Selasa, 21 Desember 2010

ROHs Apakah itu

RoHS Compliant, Lead Free

Teknologi canggih dunia mengharuskan terpenuhinya 100% memenuhi RoHS solusi. Semua produk yang berkaitan dengan RoHs harus Melalui Hole Jenis produk yang telah memenuhi Pembatasan Hazardous Substances (RoHS).

Telah ada konsensus yang berkembang bahwa Timbal Gratis Sistem harus meningkatkan untuk keselamatan lingkungan kita.
Ini adalah masalah yang sangat serius yang timbal dan bahan berbahaya lainnya yang digunakan dalam produk-produk komersial dan industri, menyebabkan semakin banyak masalah lingkungan semakin banyak. Hal ini telah menyebabkan regulasi seperti RoHS (Pembatasan penggunaan Zat Berbahaya tertentu) dari Uni Eropa dan Jepang Departemen Perdagangan dan Industri (MITI). Semua pembuat LED menyediakan produk-produk ke negara-negara harus sesuai dengan pembatasan ini.

Dalam rangka memenuhi ketentuan RoHS, SSC secara tegas menerapkan larangan memimpin dan bahan berbahaya lain didalam produk-produknya. Hal ini sesuai dengan hukum alam.

􀁺 Lead-free (Pb-free) solderability
􀁺 Tidak ada Kadmium
􀁺 Tidak ada Mercury
􀁺 Tidak ada Kromium heksavalen
􀁺 Tidak PBDE (bifenil eter bifenil) kategori
􀁺 Tidak ada PBB (Polybromobiphenyl) kategori

Untuk lebih tahu ROHs silakan hubungi AQD-ICA

Sabtu, 18 Desember 2010

JASA SERTIFIKASI DENGAN SERTIFIKAT GERMAN SLOWAKIA

Jasa Sertifikasi Personil

  • Sertifikat lead auditor
  • Sertifikat Pengawas
  • Sertifikat Kalibrasi
  • Sertifikat First aider
  • Sertifikat Manajemen Lingkungan
  • Sertifikat pembuat HAZOP
  • Sertifikat pengendali dokumen
  • Sertifikat Sistem Manajemen Lingkungan
  • Sertifikat Sistem Manajemen K3
Silakan hubungi Sertifikat yang lain dengan mengirimkan ke aqdind@inbox.com

HUTAN YANG HILANG


Hutan Tropis yang Menghilang

* Kami kehilangan harta terbesar Bumi biologis seperti halnya kita mulai menghargai nilai sejati mereka. Hutan hujan pernah menutupi 14% dari permukaan tanah bumi; sekarang mereka menutupi% 6 belaka dan ahli memperkirakan bahwa hutan yang tersisa dapat dikonsumsi dalam waktu kurang dari 40 tahun.

* Satu dan satu-setengah hektar hutan hilang setiap detik dengan konsekuensi yang tragis bagi kedua negara berkembang dan industri.

* Hutan hujan telah dihancurkan karena nilai lahan hutan hujan dianggap hanya nilai kayu dengan pemerintah cupet, perusahaan penebangan multi-nasional, dan pemilik tanah.

* Hampir setengah dari spesies dunia tanaman, hewan dan mikroorganisme akan dihancurkan atau sangat terancam selama seperempat abad ke depan karena deforestasi hutan hujan.

* Para ahli memperkirakan bahwa kita kehilangan 137 tanaman, hewan dan spesies serangga setiap hari karena deforestasi hutan hujan. Itu setara dengan 50.000 spesies per tahun. Sebagai spesies hutan hujan menghilang, jadi jangan obat banyak kemungkinan untuk penyakit yang mengancam jiwa. Saat ini, 121 obat resep terjual di seluruh dunia berasal dari sumber tanaman yang diturunkan. Sedangkan 25% dari obat-obatan Barat berasal dari bahan-bahan hutan, kurang dari 1% dari pohon-pohon tropis dan tanaman telah diuji oleh para ilmuwan.

* Sebagian besar hutan dibersihkan oleh gergaji, buldoser dan kebakaran nilai kayu dan kemudian diikuti oleh pertanian dan peternakan operasi, bahkan oleh raksasa dunia seperti Mitsubishi Corporation, Georgia Pacific, Texaco dan Unocal.

