دبلومة MEP المتكاملة (تكيف مركزي، مكافحة حريق، صحي، ميديكال)

محتوى دبلومة MEP المتكاملة (تكيف مركزي، مكافحة حريق، صحي، ميديكال)

تصل مدة دبلومة MEP المتكاملة إلى 140 ساعة لتغطية جميع الأجزاء العلمية والعملية، وتحتوي على:

HVAC Course

During the course, one project will be applied step by step (hotel CAD project) and another project (bank CAD project) will be applied as tasks and supervised during the course and finally be submitted as a final project at the end of the course in addition to Revit project

 Lecture 1 (2 hours)

•  Tender submission documents and project life cycle
•  Intro to the HVAC field, fundamentals, and heat transfer definitions and formulas
• Understanding and reading arch drawings

 Lecture 2 (2 hours)

• Psychometric chart and processes
•  Refrigeration cycle and manual load estimations
• Quick cooling load estimation methods

 Lecture 3 (2 hours)

•  HVAC systems (direct expansion, indirect)
• hi-wall type, floor standing type, cassette type, ceiling concealed type, split central type, VRF and package unit)
• Applying on a bank building

 Lecture 4 (2 hours)

•  Manual calculations + HAP (part.1)
•  Applying on a bank project

 Lecture 5 (2 hours)

• Manual calculations + HAP (part.2)
• Calculations of fresh air flow + return airflow and required airflow
• Applying on a bank project

 Lecture 6 (2 hours)

•  Define systems, zones, and report analysis in HAP (part.3)
• Applying on a bank project

 Lecture 7 (2 hours)

• Revise tasks and discuss issues on bank projects and know how to
• Legends and symbols + Installation details + BOQ including all items
• Comply with project technical specifications

 Lecture 8 (2 hours)

•  Chilled water system components
• Air handling unit (AHU)
• AHU hook up
• AHU components
• (Mixing chamber, Air filters, Heating & cooling coil, Blower & fan, and Humidifiers)
• AHU different arrangements according to the application
• AHU selection from catalogs
• Applying on a hotel project

 Lecture 9 (2 hours)

• Fan coil unit
• FCU hook up
• FCU selection from catalogs
• AC drain and condensation pan
• Applying on a hotel project

 Lecture 10 (2 hours)

• Air terminal Outlet types and selection factors
• Face and neck size selection
•  Air outlets selected from the catalog according to ceiling, noise criteria, space application, throw, and CFM
•  Air outlet distribution limitations
•  Application on bank project

 Lecture 11 (2 hours)

• Air duct systems according to SMACNA
• Duct design factors
• Sizing depends on the equal friction method+ (duct sizer and ductlator) program
• Thickness and gauge of the duct
• Duct fittings, supports, canvas, volume dampers, flexible duct
• Applying on a bank project

 Lecture 12 (2 hours)

• Duct weight calculations
• Duct insulation and duct leakage tests
• ESP calculation for ducts
• Applying on a bank project

Lecture 13 (2 hours)

•  Intro to Mechanical Ventilation System and ACH
• Types of Fans and Their Applications
• Calculation of CFM, ESP, and HP of fan according to an application (toilets, garages, generator- room)
• Local kitchen ventilation and hood design
• Applying on a bank project

 Lecture 14 (2 hours)

•  Chiller plant
• Chiller types and comparisons
• Chiller selection from catalogs
• Indoor units and outdoor units
• Types of pumps used in chiller plant
• Calculations of primary and secondary pumps (Q, H)
• Chilled water pipe sizing
• Hook up of all equipment
• Applying on a bank project

 Lecture 15 (2 hours)

• Cooling tower types and selection
• Cooling tower pump calculations
• Chilled water pipe sizing
• Applying on a Bank project

 Lecture 16 (2 hours)

• Absorption chiller type and selection from catalogs
• Flow control methods and part load control
•  (3-way and two-way valve, CAV and VAV)
• Cooling tower types and selection
• Cooling tower pump calculations
• Expansion tank calculations and selection
• Applying on a hotel project

 Lecture 17 (2 hours)

: Revise tasks and discuss issues on bank projects and know how to

• Legends and symbols + Installation details + BOQ including all items
• Comply with project technical specifications

 Lecture 18 (2 hours)

