دليلك الشامل لإنشاء إنفوجرافيك هندسي احترافي باستخدام الذكاء الاصطناعي

نظام الرشاشات المائية (Wet Pipe Sprinkler System) كنموذج تطبيقي

هل تخيلت يوما ان تنشئ إنفوجرافيك هندسي بجودة المجلات التقنية العالمية – بدون مصمم جرافيك، وبدون برامج تصميم معقدة؟ في هذا المقال ساشرح لك بالتفصيل كيف تبني برومبت (Prompt) احترافي لتوليد صور إنفوجرافيك هندسية باستخدام ادوات الذكاء الاصطناعي مثل Midjourney و DALL-E و Ideogram وغيرها.

سناخذ كمثال تطبيقي: نظام الرشاشات المائية لمكافحة الحريق (Wet Pipe Fire Sprinkler System) – وهو من اهم انظمة الحماية من الحريق في المباني، ويخضع لمعايير NFPA 13 الدولية.

    ما ستتعلمه في هذا المقال:

    ١. فهم هيكل البرومبت الهندسي الاحترافي وكل اقسامه

    ٢. كيف تعدل وتضيف اوامر جديدة للبرومبت

    ٣. كيف تولد برومبتات مشابهة لانظمة MEP اخرى

    ٤. نصائح ذهبية للحصول على افضل النتائج

1 ما هو البرومبت الهندسي المتقدم؟

البرومبت الهندسي المتقدم ليس مجرد جملة بسيطة مثل “ارسم لي نظام رشاشات” – بل هو وثيقة تقنية مهيكلة تحتوي على تعليمات دقيقة ومفصلة تشمل:

الوصف العام (Description): ما الذي نريد رسمه بالضبط؟
العناصر التقنية (Technical Elements): كل مكون في النظام بالتفصيل الهندسي
اسلوب التصميم (Design Style): الالوان والاضاءة والخطوط والخلفية
متطلبات الجودة (Quality Requirements): معايير الدقة والصحة الفنية
الاجواء العامة (Overall Vibe): المستوى المطلوب والجمهور المستهدف

نصيحة مهمة: كلما كان البرومبت اكثر تفصيلا وتنظيما، كلما حصلت على نتائج اقرب لتصورك. ادوات الذكاء الاصطناعي تتعامل مع النصوص المنظمة افضل بكثير من النصوص العشوائية.

2 شرح تفصيلي لكل قسم في البرومبت

ا) الوصف العام (Subject and Description)

“subject”: “Wet Pipe Fire Sprinkler System”,
“description”: “Photorealistic cinematic industrial engineering infographic
of a complete wet pipe fire sprinkler system. Ultra-precise technical cutaway
rendering showing sprinkler heads, pipe network, control valve assembly,
water supply, and hydraulic calculations…”

هذا الجزء يحدد الموضوع الرئيسي والنمط البصري المطلوب. لاحظ استخدام كلمات مفتاحية قوية مثل:

Photorealistic: واقعي كالصورة الفوتوغرافية
Cinematic: باضاءة سينمائية درامية
Technical cutaway: مقطع تقني يظهر الاجزاء الداخلية
Isometric exploded view: منظور ايزومتري مفكك
Crystal-clear annotations: شروحات واضحة تماما

ب) العناصر التقنية (Technical Elements)

هذا هو قلب البرومبت واهم اجزائه. وهو مقسم لعدة اقسام فرعية:

نظرة عامة على النظام (System Overview)

يحدد المكونات الرئيسية وموقعها في التصميم:

“system_overview”: [
  “Main riser assembly with alarm valve – positioned lower-left as hero element”,
  “Horizontal pipe grid network (branch lines and cross mains) showing proper pitch”,
  “Multiple sprinkler head types: pendent (4), upright (2), sidewall (1), concealed (1)”,
  “Water supply connection with backflow preventer”,
  “Fire department connection (FDC) with Storz coupling”,
  “Hydraulic calculation placard and system nameplate”
]

لاحظ ان كل عنصر محدد بدقة: العدد، النوع، والموقع في التصميم. هذا يساعد الذكاء الاصطناعي على ترتيب العناصر بشكل منطقي.

تفاصيل راس الرشاش (Sprinkler Head Exploded Detail)

يصف كل جزء داخلي في راس الرشاش بدقة متناهية:

المكون	المواصفات	الغرض
البصيلة الزجاجية (Glass Bulb)	5mm, 68C/155F, لون احمر	الحساس الحراري الذي ينكسر عند درجة حرارة محددة
صفيحة التوزيع (Deflector)	برونز، K=5.6	توزيع الماء بنمط مظلي
الاطار (Frame Body)	نحاس مطلي كروم، NPT 1/2″	الهيكل الحامل
الفوهة (Orifice)	12.7mm اسمي	التحكم في معدل التدفق
منطقة التغطية	12ft x 12ft	المساحة المحمية لكل رشاش

مجموعة صمام الانذار (Alarm Valve Assembly)

يشمل وصف كل مكون من مكونات صمام الانذار:

جسم الصمام الرئيسي (حديد دكتايل، 6 بوصة، 300 PSI)
آلية المصفق (Clapper) في الوضع المغلق والمفتوح
جرس الانذار الميكانيكي (Water Motor Alarm)
مفتاح الضغط الكهربائي للمراقبة
صمام الصرف الرئيسي (2 بوصة كروي)
وصلة اختبار المفتش (Inspector’s Test)
صمام البوابة OS&Y للعزل
مقاييس الضغط (جانب الامداد وجانب النظام)

شبكة المواسير (Piping Network)

نوع الماسورة	المقاس	المواصفة
الماسورة الرئيسية (Riser)	6 بوصة	Schedule 40 حديد اسود
الخطوط العرضية (Cross Mains)	4″ الى 3″	Schedule 40 حديد
خطوط الفروع (Branch Lines)	2″ الى 1-1/4″	Schedule 40 مع ميل 1:240
نقاط التغذية (Sprinkler Drops)	1 بوصة	ملولبة مع كوع 90 درجة

تصور التدفق الهيدروليكي (Hydraulic Flow Visualization)

من اكثر الاجزاء ابداعا في البرومبت – يطلب تصوير حركة الماء والضغط بصريا:

    خريطة تدرج الضغط:

    ازرق غامق (150 PSI) عند مصدر المياه

    ازرق سماوي (80 PSI) في الخطوط العرضية

    ازرق فاتح (40 PSI) في خطوط الفروع

    ابيض (20 PSI) عند ابعد رشاش

هذا التدرج اللوني يسهل فهم سلوك الضغط في النظام بشكل بصري ممتاز – وهو امر اساسي في تعليم الحسابات الهيدروليكية.