* Ada sebuah diperkirakan sepuluh juta orang India yang tinggal di Amazon Rainforest lima abad yang lalu. Hari ini ada kurang dari 200.000.

* Di Brazil saja, kolonis Eropa telah menghancurkan lebih dari 90 suku asli sejak 1900-an. Dengan mereka telah berabad-abad akumulasi pengetahuan dari nilai obat spesies hutan hujan. Sebagai daerah asal mereka terus dihancurkan oleh penggundulan hutan, masyarakat hutan juga menghilang.

* Kebanyakan pria obat dan dukun yang tersisa di hari Hutan hujan 70 tahun atau lebih. Setiap kali seorang dukun hutan tropis mati, seolah-olah perpustakaan telah terbakar habis.

* Ketika seorang dukun mati tanpa melalui seni nya ke generasi berikutnya, suku dan dunia kehilangan ribuan tahun tak tergantikan pengetahuan tentang tanaman obat.

Bagaimana melakukan dokumentasi kehutanan berdasarkan ISO 65 silakan kontak AQD-ICA

EN 16001:2009 Energy Management System AQD


I.S. EN 16001:2009 Energy Management


Certification to I.S. EN 16001:2009 Energy Management Standard

The objective of the Energy Management System is to establish a systematic approach for improving energy performance continuously. The standard specifies the requirements for continuous improvement through using energy more efficiently.
An organisation that implements the standard needs to establish, implement, maintain and improve an energy management system. It will ensure that it conforms to its stated energy policy and demonstrate such conformance to others. When the system is mature, energy management becomes integrated into day-to-day responsibilities and activities.

The Energy Management System is structured in a similar manner to the Environmental Management System, ISO14001. Organizations that have already implemented or plan to implement ISO14001 can integrate the requirements of both management systems to enable a more efficient implementation process while ensuring that a company benefits from the continued value-add of the management system, in the form of reduced energy costs.

The main benefits of the system are:

  • An organisation and its senior management demonstrate a strong commitment to energy efficiency
  • Good energy management is embedded in normal operations
  • Action is based on key energy usage
  • The emphasis is laid on getting it right the first time and on a process of continuous improvement
  • Because of the need for participation by all staff, energy management does not depend on one person
  • Processes are standardized so that improvements are sustained over time
I.S. EN 16001 was published in July 2009. This standard supersedes I.S. 393:2005. All companies who are currently registered to I.S. 393 will be required to transition to I.S. EN 16001 within one year of the date of publication.

Contact:

Azil Awaludin
Operations Manager
T + 021 7065 2998
E azil_a1@yahoo.com

NEW ISO14001 SYSTEM EnMS 16001:2009


Introduction
THE Irish Energy Management System Standard (I.S. EN 16001:2009) has been developed to help
organisations to improve their energy efficiency in a logical, controlled and systematic way, thereby
saving energy and reducing costs.
The standard is focused on promoting the analysis of energy usage data, and identifying the exact
locations, times and underlying reasons behind current and past energy use, so that your organisation
can accurately identify, understand and prioritise opportunities for improving energy efficiency.
This analysis, coupled with a ‘management system’ approach, has a long and proven success record in all
industry sizes and sectors. The Irish energy standard has been structured to align with other popular
industry management system standards such as those for quality, health & safety and environmental
management. Organisations can thus, if appropriate, integrate an energy-management system (EMS)
with their existing management system(s).
This implementation guide has been developed to provide a recommended approach to implementing
an EMS to meet the requirements of I.S. EN 16001 in your organisation. As each organisation’s needs are
different, the guide does not purport to be a ‘one fix’ solution for all, nor does it provide a template by
which you should develop your own EMS. However, it does explain how to go about implementing an
EMS and provides a planned, logical and informed approach to energy management, to improve energy
efficiency and reduce operating costs.
The benefits of implementing I.S. EN 16001
The requirements of I.S. EN 16001 can be applied to and met by any organisation that wishes to improve
its energy efficiency. When this manual was being developed, several organisations that have already
implemented the EMS confirmed that they had seen many direct and indirect benefits attributable to
implementing I.S. EN 16001, including:
o energy cost savings
o reduced greenhouse-gas emissions
o reduced carbon footprint
o increased energy awareness among staff
o greater knowledge of equipment efficiencies
o informed decision-making processes
o structured approach to the Right First Time methodologies