: HVAC Revit project including know-how to

•  Open project files and intro to templates, duct, and piping systems
•  Basic view properties and navigation tools
•  Basic modeling tools (air terminals distribution, place dampers, main hook up, FCU, AHU, move, copy, align, trim, mirror)
• Complete the HVAC library for all needed families and templates

 Lecture 19 (2 hours)

•  Continue main tools and Applying on office Revit project-
•  Discuss all needed relayed issues about course content in addition to the final submission of the villa project and rating

 Lecture 20 (2 hours) (Advanced)

: Intro to Smoke management systems

• Atrium smoke calculations
• Stairs pressurization calculations
• Calculations for extracted smoke from corridors

Firefighting Systems Course

During the course, one project will be applied step by step (hotel CAD project) and another project ( bank CAD project) will be applied as tasks and supervised during the course and finally be submitted as a final project at the end of the course in addition to the Revit project (admin building) to be applied

 Lecture 1 (2 hours)

•  Tender submission documents and project life cycle
•  Firefighting systems introduction, applied codes, and standards
• Fire classes and hazards
•  Types of firefighting systems (water-based systems, gas-based systems) (automatic-  systems, manual systems)

 Lecture 2 (2 hours)

•  Automatic water-based systems
• Wet pipe system
• Dry pipe systems
• Preauction systems
• Deluge systems

 Lecture 3 (2 hours)

•  Sprinklers (theory of operation, thermal sensitivity and rating, K factor, orientation)
• Sprinkler distribution and limitations according to hazards
• Installation requirements with applying on hotel CAD project
•  Applying on hotel CAD project

 Lecture 4 (2 hours)

• Piping system
• Material, joining method, hangars
• Sprinkler piping networks (tree, loop, grid)
• Applying on hotel CAD project

 Lecture 5 (2 hours)

• Standpipe systems
• FHC (classes, flow & residual pressure, location)
• FDC (types, locations)
• Fire hydrants (types, locations)
• Applying on hotel CAD project

 Lecture 6 (2 hours)

: Methods of pipe sizing and pump calculations (Q & H)

• Pipe schedule method with applying on the hotel project
• Hydraulic calculations using an elite program or manual calculations for both sprinkler and FHC scenarios will be applied on the hotel project

(Lecture 7 (2 hours

: Revise tasks and discuss issues on bank projects and know how to

• Legends and symbols + fire riser diagram
• Installation details + BOQ including all drainage items
• Comply with project technical specifications

 Lecture 8 (2 hours)

Fire pumps and pump room

• Pump types, requirements, and selection from catalogs
• Firefighting pump’s sequence of operation
• Pumps hook up and pump room components with their limitations and sizing
• Fire tank calculations and hook-up

Lecture 9 (2 hours)

Automatic gas-based systems

• CO2 system design
• Clean agent system design
• Aerosol system design
• Applying on a hotel project

 Lecture 10 (2 hours)

•  Foam system design with application on the project
•  Manual and automatic fire extinguishers in addition to fire search design and use
• : Revise tasks and discuss issues on bank projects and know how to
• Legends and symbols + fire riser diagram
• Installation details + BOQ including all drainage items
• Comply with project technical specifications

Lecture 11 (2 hours)

: Firefighting Revit project including knowing how to

• Open project files and intro to templates and piping systems
• Basic view properties and navigation tools. Basic modeling tools (sprinkler distribution, place zone valves, FHC and equipment (pump room), move, copy, align, trim, mirror)
• Complete firefighting library for all needed families and templates

 Lecture 12 (2 hours)

• Continue main tools and Apply on admin Revit project
• Discuss all needed relayed issues about course content in addition to the final submission of the villa project and rating

 Lecture 13 (2 hours) (advanced)

: Storage firefighting

• Main definitions (storage height, ceiling height, aisles, clearance height, rack system)
• Product type, packaging, and storage method
• Commodity classifications
• Sprinkler types (CMDA, CMSA, and ESFR)

 Lecture 14 (2 hours) (advanced)

• Hydraulic calculations of storage firefighting
• Apply on the actual store project

Plumping Systems Course

During the course one project will be applied step by step (hotel cad project) and another project ( villa cad project) will be applied as tasks and supervised during the course and finally be submitted as a final project at the end of the course in addition to the Revit project (admin building) to be applied.