متطلبات الامداد المائي (Water Supply)

“Static pressure: 85 PSI available”
“Residual pressure: 65 PSI flowing at 1000 GPM”
“Required flow: 450 GPM for 1500 sq ft design area”
“Duration: 60 minutes minimum water supply”

المواصفات الفنية (Technical Specifications)

    معايير التصميم الرئيسية:

    – تصنيف الاشغال: خطورة خفيفة (Light Hazard)

    – كثافة التصميم: 0.10 GPM/sq ft على 1500 قدم مربع

    – درجة حرارة التشغيل: 155F / 68C

    – معامل التدفق: K = 5.6

    – ضغط التشغيل الاقصى: 175 PSI

    – ضغط الاختبار الهيدروستاتيكي: 200 PSI لمدة ساعتين

معايير NFPA والاعتمادات

NFPA 13 – معيار تركيب انظمة الرشاشات
NFPA 25 – الفحص والاختبار والصيانة
NFPA 72 – تكامل نظام انذار الحريق
اعتماد UL Listed و FM Approved

3 اسلوب التصميم (Design Style) – شرح مفصل

ا) التخطيط (Layout)

المنطقة	النسبة	المحتوى
اسفل يسار	30%	مجموعة صمام الانذار (العنصر البطل)
اعلى يمين	20%	تفاصيل راس الرشاش المفكك
المركز	35%	شبكة المواسير مع تصور التدفق
اسفل يمين	15%	لوحات البيانات والحسابات الهيدروليكية

ب) لوحة الالوان (Color Palette)

العنصر	اللون	الكود
المواسير والعناصر الحرجة	احمر الحماية	#CC0000
الحديد الاسود	اسود فولاذي	#2B2B2B
الكروم المصقول	كروم لامع	#E8E8E8
النحاس الاصفر	نحاس اصيل	#B5A642
مناطق الضغط العالي	ازرق غامق	#004C99
تدعيم الزلازل	اصفر تحذيري	#FFD700
الخلفية	شبكة هندسية	#E8F4F8

ج) الاضاءة (Lighting)

Key Light: اضاءة رئيسية من اعلى اليسار بزاوية 45 درجة – تخلق ابرازات بطولية على الكروم والنحاس
Rim Light: اضاءة حمراء خلفية تحاكي اضاءة الطوارئ
Spotlight: بقعة ضوء على راس الرشاش المفكك
Fill Light: اضاءة ملء بنسبة 40% لمنع الظلال القاسية

د) المواد (Material Rendering)

يطلب البرومبت مواد PBR فائقة الواقعية بدقة 8K تشمل:

طلاء كروم ثلاثي مع علامات استخدام طبيعية
بصيلات زجاجية مع انكسار السائل الداخلي
شريط تفلون مرئي على الوصلات الملولبة
جوانات مطاطية مع تشوه الضغط
سطح طلاء مسحوقي احمر بملمس قشر البرتقال

4 كيف تضيف اوامر جديدة للبرومبت

الآن ناتي للجزء العملي – كيف تعدل هذا البرومبت او تضيف عناصر جديدة:

الطريقة الاولى: اضافة عناصر تقنية جديدة

يمكنك اضافة قسم جديد داخل technical_elements. مثلا، لاضافة تفاصيل عن مضخة الحريق:

“fire_pump_details”: [
  “Horizontal split-case fire pump: 500 GPM @ 100 PSI rated”,
  “Electric motor drive: 50 HP, 460V/3-phase/60Hz”,
  “Jockey pump: 10 GPM @ 120 PSI for pressure maintenance”,
  “Controller: UL/FM listed with automatic/manual start”,
  “Suction pipe: 8 inch with butterfly valve and strainer”,
  “Discharge pipe: 6 inch with check valve and relief valve”,
  “Test header with flow meter and hose valves”,
  “Cutaway showing impeller, wear rings, and mechanical seal”
]

الطريقة الثانية: تعديل المواصفات الفنية

لتغيير تصنيف الاشغال من Light Hazard الى Ordinary Hazard Group 2:

// قبل التعديل:
“Occupancy classification: Light Hazard (Office/Residential)”
“Design density: 0.10 GPM/sq ft over 1500 sq ft area”

// بعد التعديل:
“Occupancy classification: Ordinary Hazard Group 2 (Manufacturing)”
“Design density: 0.20 GPM/sq ft over 1500 sq ft area”
“Hose stream allowance: 250 GPM”
“Duration: 90 minutes minimum water supply”

الطريقة الثالثة: اضافة تاثيرات بصرية جديدة

“special_effects”: [
  “Thermal imaging overlay showing heat signature on ceiling”,
  “Smoke layer developing at ceiling level triggering sprinkler”,
  “Before/after comparison: room without vs with sprinkler activation”,
  “Slow-motion glass bulb shattering sequence”,
  “Floor plan overlay showing coverage gaps analysis”
]

الطريقة الرابعة: تغيير نسبة العرض الى الارتفاع

// للبوستر العمودي (مناسب للهاتف والسوشيال ميديا):
“aspect_ratio”: “9:16”

// للبوستر الافقي (مناسب للعرض على الشاشة):
“aspect_ratio”: “16:9”

// للمربع (مناسب لانستجرام):
“aspect_ratio”: “1:1”

// للبوستر المطبوع A3:
“aspect_ratio”: “3:4”

الطريقة الخامسة: اضافة متطلبات جودة جديدة

“critical_quality_requirements”: [
  “Fire pump curves must show shutoff, rated, and overload points”,
  “Seismic bracing must show proper angle (not less than 45 degrees)”,
  “Pipe hangers must show correct rod diameter per load tables”,
  “FDC must show clapper-type check valves (not swing check)”,
  “System must show proper air venting at high points”
]

الطريقة السادسة: تغيير الموضوع بالكامل

// لتغيير نوع النظام:
“subject”: “Wet Pipe Fire Sprinkler System”

// يمكنك استبدالها بـ:
“subject”: “Dry Pipe Fire Sprinkler System”
“subject”: “Pre-Action Fire Sprinkler System”
“subject”: “Deluge Fire Sprinkler System”
“subject”: “Foam-Water Sprinkler System”

تنبيه مهم: عند تغيير نوع النظام، يجب تعديل العناصر التقنية المرتبطة. مثلا، نظام الانابيب الجافة (Dry Pipe) يحتاج اضافة: صمام الانابيب الجافة، ضاغط الهواء، محبس التسريع (Quick-Opening Device)، ومتطلبات ميل المواسير المختلفة.