for Certification 16001:2009 in INDONESIA call 021-70652998/ 0811844644

Jumat, 26 Februari 2010

RUNAWAY CONSTRUCTION NORTH SUMATERA



An airport construction contractor refers to an individual, partnership or company performing the construction, renovation or demolition of an airport. These contractors are also referred to as prime contractors, who either work themselves or subcontract a part of the work to other companies.

Understanding the key terms of airport construction contractors will help you to select the most suitable airport construction contractor. This guide covers some of the common terms in the construction business, such as subcontractor, licensed contractor, and contract documents.

During the operational the contractors should provide all the necessity in the project that covered equipment and mankind.
Equipment should maintain regularly, either the building and facilities in the site.

Operational should concern about safety reason. Wether to endure with any particular objection like competence, documentary and tense to maintain.
Any problem should discuss and study.

Kamis, 18 Februari 2010

Training Internal Auditors ISO190112002 and ISO14012



AQD-ICA approved training organizations offer certified training courses based on a wide range of management systems standards and industry sectors:
Foundation courses

* Designed for: students needing a basic understanding of the requirements of a specific management systems standard. Suitable for people with little or no knowledge of the relevant standard

Internal auditor courses

* Designed for: students requiring the basic skills necessary to audit areas of their own organization's management systems

Chief Lead auditor courses

* Designed for: students requiring all knowledge and skills necessary to interpret a management systems standard in the context of a second party supplier or third party certification audit

Advance auditor courses

* Designed for: experienced auditors wishing to audit in new contexts, against other management systems standards, by adding to their existing generic auditing skills and experience

For further information on our services download our Corporate Brochure
contact 021-7065 2998 with miss Daisy

Water Treament Process Contractor to ISO9001



QUESTION: I was just wondering if anyone works for a water treatment facility that is ISO 9001:2008 certified? If so, what steps are necessary to ensure proper water treatment practices are performed to ensure not only that it passes as potable (drinkable) water but also conforms to ISO 9001?

please also help me in the water treatment validation?

Also check the USP compendium reference standards.

What kind of treatment type you have? (R.Osmosis or classical systems)

ANDALAN QUALITY DUNIA - ICA worked in a treatment company as an project CONSULTANT also we had a CERTIFIED BY CERTIFICATION BODY. So AQD-ICA can remind you some points

According to me a water treatment facility is very important for common health.

Therefore first think is produce clean and pure water

water analysis (different point)

determine and established document

keeping your record

public survey about water quality

Using good chemicals and their storage,

working with qualified and competence personnel

aware of HSE isssue

using proper PPE

Senin, 08 Februari 2010

Safety is LAD - Listen And Do


Leadership is a must
Involve people always
Supervise never stop
Train your people periodically
Enhance ability
Never think the same way

Always ready absolutely
New activity new vision new paradigm
Deliberately to safety work

Dynamic progression
Over and over

Jumat, 05 Februari 2010

One of Indonesian OHS implementation policy


Visi :

Menjadi Perusahaan yang Profesional dan dan Berkarya mengutamakan Quality, Cost, Delivery, Safety dan Moral.

Misi :

Melaksanakan Pekerjaan yang sesuai dengan Core Competence dengan hasil yang memuaskan pelanggan serta memperoleh laba yang wajar untuk pertumbuhan perusahaan dan mencapai kesejahteraan semua pihak terkait.

