from “green” cities, whereby urban planning focus isn’t limited to solely environmental
concerns. Advanced Information and Communication Technology (ICT) processes are integrated to
complement infrastructure and enhance its social capital, where communities benefit from city-wide
integration of technology and increase the city’s overall competitiveness. Smart City design focuses on five key
aspects of urban living. Smart City encourages innovation and entrepreneurial spirit in all aspects of urban
planning.
Smart cities are designed to coexist with nature while minimising our footprint. The sustainability agenda
pushes for innovative and efficient resource management framework. Renewable energy sources and
advanced green building technology will be utilised.
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Human comfort is an important factor when designing amenities. Residents have access to affordable
housing, quality education, healthcare and maintain optimum work life balance. There will be competent
workforce and necessary infrastructure for the city to remain competitive and attractive to prospective
investors. High-speed broadband network will be an important criteria to maintain an edge over other cities.
Governance of Smart Cities should actively invite public participation to create a sense of community. Public
safety and public transportation shall remain of high priority for residents.
Smart City and ICT
Smart cities are designed with integrated ICT applications and services to develop as a globally competitive
city. Smart Grid is one of the known global initiatives to increase use of communication and information
systems in power generation, power delivery systems to provide real time monitoring and control. Smart Grids
comprises a mesh network of energy providers, grid operators, transmission and distribution and consumer
devices. Smart Grid systems enable real time monitoring of load demands and incorporation of renewable
energy allows for more holistic resource management and reduces system outages. ICT usage in Smart Cities
will not be limited to only power delivery systems.
ICT applications can be expanded to include other aspects of urban life. A central Distributed Load
Despatch Centre will be equipped to oversee the ICT applications. This allows authorities to monitor load
demand, traffic conditions, fire hazards in real time. Next generation wireless sensor network will form the
backbone for information exchange. Implementation of these services requires robust, secure data centres
and servers for minimum disruptions. High-speed and secure networks are crucial to ensure residents and
businesses remain connected.
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