5 كيف تنشئ برومبتات مشابهة لانظمة MEP اخرى

يمكنك استخدام نفس الهيكل لانشاء برومبتات لاي نظام هندسي. اليك الخطوات:

الخطوة 1: حدد النظام والمعيار المرجعي

// امثلة:
“HVAC Chilled Water System” — ASHRAE Standards
“Electrical Power Distribution” — NEC / IEC Standards
“Plumbing Drainage System” — IPC / UPC Standards
“Fire Alarm System” — NFPA 72
“Smoke Control System” — NFPA 92
“Kitchen Hood Suppression” — NFPA 96 / UL 300

الخطوة 2: انسخ هيكل البرومبت

حافظ على نفس الاقسام الرئيسية وعدل المحتوى:

{
  “prompt”: {
    “subject”: “[اسم النظام]”,
    “description”: “Photorealistic cinematic industrial engineering infographic…”,
    “technical_elements”: {
      “system_overview”: […],
      “component_detail”: […],
      “piping_or_wiring”: […],
      “flow_visualization”: […],
      “specifications”: […],
      “code_compliance”: […],
      “testing”: […]
    },
    “design_style”: {
      “layout”: “…”,
      “color_palette”: […],
      “lighting”: “…”,
      “material_rendering”: “…”
    },
    “critical_quality_requirements”: […],
    “aspect_ratio”: “9:16”
  }
}

الخطوة 3: خصص المحتوى التقني

اليك مثال سريع لنظام تكييف الهواء بالماء المبرد (Chilled Water System):

{
  “subject”: “Chilled Water HVAC System”,
  “technical_elements”: {
    “system_overview”: [
      “Water-cooled centrifugal chiller (500 TR) as hero element”,
      “Primary-secondary pumping arrangement”,
      “Cooling tower with fan and fill media”,
      “Air handling unit (AHU) with chilled water coil”,
      “Fan coil units (FCU) in parallel configuration”,
      “Expansion tank and air separator”
    ],
    “chiller_exploded_detail”: [
      “Centrifugal compressor with impeller cutaway”,
      “Shell-and-tube evaporator showing refrigerant/water circuits”,
      “Condenser with tube bundle detail”,
      “Electronic expansion valve (EEV)”,
      “Variable frequency drive (VFD) on compressor motor”,
      “Refrigerant: R-134a cycle on P-h diagram overlay”
    ],
    “piping_network”: [
      “Chilled water supply: 10 inch Schedule 40 steel, 42F (5.5C)”,
      “Chilled water return: 10 inch Schedule 40 steel, 54F (12C)”,
      “Condenser water supply: 12 inch to cooling tower, 95F (35C)”,
      “Condenser water return: 12 inch from tower, 85F (29C)”,
      “Insulation: Armaflex closed-cell, 1 inch thick with vapor barrier”
    ]
  }
}

انظمة MEP اخرى يمكنك انشاء برومبتات لها:

النظام	المعيار	المكون البطل
نظام انذار الحريق	NFPA 72	لوحة التحكم FACP
نظام الصرف الصحي	IPC	مجمع الصرف مع المصائد
نظام التهوية الميكانيكية	ASHRAE 62.1	وحدة مناولة الهواء AHU
التوزيع الكهربائي	NEC/IEC	لوحة التوزيع الرئيسية MDB
نظام UPS	IEEE/NFPA 111	وحدة UPS مع البطاريات
نظام اطفاء غازي FM200	NFPA 2001	اسطوانة الغاز مع صمام التحكم
نظام مضخات الحريق	NFPA 20	مضخة الحريق الافقية
نظام الغاز الطبي	NFPA 99	محطة الغاز المركزية
نظام التحكم DDC	ASHRAE 135 (BACnet)	وحدة التحكم DDC
نظام مجاري الهواء	SMACNA	وحدة AHU مع المجاري

6 نصائح ذهبية للحصول على افضل النتائج

١. ابدا بالبنية ثم اضف التفاصيل

لا تحاول كتابة كل شيء مرة واحدة. ابدا بالهيكل العام، ثم اضف التفاصيل تدريجيا. جرب البرومبت واعدله بناء على النتائج.

٢. استخدم المصطلحات الهندسية الدقيقة

ادوات الذكاء الاصطناعي تتعرف على المصطلحات التقنية. استخدم “OS&Y gate valve” بدلا من “valve” فقط. كلما كان المصطلح ادق، كلما كانت النتيجة افضل.

٣. حدد الالوان باكواد HEX

لا تقل “احمر” فقط – قل “#CC0000” او “Fire protection red”. هذا يعطي نتائج اكثر اتساقا.

٤. ضع متطلبات جودة صارمة

قسم critical_quality_requirements هو سلاحك السري. اي خطا تقني لاحظته في نتائج سابقة، اضفه كشرط جودة سلبي: “Must NOT show…” او “Must CORRECTLY show…”

٥. استخدم الابعاد والارقام الحقيقية

بدلا من “large pipe” اكتب “6-inch Schedule 40 black steel pipe”. الارقام تعطي نتائج اكثر واقعية.

٦. حدد المنظور والتخطيط

حدد نوع المنظور (isometric, perspective, orthographic) واين يقع كل عنصر في التصميم بالنسب المئوية.

٧. اطلب اجزاء مفككة (Exploded Views)

الاجزاء المفككة هي الاكثر قيمة تعليمية. حدد بالضبط اي مكون تريد تفكيكه واظهار اجزائه الداخلية.

٨. اضف المعايير والكودات

ذكر NFPA 13 او ASHRAE او IEC يساعد الذكاء الاصطناعي على فهم مستوى الدقة المطلوب والسياق الهندسي.

7 كيفية استخدام البرومبت مع ادوات مختلفة

مع Midjourney

استخدم الوصف العام (description) مع العناصر التقنية الاهم كنص واحد متصل. اضف في النهاية:

/imagine prompt: [paste description + key technical elements]
–ar 9:16 –v 6.1 –style raw –q 2

مع DALL-E 3 / ChatGPT

يمكنك ارسال البرومبت كاملا بصيغة JSON واطلب من ChatGPT تحويله لصورة. او الصق الوصف مباشرة.

مع Ideogram

Ideogram ممتاز للنصوص داخل الصور. ركز على الـ annotations والـ labels في البرومبت.

مع Claude + الادوات الخارجية

يمكنك ارسال ملف JSON الكامل لـ Claude وطلب تعديله او انشاء نسخة لنظام جديد، ثم استخدام الناتج مع اداة توليد الصور المفضلة لديك.

8 امر سريع لتوليد برومبت جديد

يمكنك استخدام هذا الامر (Prompt) مع Claude او ChatGPT لتوليد برومبت مشابه لاي نظام:

انشئ لي برومبت انفوجرافيك هندسي احترافي بصيغة JSON مشابه لبرومبت
نظام الرشاشات المائية، ولكن هذه المرة عن:
[اسم النظام – مثلا: نظام تكييف الهواء المركزي بالماء المثلج]

يجب ان يشمل:
وصف عام باسلوب سينمائي واقعي
عناصر تقنية مفصلة لكل مكون (exploded views)
تصور بصري للتدفق (ماء/هواء/تيار كهربائي)
مواصفات فنية حقيقية بارقام دقيقة
لوحة الوان باكواد HEX
اضاءة سينمائية ومواد PBR واقعية
متطلبات جودة صارمة لمنع الاخطاء
المعايير والكودات المرجعية
نسبة العرض 9:16 للبوستر العمودي
اجواء عامة بمستوى المجلات الهندسية العالمية

9 10 امثلة جاهزة للاستخدام – برومبتات انظمة MEP

اليك 10 برومبتات جاهزة يمكنك نسخها مباشرة واستخدامها مع Midjourney او DALL-E او Ideogram لتوليد انفوجرافيك هندسي احترافي. كل برومبت مصمم بنفس المنهجية المشروحة اعلاه.