Lecture 1 (2 hours)

• Tender submission documents and project life cycle
• Plumbing introduction, main definitions, and plumbing fixtures
• Understanding and reading architecture drawings
• Cold water supply systems
• Water tank types with hook-up details
• Building water demand with water tank calculations
•  Applying on the hotel CAD project

 Lecture 2 (2 hours)

•  Cold water pipe sizing
• Pipe material, valves, joining method, and hangars
• Selection from catalogues
•  Applying on hotel CAD project

 Lecture 3 (2 hours)

•  Calculations of water pump flow, and head requirements
• Booster pump selection with pump room details and pump setting
• Applying on hotel CAD project
• Hot water system (system types)
• Heaters types and capacity calculations
•  Applying on hotel CAD project
•  Lecture (4) (2 hours)
•  Central heating system
• Circulating pump with storage tank calculations (head and flow)
• Circulating pump with storage tank selection from catalogs
•  Pipe sizing methods for central heating system
•  Applying on hotel CAD project
•  Hydraulic test for supply network

 Lecture 5 (2 hours)

• : Revise tasks and discuss issues on the villa project and know how to
•   Legends and symbols + Make a riser diagram
•  Typical toilet details + enlarged pump room layout + installation details
•   BOQ including all cold and hot water items
•   Comply with project technical specifications

 Lecture 6 (2 hours)

• Intro to drainage system (sewage, storm, vent) systems
•  Drainage piping system (one pipe, single stack, two pipe system, modified one pipe system, solvent system)
• Drainage piping system design (Pipes material, pipe sizing criteria, joining method)
• Critical drainage connections and hydraulic jump
• Applying on hotel CAD project
• Hydraulic test

 Lecture 7 (2 hours)

• Interceptor use, calculations, and selection from the catalog
• (Grease, oil, lint, Neutralization tank, sand) interceptors
•  Applying on hotel CAD project
• Plumbing specialities considerations
• (CO, WCO, FCO, FD, GT, RT, and FFD) considerations and selection
•    Inspection, sedimentation, and slowdown chamber design
•   Applying on hotel CAD project

 Lecture 8 (2 hours)

• Forced discharging drain design
•   Submersible pump calculations and selection from the catalog
•   Sump pit sizing and considerations
•   Connection to the main drainage line
•   Applying on hotel CAD project
•  Venting system design
•   Trap design (P-trap, S-trap, gully trap)
•   Piping system (Individual vent, common vent, circuit vent, wet vent)
•   Venting pipe sizing
•   Applying on hotel CAD project
•  Storm system design
•   Distribution criteria
• Pipe Sizing
•   Connection to infra-network
•   Applying on hotel CAD project

 Lecture 9 (2 hours)

: Revise tasks and discuss issues on the villa project and know how to

•   Legends and symbols + Make drain stacks and risers diagram
•   Typical toilet details + installation details
•   BOQ including all drainage items
•   Comply with project technical specifications

 Lecture 10 (2 hours)

• Swimming pools types
• Pump room equipment and hook up
• Filter sizing and selection
•  Heater & cooler calculations and selection
•  Balance tank sizing
• Chemical dosing & UV sizing and selection from the catalog
• Applying on hotel CAD project

Lecture 11 (2 hours)

: Revise tasks and discuss issues on the villa project and know how to

• Intro to fountains design and calculations
•   Make flow diagram
•   Installation details
•    BOQ including all swimming pool system items
•   Comply with project technical specifications

Lecture 12 (2 hours)

: Plumbing Revit project including know-how to

•   Open project files and intro to templates and piping systems
•   Basic view properties and navigation tools
•  Basic modeling tools (create pipes with slopes, place valves, and equipment, move  copy align, trim, mirror)
•   Complete plumbing library for all needed families and templates

 Lecture (13 (2 hours)

•  Continue main tools and Apply on admin Revit project
• Discuss all needed relayed issues about course content in addition to the final submission of the villa project and rating

Medical Gases Systems Course

During the course, one project will be applied step by step (hospital.1) and another project (hospital.2) will be applied as tasks and supervised during the course and finally submitted as a final project at the end of the course in addition to Revit project (hospital.3) to be applied

Lecture 1 (2 hours)

• Tender submission documents and project life cycle
•  Intro to Medical Gases Systems Applied Codes and Standards
•  Hospital main departments and rooms
• Medical gases used in hospitals (definition and uses)
•  Main components of medical gas system (outlets, AVSU, high and low-pressure ala LVA, manifold, and equipment room)

 Lecture 2 (2 hours)

• low requirements with diversity for all gases as per HTM02-01
• Flow requirements with simultaneous factor for all gases as per ASPE
• Pressure drop and operating pressure limitations for all gases as per HTM 02-01
• Pressure drop and operating pressure limitations for all gases as per ASPE
• Applying on the hospital.1 cad project.

