CCW0701 | Essentials of Chemical Engineering for Non-Chemical Engineers

Start End Duration Venue Fees
01 Jun 2020 12 Jun 2020 2 Weeks Barcelona $7,900 Register
01 Nov 2020 12 Nov 2020 2 Weeks Cairo $6,400 Register
02 Mar 2020 13 Mar 2020 2 Weeks Jakarta $8,000 Register
03 Feb 2020 14 Feb 2020 2 Weeks London $7,900 Register
03 Aug 2020 14 Aug 2020 2 Weeks Bali $8,000 Register
04 May 2020 15 May 2020 2 Weeks Cape Town $9,000 Register
05 Jan 2020 16 Jan 2020 2 Weeks Abu Dhabi $6,900 Register
05 Oct 2020 16 Oct 2020 2 Weeks Kuala Lumpur $7,300 Register
06 Apr 2020 17 Apr 2020 2 Weeks Bangkok $7,500 Register
06 Jul 2020 17 Jul 2020 2 Weeks Beijing $9,000 Register
06 Dec 2020 17 Dec 2020 2 Weeks Dubai $6,900 Register
07 Sep 2020 18 Sep 2020 2 Weeks Istanbul $7,300 Register


PROGRAM'S BACKGROUND


Chemical engineering is at the heart of much of the chemical, oil, gas, and petrochemical industries. The chemical engineer is interested in the transportation and transformation of solids, liquids and gases, but must also be familiar with many of the other engineering disciplines including mechanical, electrical and instrumentation. Thermodynamics, fluid mechanics, heat transfer, mass transfer, and reaction engineering form the fundamentals of chemical engineering. Without these fundamentals, chemical engineers may not be able to understand the operation of process units and succeed in the proper design of chemical processes.

This program identifies the areas of chemical engineering that are most commonly encountered by the non-specialist with examples that will be drawn from a range of process industries including oil and gas processing, petrochemicals, chemical manufacturing. In this program you will:

›       Learn to interpret flow sheets and process flow diagrams

›       Develop and understand mass and energy balances in process design

›       Learn about fluid flow, pumps and compressors, and mixing

›       Discuss heat transfer equipment and their design, including heat exchangers

›       Understand distillation and separations used in oil and gas processing

›       Discuss effluent minimization and treatment

›       Learn how to control processes

›       Perform a basic economic analysis of a project

›       Understand the safety and environmental responsibility on process engineers

PROGRAM'S OBJECTIVES


This Program’s Attendees Will Be More Able To:

›       Learn to interpret flow sheets and process flow diagrams

›       Understand the use of mass and energy balances in process design

›       Gain a basic understanding of fluid flow, including pumping and mixing

›       Study examples relevant to the oil and gas industry

›       Design a heat exchanger and know advantages and disadvantages of different types

›       Understand distillation and separations used in oil and gas processing

›       Appreciate the need to control environmental pollution from industry

›       Learn how to control processes

›       Perform a basic economic analysis of a project

PROGRAM'S ATTENDEES


›       Geo-Scientists

›       Chemists

›       Chemical Engineering Technologists

›       Petroleum Engineers

›       Production Engineers

›       Trainee Process Engineers

›       R and D Chemists

›       Plant Chemists

›       Plant Operators and Economists

›       Process Development Engineers

›       Manufacturing and Industrial Engineers

›       Electrical Engineers

›       Petroleum Engineers

›       Process Engineers

›       Mechanical Engineers

›       Plastics & Material Engineers

›       Civil Engineers

›       Production Engineers

›       Maintenance Engineers

›       Food Scientists

›       Environmental Engineers

›       Environmental Technicians

›       Maintenance Supervisors

›       Laboratory Technicians

›       Chemical Plant Operators

›       Project Managers and Engineers

›       All those working in the chemical, petrochemical, oil and process industries with a need to understand and discuss issues with the Chemical Engineering Specialists 