ملاحظة: كل برومبت مكتوب كنص واحد جاهز للصق مباشرة. يمكنك اضافة –ar 9:16 –v 6.1 –style raw في نهاية البرومبت اذا كنت تستخدم Midjourney.

المثال 1: نظام تكييف الهواء المركزي بالماء المثلج (Chilled Water HVAC System)

النظام: Chilled Water HVAC System | المعيار: ASHRAE | التطبيق: المباني التجارية والمستشفيات

Photorealistic cinematic industrial engineering infographic of a complete Chilled Water HVAC System. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (lower-left 30%): Water-cooled centrifugal chiller (500 TR) with detailed cutaway showing centrifugal compressor impeller, shell-and-tube evaporator with refrigerant R-134a circuit and chilled water circuit separated by tube walls, condenser with tube bundle, electronic expansion valve (EEV), hermetic motor with Variable Frequency Drive (VFD), oil separator and oil return line, refrigerant sight glass with moisture indicator, hot gas bypass valve.

PIPING NETWORK (center 35%): Primary-secondary pumping arrangement with decoupler bypass pipe. Chilled water supply loop: 10-inch Schedule 40 steel pipe at 42F (5.5C) shown in deep blue (#004C99). Chilled water return loop: 10-inch at 54F (12C) shown in light blue (#66B2FF). Condenser water supply: 12-inch to cooling tower at 95F (35C) shown in orange-red (#E65100). Condenser water return: 12-inch at 85F (29C) shown in warm orange (#FF8F00). Delta-T = 12F across evaporator. Flow rate arrows: 1200 GPM chilled water, 1500 GPM condenser water. Insulation: Armaflex closed-cell 1-inch thick with aluminum jacket and vapor barrier visible at cutaway. Butterfly valves, Y-strainers, flexible connectors, and balancing valves shown at equipment connections. Pipe hangers with vibration isolators.

SECONDARY EQUIPMENT (upper-right 20%): Air Handling Unit (AHU) cutaway showing: mixed air plenum with OA/RA dampers, MERV-13 filter bank, 6-row chilled water cooling coil with condensate drain pan, supply fan with VFD motor, discharge plenum. Fan Coil Unit (FCU) exploded view showing: 2-row coil, EC motor fan, 2-way control valve with actuator, condensate pump.

COOLING TOWER DETAIL: Induced-draft counterflow cooling tower showing: axial fan with FRP blades, PVC fill media (film type), hot water distribution basin with spray nozzles, cold water basin with makeup water float valve, drift eliminators, air inlet louvers.

SYSTEM ACCESSORIES: Expansion tank (bladder type) with air separator, chemical treatment pot feeder, water flow switches, temperature sensors (supply/return), pressure differential transmitters, BMS/DDC controller with BACnet interface.

DATA PANELS (bottom-right 15%): Chiller performance curve (kW/TR vs Part Load %), psychrometric chart showing coil process line, pump curves with operating point, cooling tower performance at different wet-bulb temperatures, system schematic P&ID diagram.

SPECIFICATIONS: Chiller COP: 6.1 at full load (AHRI 550/590), Chilled water: 42F supply / 54F return, Condenser water: 85F entering / 95F leaving, Design wet-bulb: 78F, Total cooling capacity: 500 TR (1758 kW), Refrigerant charge: R-134a (450 lbs).

COLOR PALETTE: Chilled water supply deep blue (#004C99), return light blue (#66B2FF), condenser hot orange-red (#E65100), condenser cool orange (#FF8F00), refrigerant circuit green (#00C853), insulation grey (#78909C), steel pipe dark grey (#37474F), copper tubing warm copper (#B87333).

LIGHTING: Dramatic studio lighting from upper-left at 45 degrees with cool blue accent on chilled water side and warm orange accent on condenser side. Chrome reflections on polished impeller and tube sheets. Soft fill light at 35% intensity. Realistic frost/condensation effect on chilled water pipes.

MATERIAL RENDERING: Ultra-realistic PBR materials at 8K resolution. Brushed steel on chiller shell, polished copper on tube bundles, powder-coated blue enamel on pump casings, galvanized steel on cooling tower structure, black rubber on flexible connectors, anodized aluminum on damper blades.

Professional engineering grid background (#E8F4F8). ASHRAE compliance stamps. All text must be perfectly legible. Aspect ratio 9:16.

المثال 2: نظام انذار الحريق والاطفاء (Fire Alarm System)

النظام: Addressable Fire Alarm System | المعيار: NFPA 72 | التطبيق: جميع المباني

Photorealistic cinematic industrial engineering infographic of a complete Addressable Fire Alarm and Detection System. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (lower-left 30%): Fire Alarm Control Panel (FACP) with door open showing: main CPU board with microprocessor, Signaling Line Circuit (SLC) loop cards (4 loops), Notification Appliance Circuit (NAC) modules, primary 120VAC power supply with transformer, sealed lead-acid backup batteries (24V, 18Ah) with charger circuit, ground fault detection module, network communication card (BACnet/IP), fiber optic network interface, LCD display and membrane keypad, LED status indicators (AC Power, Trouble, Supervisory, Alarm – in green/yellow/yellow/red), terminal strips with wiring connections, door tamper switch. Panel rated NFPA 72 compliant, UL 864 Listed.

DETECTION DEVICES (upper-right 25%): Exploded cutaway views of: Photoelectric smoke detector showing LED emitter, photodiode receiver, smoke chamber with insect screen, base with SLC address switches and communication IC. Ionization smoke detector showing americium-241 source, inner/outer chambers, FET amplifier. Heat detector (rate-of-rise + fixed temp 135F) showing thermistor element and bimetallic disc. Multi-criteria detector combining smoke/heat/CO sensors. Beam detector (transmitter/receiver pair spanning 100m). Duct smoke detector with sampling tube installation in AHU ductwork. Manual pull station (single-action) with break-glass rod and microswitch.

NOTIFICATION DEVICES: Horn/strobe combination (wall mount, 15/75cd selectable, temporal-3 pattern). Speaker/strobe for voice evacuation (25/70V, 1W/2W selectable). Weatherproof horn/strobe (NEMA 4X rated). Corridor-mounted visible notification appliance showing candela ratings per ADA/NFPA spacing tables.

WIRING NETWORK (center 30%): SLC Loop wiring: Class A (Style 6) showing T-tap and loop-back configuration with end-of-line supervision. NAC wiring: Class B (Style Y) with EOL resistor (4.7k ohm). Conduit system: 3/4-inch EMT with compression fittings. Junction boxes and device boxes. Fire-rated cable (2-hour rated FPLR) in red jacket. Typical floor plan overlay showing device placement: smoke detectors at 30ft spacing, strobes per NFPA 72 Table 18.5.5.4.1 candela/coverage.