 Lecture 3 (2 hours)

• : Revise tasks and discuss issues on the hospital.2 cad project and know how to
• Legends and symbols + Make a riser diagram
• Comply with project technical specifications

 Lecture 4 (2 hours)

• Oxygen gas source types
• VIE and cylinders manifold calculations
• Selection of VIE and cylinders from catalogs
• Applying on the hospital.1 cad project

 Lecture 5 (2 hours)

• Medical, WAGD, vacuum, and surgical air gas source types
•  Equipment calculations and selection from catalogs
• Equipment and manifold room footprint
• Applying on the hospital.1 cad project

 Lecture 6 (2 hours)

: Revise tasks and discuss issues in the hospital.2 cad project and know how to

• Legends and symbols + Make a riser diagram. + Installation details
•  BOQ including all MG items
•  Comply with project technical specifications

مميزات دبلومة MEP المتكاملة مع بوابة المهندسين

تعد أكاديمية بوابة المهندسين أحد أفضل أماكن الكورسات الهندسية في مصر، ومن المميزات التي ستحصل عليها عند حجز دبلومة MEP المتكاملة مع الأكاديمية:

• متاح تقسيط تكلفة الدبلومة على 4 دفعات جزء من التكلفة بعد المحاضرة الأولى والجزء الثاني بعد المحاضرة الرابعة والجزء الثالث بعد المحاضرة 10 والجزء الرابع بعد المحاضرة 20.
• خصم خاص على دبلومة MEP المتكاملة في حالة التدريب للشركات.
• التطبيق على 13 مشروع تم تنفيذه بالفعل خطوة بخطوة شامل التصميم والحسابات الخاصة به من A to Z على برنامج Autocad وبرنامج Revit.
• التطبيق على مشروع مبنى سكنى (فيلا) وتسليمه في نهاية الدورة شرط الحصول على شهادة من الأكاديمية.
• الدبلومة مسجلة بالكامل.
• يمكنك حضور دبلومة MEP المتكاملة في المقر في مدينة نصر أو أونلاين تفاعلي على زوم.
• يمكنك استراد قيمة الدبلومة في حالة عدم استفادتك.
• يمكنك الحضور مرة أخرى وإعادة الدبلومة مجاناً.
• بعد انتهاء الدبلومة ستحصل على شهادة معتمدة من أكاديمية بوابة المهندسين شرط التطبيق على المشاريع كاملة وتسليمها لمراجعتها.

من يمكنهم الانضمام إلى دبلومة MEP المتكاملة؟

دبلومة MEP المتكاملة مناسبة لكل من يريد الدخول في هذا المجال سواء الطلبة أو الخريجين من كلية الهندسة.

هل يحصل المشاركون في الدبلومة على شهادة معتمدة؟

بعد انتهاء الكورس ستحصل على شهادة معتمدة من أكاديمية بوابة المهندسين وكود مخصص للتأكد منها على الموقع الالكتروني في صفحة إثبات الشهادات شرط التطبيق على المشاريع كاملة وتسليمها لمراجعتها.

هل توفر الدبلومة تطبيق عملي؟

بالطبع يوجد تطبيق عملي على كل ما تحتويه الدبلومة لضمان فهم جميع أجزاؤها العلمية والعملية.

كم من الوقت تستغرق دبلومة MEP المتكاملة؟

تحتوي الدبلومة على 140 ساعة لتغطية جميع الأجزاء العلمية والعملية.

سارع بحجز مقعدك في دبلومة mep المتكاملة (تكيف مركزي، مكافحة حريق، صحي، ميديكال) القادم من بوابة المهندسين من خلال:

• الاتصال على 01016473264
• التواصل معنا عبر الفيسبوك
• إرسال رسالة على الواتساب
• التسجيل في الاستمارة بالأسفل.