Popular Courses
COURSE OUTLINE
- Superior management skills introduction.
- Ingredients for administrative success.
- Companies’ future challenges.
- Creative thinking.
- Idea of thinking outside the box.
- Skills of setting successful strategies at work.
- Developing strategies, and following up.
- Creating strategic decisions.
- Innovative ways to solve problem of hinder progress.
LEARNING OUTCOMES
- Mastering all superior management skills, and possessing all the ingredients for administrative success.
- Facing future challenges within their companies.
- Develops creative thinking, the idea of thinking outside the box.
- Mastering the skills of setting successful strategies at work, and even developing them for the better, and following up on them well.
- Creating strategic decisions.
- Solving problems in innovative ways, especially those that hinder progress for the better.
COURSE OUTLINE
- Introduction to vibration.
- Measurement setup.
- Data collection & Data analysis.
- Imbalance & Misalignment, Mechanical looseness.
- Rolling element bearings.
- Gear defects, Belt defects.
- AC induction motors.
- Sliding Bearings.
- Resonance.
LEARNING OUTCOMES
- Explain the function and types of machine alignment.
- Identify the different types and techniques of machine alignment.
- Implement all types of Machine Alignment.
- Perform and practice fixing machine misalignment.
- Practical exercises for machine alignment.
PREREQUISITES
- Trainee must be an experienced mechanical foreman or Senior maintenance technician diploma or high school graduate.
- Trainee must have a basic knowledge of English language.
عناوين الدورة
- مصدر مياه التغذية وخصائصها
- متطلبات المعالجة المسبقة - التدريج
- التطهير - التخثر - الترسيب
- ترشيح الوسائط وأنواع / خصائص الوسائط
- أنظمة التصريف السفلي - غسيل عكسي - أعطال
- عمليات التصفية والأداء
- التحكم في المقياس - القاذورات - SDI
COURSE OUTLINE
- Introduction (Study of Dynamical system, Types of process, Process Characteristics, Analyzing the response curve and Tuning method).
- Feedback Loop (Principles, Controller action, PID Tuning, structure of controllers, Feedback problems, Feedback limitations, cascade loop).
- Process Control Strategies (Feedforward, Control, Ratio Control, Split range, Limit, Selector and Override Control).
LEARNING OUTCOMES
- Classify the process types and Process characteristics
- Determine dead time, time constant and process gain for a process. Differentiate between PID algorithms
- Apply different methods of control tuning.
- Implement and design feedforward, ratio, split range, selector, limit and override control systems.
PREREQUISITES
- Trainee must be an experienced Instrument Maintenance Technician.
- Trainee must have a basic knowledge of English, English Course No. 31213.
COURSE OUTLINE
- Introduction (Study of Dynamical system, Types of process, Process Characteristics, Analyzing the response curve and Tuning method).
- Feedback Loop (Principles, Controller action, PID Tuning, structure of controllers, Feedback problems, Feedback limitations, cascade loop).
- Process Control Strategies (Feedforward, Control, Ratio Control, Split range, Limit, Selector and Override Control).
PREREQUISITES
- Trainee must be an experienced Instrument Maintenance Technician.
- Trainee must have a basic knowledge of English, English Course No. 31213.
LEARNING OUTCOMES
- Classify the process types and Process characteristics
- Determine dead time, time constant and process gain for a process. Differentiate between PID algorithms
- Apply different methods of control tuning.
- Implement and design feedforward, ratio, split range, selector, limit and override control systems.
COURSE OUTLINE
- Understand the significance of financial information for decision-making.
- Analyze financial statements using key ratios.
- Familiarize themselves with essential accounting and finance terms.
- Appreciate the budgeting process and its impact on organizational performance.
- Identify components necessary for enhancing profitability.
- Participate actively in finance-related activities during the course.
LEARNING OUTCOMES
- By the end of this course, participants will be able to:
- Defining business intelligence and knowing the relationship of business intelligence with other sciences and technologies.
- Familiarity with modern challenges in business intelligence.
- Define the basics of reporting in business intelligence.
- Explain the concept of OLAP and OLTP and their relationship to business intelligence.
- Awareness of human factors in the implementation of commercial intelligence.
- Using strategies, building structures, and drawing plans in business intelligence.
- Measuring performance indicators in business intelligence and collecting the necessary requirements.
- Building a roadmap for implementing a business intelligence project.
LEARNING OUTCOMES
- Explain the methodology for establishing an Operational Business Continuity Management System (BCMS)
- Identify the elements and best practices of a successful BCM program, specifically its policy, strategy, and supporting tools
- Understand the effective elements of a Business Impact Analysis (BIA) capable of meeting the strategic, tactical and operational requirements of an organization
- Develop a Business Continuity Plan (BCP) and provide Business Continuity Exercises (BC)
- Develop the knowledge and skills necessary to implement crisis management systems, build a crisis management team, and deal with a range of crises, disasters and economic adversities that negatively affect business continuity.
- Building cadres to effectively manage the crisis within their organizations.
- Describe and discuss business continuity management.
- Designing and implementing an accident and crisis management plan.
COURSE OUTLINE
LEARNING OUTCOMES
- Understand the technologies and process flow diagram for Wastewater treatments plants
- Know the different approaches in design and plant integrations.