SYSTEM INTEGRATION: Connection to sprinkler flow switch and tamper switch, elevator recall interface, HVAC shutdown relay, door holder release, stairwell pressurization fan start, fire suppression system release (pre-action/deluge), building management system (BMS) interface, central station monitoring via DACT (Digital Alarm Communicator Transmitter) and IP communicator.

DATA PANELS (bottom-right 15%): System riser diagram showing all loops and zones, device count summary table, battery calculation worksheet (standby: 24hrs + alarm: 5min), voltage drop calculation for NAC circuits, detection coverage floor plan with spacing circles.

SPECIFICATIONS: System type: Addressable (SLC protocol), Loop capacity: 254 devices per SLC loop, NAC capacity: 3A per circuit, Operating voltage: 24VDC nominal, Standby current: 0.5A, Alarm current: 8A total, Battery backup: 24 hours standby + 5 minutes alarm per NFPA 72.

COLOR PALETTE: Fire alarm red (#CC0000) for panel and critical wiring, SLC wiring red/black pair, NAC wiring red/black pair, detection devices white (#F5F5F5) with red LED indicators, conduit silver (#A0A0A0), fire-rated cable red jacket (#B71C1C), background technical grid light grey (#ECEFF1), alarm LED bright red (#FF1744), trouble LED amber (#FFD600), power LED green (#00E676).

LIGHTING: Dramatic emergency lighting ambiance with red-tinted rim light simulating alarm activation. Bright key light on open FACP panel revealing internal components. LED indicator glow effects on detector heads. Strong spotlight on exploded smoke detector detail.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Powder-coated red steel on FACP enclosure, polycarbonate detector housings with slight texture, die-cast aluminum detector bases, tempered glass on pull station, phosphor-bronze terminal contacts, PVC cable insulation with print markings visible.

Professional engineering grid background. NFPA 72 and UL 864 compliance markings. All text perfectly legible. Aspect ratio 9:16.

المثال 3: نظام التوزيع الكهربائي (Electrical Power Distribution)

النظام: Low Voltage Power Distribution | المعيار: NEC / IEC 61439 | التطبيق: المباني التجارية والصناعية

Photorealistic cinematic industrial engineering infographic of a complete Low Voltage Electrical Power Distribution System. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (lower-left 30%): Main Distribution Board (MDB) 4000A with door open showing: Air Circuit Breaker (ACB) 4000A/3P with electronic trip unit visible (LSIG protection curves), motorized operating mechanism, arc chute chambers with deion plates cutaway, current transformers (CTs) on each phase, copper busbars (3-phase + neutral + earth) rated 4000A with silver-plated contact surfaces, bus coupler section, power metering module (multifunction meter showing V/A/kW/kVAr/PF/kWh), surge protection device (SPD Type 1+2, 100kA), capacitor bank connection for power factor correction (target PF=0.95), cable termination lugs with proper torque markings.

TRANSFORMER (upper-left 15%): Dry-type transformer 2000 kVA cutaway showing: HV windings (11kV delta), LV windings (400V star), silicon steel laminated core, epoxy-resin cast coils with cooling ducts, temperature sensors (PT100) in windings, forced-air cooling fans, tap changer (off-load, +/-5% in 2.5% steps), neutral earthing resistor connection.

DISTRIBUTION NETWORK (center 35%): Single line diagram overlay showing power flow: Transformer 11kV/400V to MDB to Sub-Main Distribution Boards (SMDB) to Final Distribution Boards (FDB) to loads. Cable tray system with: power cables (XLPE/SWA/PVC, 4-core 300mm2 for mains), control cables, cable glands and terminations, fire barriers at wall penetrations. Busbar trunking (busduct) 2000A from transformer to MDB showing tap-off units. Cable sizing shown with voltage drop calculation (max 3% for final circuits per IEC).

SUB-DISTRIBUTION (upper-right 20%): SMDB panel showing: MCCB (Molded Case Circuit Breaker) 630A incomer with adjustable thermal-magnetic trip, outgoing MCCBs (100A-400A) for sub-circuits, RCBO (Residual Current Breaker with Overcurrent) 30mA for socket circuits, surge protection, energy meter per floor, DIN rail mounted components. Final DB showing: MCBs (10A-32A Type B/C/D), RCDs 30mA for safety, SPD Type 2, busbar with phase distribution.

EARTHING AND LIGHTNING PROTECTION: TN-S earthing system diagram showing: main earthing terminal (MET), protective earth conductor (green/yellow), supplementary bonding, earth electrode (copper rod 3m with test pit), lightning protection system with air terminals on roof, down conductors, and earth ring.

DATA PANELS (bottom-right 15%): Single line diagram (SLD), protection coordination curves (time-current characteristics) showing selective tripping between ACB/MCCB/MCB, voltage drop calculation table, short circuit current analysis (Isc at each level), load schedule summary, power factor correction diagram.

SPECIFICATIONS: System voltage: 400V/230V 3-phase 4-wire 50Hz, Prospective short circuit: 50kA at MDB, Main breaker: ACB 4000A 65kA, Transformer: 2000 kVA dry-type (AN/AF), Power factor target: 0.95 lagging, Maximum voltage drop: 4% total (1% transformer + 3% cables), Earthing: TN-S system, IP rating: IP54 for panels.

COLOR PALETTE: Phase L1 brown (#795548), Phase L2 black (#212121), Phase L3 grey (#616161), Neutral blue (#1565C0), Earth green-yellow (#76FF03 with #FFD600 stripe), copper busbars warm copper (#B87333), arc flash warning orange (#FF6D00), panel enclosure RAL 7035 light grey (#C0C0C0), danger labels red (#D50000), cable insulation black XLPE (#1A1A1A), background technical grid (#ECEFF1).

LIGHTING: High-contrast industrial lighting with strong key light revealing busbar connections and breaker internals. Electric arc blue glow effect on ACB contacts. Warm copper reflections on busbars. Warning label illumination. Subtle electrical spark effect at demonstration contact point.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Electrolytic copper busbars with machining marks, silver-plated contacts with micro-texture, thermoset plastic breaker housings, sheet steel enclosure with powder coat, XLPE cable insulation with embossed markings, DIN rail zinc-plated steel, glass-reinforced polyester for terminal blocks.

Professional engineering grid background. IEC 61439 and NEC compliance. All text perfectly legible. Aspect ratio 9:16.

المثال 4: نظام الصرف الصحي والتهوية (Sanitary Drainage and Vent System)

النظام: Gravity Drainage DWV System | المعيار: IPC / UPC | التطبيق: المباني السكنية والتجارية

Photorealistic cinematic industrial engineering infographic of a complete Sanitary Drainage, Waste, and Vent (DWV) System for a multi-story building. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (lower-left 30%): Main building drain and sewer connection showing: 6-inch cast iron soil stack transitioning to 8-inch underground PVC sewer pipe, cleanout fitting (CO) with brass plug at base of stack, building trap (running trap) with fresh air inlet, backwater valve (swing check type) preventing sewer backup, connection to municipal sewer main. Grease interceptor for kitchen waste: 2-compartment precast concrete showing inlet baffle, grease retention zone, outlet baffle, sampling manhole with cast iron frame and cover.