HIRA - Safety Talk or Tail Gate Meeting a first to Safety


HIRAC GUIDELINES
These Guidelines must be in accordance with the OHS Procedure
Hazard Identification, Risk Assessment and Control (HIRAC)
Selection
The first step of the HIRAC review is to select an area, task or activity. Priority should be given to areas, tasks or activities thought to present special risks, based on:
• past experience (eg accidents, near-misses, complaints);
• concerns expressed by staff;
• requirements of legislation or University policies and procedures (eg workplace changes);
• requests from the various Health and Safety Teams, etc.
Hazard Identification
Hazards can be grouped under various categories, as listed below. The items listed under each category are provided as examples.
Bio-mechanical and Postural
Note: where the main hazards associated with an activity or task relate to manual handling, a special risk assessment form should be used.
 Repetitive or sustained postures, movements or forces as listed below for more than 30 min at a time, or for more than 2 hours over a workday

o Excessive bending or twisting of back or neck in any direction
o Working with hand(-s) above shoulders
o Reaching to front/side more than 30 cm from body
o Reaching behind body
o Squatting, kneeling, crawling, semi-lying or jumping
o Standing with most of body weight on one leg
o Twisting, turning, grabbing, picking or wringing actions with fingers, hands or arms
o Working with fingers close together or wide apart
o Very fast movements
o Excessive bending of wrist(-s)
o Carrying with one hand or one side of the body
o Pushing, pulling, dragging, holding or restraining
 High force actions as listed below

o Lifting, lowering or carrying heavy loads
o Applying uneven, fast or jerky forces
o Sudden/unexpected forces
o Pushing/pulling objects hard to move or stop
o Awkward grips
o Throwing, catching, hitting, kicking or jumping
o Holding, restraining or supporting person, animal or heavy object

Physical Environment and Workplace Design
 Poor housekeeping, uncontained spillages or wastes
 Uneven or slippery work surfaces
 Obstacles in passageways, near equipment, risk of collision with stationary objects, etc
 Inadequate work platforms, stairs, ladders, guardrails, harnesses, etc for work at height
 Personnel access within 2 metres of edge of roof, high place of work, etc
 Unprotected openings or gaps in walkways & platforms
 Poor lighting
 Exposure to harmful noise levels
 Confusing or inadequate labelling of controls
 Mismatch between plant, workplace, office workstation design, activity or task and user physical characteristics (height, strength, speed, mobility, fitness, etc)
 Body parts coming in contact with hot components during testing, inspection, operation, maintenance, cleaning or repair
 Exposure to camp fires and hot items from fires
 Fall or collapse of ground, materials, plant, structures, etc
 Exposure to extremely cold materials or components (eg dry ice)
 Exposure to radiation (ionising and non-ionising, lasers)
 Entry into cool rooms

Mechanical
 Hair, clothing, jewellery, rags, etc liable to become entangled in moving components
 Uncontrolled or unexpected movement of machinery, components, work pieces, vehicles or loads
 Inability to slow, stop or immobilise machines, vehicles…
 Body parts coming in contact with moving, sharp, hot, or "live" components during testing, inspection, operation, maintenance, cleaning or repair
 Possibility of traffic accident
 Persons or body parts trapped or sheared between moving component & fixed plant, materials or structures
 Persons pushed, pulled or thrown off plant, structures…
 Machines, components, or materials disintegrating (eg grinding wheels)
 Persons being injured by damaged, poorly maintained or unguarded equipment (including electricals)
 Components, work pieces, fluids, etc being ejected
Electrical
 Contact with "live" components during testing, inspection, operation, maintenance, cleaning or repair
 Contact with overhead power lines
 Contact with underground power cables
 Explosion or ignition of electrical components, etc
 Unauthorised access to electrical services, switchboards, controls, etc
Chemicals and Toxicity
 Explosion or ignition of gases, vapours, liquids, dusts, etc
 Exposure to toxic concentrations of chemicals (skin, inhalation, ingestion, etc)
 Exposure to oxygen-depleted atmospheres
 Damage to gas lines, compressed gas cylinders, chemical storage containers, etc
Biological and Human
 Exposure to venomous or dangerous animals
 Exposure to toxic natural substances (plant, mushrooms, gases, etc)
 Exposure to (potentially) infectious substances
 Accidental collision with another person
 Assault by another person (Note: where workplace violence is being reviewed, special risk assessment forms should be used. They are available from the OHS Services Unit, ext. 9370).
Organisational and Procedural Arrangements
 Insufficient first-aid equipment or trained personnel
 Insufficient evacuation, emergency or rescue planning and facilities
 Access to hazardous equipment by unauthorised or untrained people
 Insufficient job rotation, rest breaks
 Inappropriate, insufficient or poorly maintained personal protective equipment
Psycho-social Environment and Task Design
 Insufficient consideration given to the probability of human error and its consequences
 Lack of clarity in work roles of employee(-s)
 Lack of control or recognition in work roles of employees
 Mismatch between task demands and workers'/people's behaviour or capabilities
 Insufficient consideration given to consultation prior to workplace changes
Natural Environment
 Drowning
 Bushfires
 Persons becoming lost or ill in remote locations
 Possibility of being engulfed in loose or crumbling ground
 Exposure to extreme environmental conditions (hot, cold, dry, wet, snowy, stormy, etc)
 Possibility of tree limbs falling
 Lightning in exposed locations