- Apply the design calculations for sever design systems.
- Calculate the performance parameters and chemical /electrical consumption.
- Evaluate and assess the accuracy of the design and the alternative solutions.
- Managing Projects to Achieve Success
- Principles of Managing Projects
- Project Life Cycle
- Tools and Techniques for Project Success
- Managing Change
- Why Change Happens
- Approaches to Change
- Initiating & Planning Change
- Leading in a Digital Age
- Approaches to Managing and Leading Teams in a Digital Age
- Equipping High Performing Teams with the Right Skills and Experience
- Managing and Leading Hybrid Teams
- Data Driven Decision Making
- Understanding Data to Make Decisions
- Impact of Data on Decision Making
Interpreting and Presenting Data
COURSE OUTLINE
- Identify the principles and processes of various desalination technologies.
- Evaluate the advantages and limitations of different desalination techniques.
- Analyze the environmental and economic implications of desalination technologies.
- Apply knowledge of desalination technologies to real-world scenarios and case studies.
- Develop a comprehensive understanding of the current and emerging trends in saline water desalination.
COURSE OUTLINE
- Introduction to water resource.
- Surface water and groundwater.
- Water management in KSA.
- Water management benchmark with world standard.
LEARNING OUTCOMES
- Explore water management, and how it involves various disciplines.
- Learn about wastewater treatment processes.
- Identify the roles that engineers, businesses, and communities play in managing water resources.
- Gain an understanding of the principles and practices of water quality control.
- Explore the different types of water treatment options available.
- Explore the roles engineers play in protecting public health and dealing with everyday water issues such as shortages, floods and wastewater treatment.
Overview:
Desalination is a recurrent term in our time. In fact, it is a technology that has gone through a huge development since its apparition, and today it is a reliable water treatment technique that allows producing drinking water from oceans. The objective is to improve the energy efficiency of the system in order to save on operation costs as well as reduce the carbon and ecological footprints. Reverse osmosis membranes with higher surface area have lower energy consumption, as well as energy recovery systems to recover the brine pressure and introduce it in the system. Accounting for the operation, maintenance and handling of the membranes is also important in energy savings, in order to improve the energy efficiency. The energy consumption depends on the permeate water quality required and the model of the reverse osmosis membrane installed in the seawater desalination plant.
Outlines:
- Reverse Osmosis Fundamentals.
- Desalination Plant Operation and Performance Monitoring.
- Source Water Quality Characterization.
- Impact of fouling.
- RO System – Operation and Performance Monitoring.
- Troubleshooting and Optimization of Plant Operations.
- Energy recovery device.
Targeted:
Utility engineers, environmental engineers, consulting engineers, technologists, technicians, chemists, Design engineers and operating personnel or anyone requiring a working level knowledge of the theory and practice of reverse osmosis plants.
Date & Time:
4 Days | 08-09-2024 - 11-09-2024
from 8 AM to 4 PM
*Accredited Certification from Dhp
COURSE OUTLINE
- Describe the dynamic characteristics of process control systems.
- explain the feedback, cascade, feedforward, ratio and split-range control system.
- troubleshoot the system and practice the tuning and troubleshooting of various types of processes.
COURSE OUTLINE
LEARNING OUTCOMES
- Evaluate the different wastewater treatment processes and their applications in addressing environmental and public health concerns.
- Demonstrate an understanding of biological wastewater treatment methods and their role in removing contaminants from wastewater.
- Design and assess advanced wastewater treatment technologies for specific environmental and regulatory requirements.
- Analyze sustainable practices and resource recovery options in wastewater treatment, contributing to environmentally responsible management of water resources.
Description
The training diploma program in design and manufacturing is allocated to students who
are interested in complex processes for the design and manufacturing of pumps, valves,
and mechanical systems. This practical program combines theoretical knowledge and
practical skills to provide students with the necessary expertise to flourish in mechanical
engineering. Students will explore topics such as CAD/CAM design, materials science,
manufacturing processes, quality control and project management. Through a
combination of classroom learning, laboratory experiments and real-world projects.
Students will develop a deep understanding of the principles of mechanical design and
production techniques that are essential to their success in industry, and training will
take place through 2160 training hours.
LEARNING
OUTCOMES
At the end of this Training Diploma, trainees will be able to:
• Understand of mechanical engineering principles, including material science,
mechanical seals, welding techniques, and machine design.
• Be Proficiency in CAD software for creating detailed mechanical designs and
engineering drawings, as well as CAD/CAM design principles.
• Apply of algebra and relevant mathematics in engineering problem-solving and
finite element analysis.
• Develop English communication skills in technical settings and project
management principles application.
• Carry out practical experience in workshop environments, including precision
measurements, metrology understanding, and quality control inspections.
• Gain skill and knowledge of Belzona coating process, CNC machines (specifically
with Doosan equipment), and advanced manufacturing processes.
• Be compliance with safety regulations and best practices in mechanical design
and production environments, including automation systems understanding.
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• Enhance of machine performance through quality control techniques, bearing
installation procedures, and production planning strategies.
• Develop a comprehensive portfolio showcasing design projects and practical
skills acquired throughout the program.