VERTICAL STACKS (center 30%): Soil stack (6-inch cast iron hubless with stainless steel no-hub couplings) running full building height. Waste stack (4-inch) for lavatory and non-toilet fixtures. Vent stack (4-inch) extending through roof with flashing and rain cap. Stack base fittings: long-sweep 90-degree bend (not short-turn). Branch connections using combination wye and 1/8 bend fittings (never tee-wye on horizontal to vertical). Pipe pitch shown: 1/4 inch per foot (2%) on horizontal branches, clearly visible slope direction.

FIXTURE CONNECTIONS (upper-right 25%): Exploded P-trap cutaway (1-1/2 inch chrome brass) showing: inlet from fixture tailpiece, trap seal depth 2-4 inches of water, trap weir, outlet to trap arm. Water closet connection: 4-inch closet bend with wax ring seal to closet flange, bolted to floor. Lavatory: 1-1/4 inch waste with pop-up assembly. Kitchen sink: 1-1/2 inch with garbage disposer connection and dishwasher air gap. Floor drain: 3-inch with cast iron body, adjustable strainer, trap primer connection. Shower drain: 2-inch linear drain with waterproofing membrane integration.

VENT SYSTEM DETAIL: Individual vents (re-vents) connecting each fixture trap to vent stack. Circuit vent for battery of fixtures (multiple lavatories). Wet vent arrangement showing dual-purpose pipe carrying both waste and vent. Air Admittance Valve (AAV/Studor vent) cutaway showing: one-way diaphragm mechanism, open position during negative pressure, sealed position preventing sewer gas escape. Vent through roof (VTR) detail with lead flashing boot.

PIPE MATERIALS COMPARISON: Cast iron (hubless) with no-hub coupling exploded view showing: stainless steel shield, neoprene gasket sleeve, worm-gear clamps. PVC DWV (Schedule 40) with solvent-weld joint showing primer and cement layers. CPVC for chemical waste. Copper DWV (Type DWV) for exposed locations.

DATA PANELS (bottom-right 15%): Drainage fixture unit (DFU) loading table per IPC, pipe sizing chart (DFU vs pipe diameter), slope requirements table, vent sizing table (developed length vs DFU), isometric plumbing riser diagram, typical bathroom group layout plan.

FLOW VISUALIZATION: Gravity flow shown with animated water (blue-grey gradient) flowing downward in stacks. Air circulation in vent system shown with light green arrows. Sewer gas blockage by trap seal shown with brown gas stopped at water barrier. Proper vs improper slope comparison (self-scouring velocity 2 fps minimum).

SPECIFICATIONS: Soil stack: 6-inch cast iron no-hub, Waste stack: 4-inch cast iron, Vent stack: 4-inch PVC DWV, Horizontal branch slope: 1/4″/ft (2%), Building drain slope: 1/8″/ft minimum for 6″ and larger, Trap seal: 2-4 inches water depth, Test pressure: 10 ft head of water (4.3 PSI) for 15 minutes, Cleanout spacing: every 100 ft horizontal run.

COLOR PALETTE: Soil/waste pipes dark grey cast iron (#4A4A4A), PVC white (#E0E0E0), vent pipes light green (#81C784), waste water blue-grey (#607D8B), sewer gas brown (#795548), trap seal water blue (#42A5F5), copper pipe warm copper (#B87333), grease yellow-brown (#F9A825), fresh water supply blue (#1976D2) for reference, background light cream (#FFF8E1).

LIGHTING: Warm residential lighting with cutaway building section. Underground section darker with spotlight on sewer connection. Cross-section lighting revealing pipe interiors and water flow. Realistic water surface reflections in trap seals.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Grey cast iron with slight surface roughness, white PVC with printing marks, chrome-plated brass trap with water droplets, concrete grease trap with aggregate texture, vitreous china fixtures, stainless steel strainers, lead roof flashing with patina.

Professional engineering grid background. IPC/UPC compliance. All text perfectly legible. Aspect ratio 9:16.

المثال 5: نظام مضخات الحريق (Fire Pump System)

النظام: Electric Motor-Driven Fire Pump | المعيار: NFPA 20 | التطبيق: المباني العالية والمجمعات الصناعية

Photorealistic cinematic industrial engineering infographic of a complete Fire Pump System per NFPA 20. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (center 35%): Horizontal split-case centrifugal fire pump (1000 GPM @ 125 PSI) with detailed cutaway showing: bronze impeller (double-suction type) with vane geometry, wear rings (renewable bronze), mechanical shaft seal with flushing line, 316 stainless steel pump shaft, cast iron volute casing split at horizontal centerline, suction and discharge flanges (6-inch suction, 5-inch discharge), baseplate with vibration isolation pads, coupling guard (OSHA compliant), flexible jaw coupling connecting to electric motor.

ELECTRIC MOTOR (adjacent to pump): 125 HP TEFC (Totally Enclosed Fan Cooled) motor, 460V/3-phase/60Hz, 1780 RPM, premium efficiency (NEMA Premium IE3), motor frame with cooling fins, junction box with power connections, grounding lug.

FIRE PUMP CONTROLLER (left 25%): UL/FM listed controller cabinet with door open showing: main circuit breaker (non-automatic, locked rocker type per NFPA 20), across-the-line starter with contactor (or soft starter/VFD for larger pumps), overload protection (locked out – pump must not stop on overload per NFPA 20), phase reversal protection, phase loss protection, automatic transfer switch for emergency power, pressure transducer input (calibrated 0-200 PSI), pump running/available status LEDs, alarm contacts for remote monitoring, weekly test timer, manual start/stop pushbuttons (red/yellow), emergency mechanical run switch (bypass).

JOCKEY PUMP SYSTEM (right side): Vertical multistage jockey pump (20 GPM @ 150 PSI) with controller showing: pressure maintenance function, automatic start at system pressure drop (5 PSI below churn), automatic stop at system pressure recovery, small controller with pressure switch.

PIPING AND VALVES: Suction side – 8-inch pipe with: OS&Y gate valve (tamper switch supervised), eccentric reducer (flat on top to prevent air pocket), suction pressure gauge (0-100 PSI compound), test header connection. Discharge side – 6-inch pipe with: check valve (center-guided silent type), OS&Y gate valve (supervised), discharge pressure gauge (0-300 PSI), relief valve set at 125% of rated pressure, discharge cone with flow straightener. Test header: 4-inch with hose valves and Pitot tube flow measurement connection. Bypass line with metering orifice.

PERFORMANCE DATA (bottom 15%): Pump performance curve showing: flow (0-1500 GPM) vs head (0-175 PSI) with rated point, shutoff head (140% max per NFPA 20), overload point at 150% flow, driver power curve, NPSH required curve. System demand curve overlay. Weekly test log format. Annual flow test record requirements.