PROGRAM'S OUTLINE


PROCESS ENGINEERING FUNDAMENTALS

›       Introduction

›       Basic concepts to remember

›       Flow diagrams

›       Piping and instrumentation diagrams

›       Process equipment

›       Introduction to mass and energy balances

›       Batch Vs. Continuous

›       Risk Assessments and hazard studies

›       Program session

STOICHIOMETRY & THERMODYNAMICS

›       Dimensions and units

›       Processes and process variables

›       Basic chemical calculations

›       Material balance

›       Energy balance

›       Combustion

›       The laws of thermodynamics

›       Thermodynamic properties

›       Phase behavior

›       Equations of State

›       Phase equilibriums

›       Applications of thermodynamics

FLUID FLOW

›       Pressure and head

›       Bernoulli’s Theorem

›       Flow of Liquids

›       Reynolds number, pressure drop in pipes

›       Compressible flow

›       Introduction to Thermodynamics

›       Two-phase and Multi-phase Flow

›       Pumps and compressors

›       Mixing and mixers

›       Program session

HEAT TRANSFER

›       Thermal conductivity

›       Conduction and convection

›       Insulation

›       Heat transfer coefficients

›       Heat exchangers, type and sizing

›       Chemical reactions

›       Reaction kinetics

›       Introduction to catalysis

›       Program session

INTRODUCTION TO SEPARATION PROCESSES

›       Distillation basics

›       Phase behavior and vapor liquid equilibrium

›       Gas Liquid separation

›       Absorption and adsorption

›       Solid Liquid separation

›       Air and water pollution control

›       Program Session

PROCESS CONTROL, UTILITIES & ECONOMICS

›       Process control basics

›       Measured variables

›       Simple feedback control

PROCESS UTILITIES

›       Air

›       Water and cooling water

›       Steam

›       Electricity and power generation

PROCESS ECONOMICS

›       Preliminary economic analysis

›       Fixed and variable costs, break even

›       Calculating raw materials usage

›       Scale up and six tenths rule

ADDITIONAL DETAILS




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Ibn Al-Hakam Square, Helmyat El-Zaytoon, Cairo, Egypt
Tel: 002 01117866099 | 01117864455, Email: info@pioneerscenter.com
 

Benefits to Organization

1. The candidates will become competent, effective and productive on their jobs. This training program is useful for:
        · Competency building where existing employee is promoted or planned to be promoted.
        · Technical knowledge, skills and competencies.
        · Needs and expectations of the stakeholders/ customers both internal and external.
        · Opportunities to exceed stakeholder/ customer expectations.
2. Create a pool of trained manpower that can cost-effectively spread the knowledge to large number of employees inside the organization.
3. Our facilitators often act as mentors for your trained employees and thus provide a most effective way to ensure effective competency development and application by your motivated staff.
4. We adopted a one-to-one approach that can provide more room for your employees to work at their own pace and address individual needs more freely.

Benefits to the Individuals

1. The candidates will gain a multi-discipline understanding of the subject matter.
2. Have an individual action plan to take away that will help the candidates make a difference in their organizations. This will add value to the expertise and experience of the candidates’.
3. Be more able to enhance job satisfaction and reduce wasted time and effort.
4. Ensure that the candidates will know and appreciate the strategic imperatives that drive the organization's efforts in their relevant job area.
5. Be more able to align your roles and job requirements with the organization’s mission and vision.
6. Be more able to meet your deadlines and tasks and successfully complete any scorecard in a timely fashion.

Additional Benefits

1. Good & best industry practices.
2. Checklist approach for ease of understanding and practical application.
3. Latest technologies including information technology, quality assurance and methodology.
4. Quality assurance and quality improvement incorporated in each program.
5. One-to-one approach and small groups will lead to learner-centered environment.
6. Experienced and qualified instructors both academically and in practice.
7. Customized programs to meet and suit individual training needs.
8. Letters of recommendation for the exceptional performers.

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