Risk Assessment
Risk assessments are based on 2 key factors:
• the likely severity of any injury/illness resulting from the hazard and
• the probability that the injury/illness will actually occur.

Probability
Very likely
Could happen any time Likely
Could happen sometime Unlikely
Could happen, but very rarely Very Unlikely
Could happen, but probably never will
Severity Death or permanent disability 1 (HIGH) 1 (HIGH) 2 (HIGH) 3 (MEDIUM)
Long-term illness or serious injury 1 (HIGH) 2 (HIGH) 3 (MEDIUM) 4 (MEDIUM)
Medical attention and several days off work 2 (HIGH) 3 (MEDIUM) 4 (MEDIUM) 5 (LOW)
First aid needed 3 (MEDIUM) 4 (MEDIUM) 5 (LOW) 6 (LOW)
Table 1: Assessment of risk priority levels based on likely severity and probability of harm
Risk Control
Urgent action is required for risks assessed as priority 1. The actions required may include:
• instructions for the immediate end of the work, process, activity, etc
• isolation of the hazard until more permanent measures can be implemented.
Documented control plans with responsibilities and completion dates are required for priority 2 and 3 risks. (Refer to HIRAC Report available at: www.ballarat.edu.au/ohs/HIR_Rep.doc)
The risk control hierarchy ranks risk control measures in decreasing order of effectiveness. Risk control measures should always aim as high in the list as practicable. Control of any given risk generally involves a number of measures drawn from the various options (except if option 1 is selected).
Risk Control Hierarchy:
A. Elimination of hazard: examples include the proper disposal of redundant items of equipment that contain substances such as asbestos or PCBs, the removal of excess quantities of chemical accumulated over time in a laboratory, etc. The elimination of hazards is 100% effective
B. Substitution of hazard: examples include the replacement of solvent-based printing inks with water-based ones, of asbestos insulation or fire-proofing with synthetic fibres or rockwool, the use of titanium dioxide white pigment instead of lead white, etc. The effectiveness of substitution is wholly dependent on the choice of replacement.
C. Engineering controls: examples include the installation of machine guards on hazardous equipment, the provision of local exhaust ventilation over a process area releasing noxious fumes, fitting a muffler on a noisy exhaust pipe, etc. The effectiveness of engineering solutions is around 70 - 90%.
D. Administrative controls: include training and education, job rotation to share the load created by demanding tasks, planning, scheduling certain jobs outside normal working hours to reduce general exposure (eg planning demolition and building works during summer recess), early reporting of signs and symptoms, instructions and warnings, etc. The effectiveness of administrative controls ranges from 10 to 50%. They typically require significant resources to be maintained over long periods of time for continuing levels of effectiveness.
E. Personal protective equipment: includes safety glasses and goggles, earmuffs and earplugs, hard hats, toe-capped footwear, gloves, respiratory protection, aprons, etc. Their effectiveness in realistic work situations does not exceed 20%.

Translate from: University Safety

Sabtu, 23 Januari 2010

Risk Evaluation consistently


Safety performance of countries is conducted by combining seven main risk indicators into one index using a particular weighting and aggregation method. Weights can be determined with respect to the assumed importance of the indicator, whereas aggregation operators can be used to stress better performances differently from worse performances irrespective of the indicator’s meaning. In this research, both expert weights and ordered weighted averaging operators are explored, evaluated and integrated resulting in a ranking of countries based on a road safety index.