SPECIFICATIONS: Pump type: Horizontal split-case centrifugal, Rated capacity: 1000 GPM at 125 PSI (net), Shutoff pressure: not exceeding 140% of rated (175 PSI max), Overload: 150% of rated flow (1500 GPM) at not less than 65% of rated pressure (81 PSI), Motor: 125 HP, 460V/3Ph/60Hz, NEMA Premium, Power supply: Dedicated circuit from utility (or generator with ATS), Jockey pump: 20 GPM @ 150 PSI.

COLOR PALETTE: Fire pump red (#CC0000) for pump casing and critical piping, motor dark grey (#37474F), controller cabinet grey (#78909C), bronze impeller (#CD7F32), stainless shaft (#C0C0C0), copper motor windings (#B87333), yellow caution labels (#FFD600), green power-on LED (#00E676), red alarm LED (#FF1744), pipe identification red bands, background fire station grey (#ECEFF1).

LIGHTING: Dramatic fire station lighting with strong overhead key light. Red emergency accent lighting. Spotlight on pump cutaway revealing impeller detail. Warm highlights on bronze and copper components. Motor cooling fan motion blur effect.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Cast iron pump casing with machined flanges, bronze impeller with casting marks, polished stainless steel shaft, heavy-gauge steel controller enclosure, copper motor laminations visible at cutaway, rubber vibration isolators with compression, brass pressure gauges with glycerin fill.

Professional engineering grid background. NFPA 20 and UL/FM compliance stamps. All text perfectly legible. Aspect ratio 9:16.

المثال 6: نظام تهوية وتكييف بمجاري الهواء (HVAC Air Distribution – Ductwork System)

النظام: VAV Air Distribution System | المعيار: ASHRAE / SMACNA | التطبيق: المباني التجارية والمكتبية

Photorealistic cinematic industrial engineering infographic of a complete Variable Air Volume (VAV) HVAC Ductwork and Air Distribution System. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (left 30%): Air Handling Unit (AHU) detailed cutaway showing all sections: Outdoor air intake louver with bird screen and motorized damper. Return air connection with motorized damper. Mixed air plenum with mixing chamber. Pre-filter section: MERV-8 pleated panel filters (2-inch depth). Final filter section: MERV-13 bag filters (12-inch depth). Cooling coil section: 6-row chilled water coil (copper tubes, aluminum fins at 12 FPI), condensate drain pan with trap (P-trap depth = fan static + 1 inch), chilled water control valve (2-way, equal percentage, with actuator). Heating coil section: 2-row hot water coil. Supply fan: backward-curved centrifugal (airfoil blades), direct-drive with VFD motor (25 HP), vibration isolators (spring type with 1-inch static deflection). Discharge plenum with turning vanes. Access doors at each section with observation windows.

DUCTWORK NETWORK (center 35%): Main supply duct: rectangular galvanized steel (48″x24″) reducing progressively. Duct construction: SMACNA pressure class 2″ w.g., 22-gauge galvanized steel with Pittsburgh lock seam, TDC/TDF flanged connections, external duct liner (1-inch fiberglass with foil facing). Branch takeoffs with 45-degree entry fittings (not 90-degree tees). Flexible duct connections to diffusers (6ft maximum length per code). Duct accessories: fire damper (1.5-hour UL 555 rated) at wall penetrations with fusible link (165F), smoke damper (UL 555S) with electric actuator, volume dampers (opposed blade type) for balancing. Duct supports: trapeze hangers with 10ft maximum spacing, seismic bracing at intervals.

VAV BOX DETAIL (upper-right 20%): Single-duct pressure-independent VAV terminal unit exploded view showing: inlet velocity sensor (pitot tube array), modulating damper with electric actuator, DDC controller with room temperature sensor input, hot water reheat coil (2-row), condensate drain pan, acoustically lined casing, inlet size 12-inch round to rectangular outlet 24″x12″. Minimum airflow setting for ventilation (ASHRAE 62.1 compliance).

AIR OUTLETS AND RETURNS: Supply diffusers: 4-way square ceiling diffuser (24″x24″ with adjustable pattern), slot diffuser (1-slot, 4ft length) with linear plaque, round neck adapter. Return air: perforated return air grille (24″x24″, egg-crate core), ducted return with transfer air path. Exploded diffuser showing: outer frame, butterfly damper, air pattern controller, equalizing grid.

AIRFLOW VISUALIZATION: Supply air shown in cool blue gradient flowing through ductwork (55F/13C supply). Return air in warm amber returning at 75F (24C). Temperature gradient from AHU discharge to room. Air velocity indicators: 1500 FPM in main duct, 800 FPM in branches, 500 FPM max at diffuser neck. Coanda effect visualization at ceiling diffuser showing air pattern hugging ceiling.

DATA PANELS (bottom 15%): Ductwork friction loss chart (equal friction method), duct sizing table, fan curve with system resistance curve and operating point, psychrometric chart showing cooling/heating processes, ASHRAE 62.1 ventilation rate calculation, typical duct layout plan view with CFM annotations.

SPECIFICATIONS: Total supply airflow: 15,000 CFM, Fan static pressure: 4.5 inches w.g., Supply air temperature: 55F (13C), Return air temperature: 75F (24C), Outdoor air: 20% minimum (3,000 CFM), Filter efficiency: MERV-8 + MERV-13, Cooling coil: 6-row, 12 FPI, entering 80F DB/67F WB, Motor: 25 HP with VFD, Duct velocity: 1500 FPM main, 800 FPM branch, Duct material: G90 galvanized steel per SMACNA.

COLOR PALETTE: Supply air cool blue (#2196F3), return air warm amber (#FFB74D), outdoor air fresh green (#66BB6A), exhaust air grey (#9E9E9E), galvanized duct silver (#B0BEC5), insulation yellow (#FFF176), fire damper red (#EF5350), ductwork interior dark (#455A64), AHU casing blue-grey (#546E7A), background grid light blue (#E3F2FD).

LIGHTING: Clean commercial lighting with bright key light on AHU cross-section. Cool blue accent on supply air path. Warm amber accent on return path. Subtle air particle visualization in light beams. Interior duct lighting showing construction details.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Galvanized steel with zinc crystal pattern (spangle), fiberglass insulation with foil facing, anodized aluminum diffuser frames, powder-coated steel AHU panels, brass damper bearings, neoprene flexible connector, painted steel fire damper blades.

Professional engineering grid background. ASHRAE and SMACNA compliance. All text perfectly legible. Aspect ratio 9:16.

المثال 7: نظام الاطفاء بالغاز النظيف FM200 (Clean Agent Fire Suppression)

النظام: FM200 (HFC-227ea) Clean Agent System | المعيار: NFPA 2001 | التطبيق: غرف الخوادم ومراكز البيانات

Photorealistic cinematic industrial engineering infographic of a complete FM200 (HFC-227ea) Clean Agent Fire Suppression System for a data center server room. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (left 30%): FM200 agent storage cylinder assembly showing: seamless steel cylinder (180L capacity) painted red (RAL 3000), superpressurized to 360 PSI (25 bar) with nitrogen. Cutaway revealing: liquid FM200 agent (HFC-227ea) at bottom (85% fill), nitrogen pressurization gas at top, internal dip tube for liquid discharge. Cylinder valve assembly exploded view: brass valve body, electric solenoid actuator with manual override lever, safety burst disc (set at 800 PSI), pressure gauge (0-600 PSI) with green band (normal range), nitrogen supervisory pressure switch (low pressure alarm at 300 PSI), flexible discharge hose connecting to manifold, wall bracket with seismic restraint strap.

PIPING AND NOZZLES (center 35%): Manifold header (Schedule 40 steel) collecting from multiple cylinders (shown: 3 cylinder bank with master/slave arrangement). Distribution piping: Schedule 40 seamless steel pipe running to protected room. 360-degree discharge nozzles: stainless steel with precisely calculated orifice sizes for uniform agent distribution. Nozzle exploded view showing: multi-port discharge pattern, orifice plate with engineered hole pattern, deflector cone. Pipe supports with seismic bracing. Pipe penetration through room wall with fire-rated seal (3-hour rating). Check valve at cylinder outlet preventing backflow between cylinders.

DETECTION AND CONTROL (upper-right 20%): Releasing panel (NFPA 72 compliant) with door open showing: dual-zone cross-zoned detection input cards, manual release station (abort/release), timer display (30-second pre-discharge countdown), system status LEDs (armed/trouble/discharge/abort), battery backup (24V sealed lead-acid, 24hr standby), relay outputs for: door closers, damper shutdown, HVAC shutdown, power disconnect. Detection devices: VESDA aspirating smoke detector (very early warning) showing sampling pipe network with capillary tubes, laser detection chamber. Optical smoke detectors (cross-zoned: Zone A and Zone B must both alarm for release). Manual pull stations at exits.

ROOM INTEGRITY (lower section): Protected room showing: sealed walls/ceiling/floor construction, door closer with magnetic hold-open (releases on alarm), door gasket seals, pressure relief vent (prevents over-pressurization during discharge: set at 0.5 inch w.g., sized for peak flow), under-floor plenum sealed, cable penetration fire stops, dampers closed on HVAC ducts. Room integrity fan test (door fan test per NFPA 2001) concept illustration.

DISCHARGE SEQUENCE VISUALIZATION: Timeline showing: T=0 first detector alarm (alert only), T+0 second zone alarm (cross-zone confirmed), pre-discharge warning: horn/strobe activated + 30-second countdown timer displayed + abort capability, T+30 solenoid fires on master cylinder, agent flows through manifold to nozzles, room achieves 7.9% concentration in 10 seconds, agent hold time: 10 minutes minimum.

DATA PANELS (bottom-right 15%): Agent quantity calculation (design concentration 7.9% for Class A fires by volume), room volume calculation, cylinder sizing chart, hydraulic flow calculation for pipe sizing, pressure-time graph showing discharge curve, room integrity test results (retention time vs required hold time), environmental data (ODP=0, GWP=3220, atmospheric lifetime 36 years, NOAEL 9%).

SPECIFICATIONS: Agent: FM200 (HFC-227ea), Design concentration: 7.9% (Class A surface fires), Agent quantity: 0.0472 lbs/ft3 at 70F, Maximum discharge time: 10 seconds, Minimum hold time: 10 minutes, Storage pressure: 360 PSI (25 bar) at 70F, Cylinder capacity: 180L (400 lbs agent), Pre-discharge delay: 30 seconds with abort, Detection: Cross-zoned photoelectric + VESDA.

COLOR PALETTE: Cylinder red (#CC0000), agent gas visualization light green (#C8E6C9) at 40% opacity, piping black steel (#2B2B2B), nozzles stainless (#C0C0C0), releasing panel grey (#78909C), detection devices white (#F5F5F5), abort button yellow (#FFD600), release button red (#D50000), countdown display digital green (#00E676), room walls light grey (#ECEFF1), server racks dark grey (#37474F), warning strobes amber (#FF8F00), background dark blue-grey (#263238).

LIGHTING: Dramatic data center lighting with blue LED ambient from server racks. Red emergency lighting effect during discharge sequence. Spotlight on cylinder cutaway. Agent discharge visualization with volumetric fog effect. Green laser beam from VESDA detector. Status LED glow on releasing panel.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Painted steel cylinder with serial number stencil, brass valve with machined surfaces, stainless steel nozzles with mirror polish, Schedule 40 pipe with weld marks, server rack perforated steel doors, raised floor tiles with pedestals, acoustic ceiling tiles, fire-rated gypsum walls.

Professional engineering grid background. NFPA 2001, UL 2166, FM 5600 compliance stamps. All text perfectly legible. Aspect ratio 9:16.

المثال 8: نظام UPS ومصدر الطاقة غير المنقطع (Uninterruptible Power Supply)

النظام: Double-Conversion Online UPS | المعيار: IEC 62040 / NFPA 111 | التطبيق: مراكز البيانات والمستشفيات

Photorealistic cinematic industrial engineering infographic of a complete Double-Conversion Online UPS System with battery backup for a critical facility. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (center 35%): UPS Module (500 kVA) cabinet with side panel removed showing internal power path: AC INPUT stage – EMI filter, SCR-based rectifier/charger converting AC to DC (3-phase 400V AC to 600V DC bus), DC BUS with capacitor bank (electrolytic capacitors showing internal foil windings), IGBT-based inverter converting DC back to clean AC (PWM switching at 20kHz), output transformer (isolation), static bypass switch (SCR-based, <4ms transfer time), manual maintenance bypass switch (make-before-break), output filter (LC filter removing harmonics). Control electronics: DSP controller board, LCD touchscreen display showing: input/output voltage waveforms, load percentage bar graph (75% loaded), battery charge status, efficiency reading (96.5%), event log. Cooling: internal fans with N+1 redundancy, air filters, temperature sensors.

BATTERY SYSTEM (left 25%): VRLA (Valve-Regulated Lead-Acid) battery cabinet showing: 40 blocks of 12V 100Ah batteries in series string (480V DC nominal), battery monitoring system (BMS) with individual block voltage and temperature sensing, battery disconnect breaker (DC rated), hydrogen detection sensor, battery room ventilation calculation (ASHRAE per NFPA 1), battery cable sizing (2/0 AWG with proper torque on terminals), mid-point grounding with ground fault detection. Exploded battery block showing: lead-calcium grid plates, AGM (Absorbed Glass Mat) separator, flame-arrestor vent, terminal posts with torque spec.

POWER FLOW DIAGRAM (upper section): Normal mode: Utility AC to Rectifier to DC Bus to Inverter to Critical Load (100% conditioned power). Battery mode: Battery to DC Bus to Inverter to Critical Load (seamless transfer, zero break). Bypass mode: Utility AC through Static Bypass directly to Load (<4ms transfer). Maintenance mode: Manual bypass feeds load while UPS is de-energized for service. Each mode shown with active path highlighted in bright green and inactive paths dimmed.

INPUT/OUTPUT CONNECTIONS (right 20%): Input panel: 3-phase + neutral + ground, input circuit breaker (800A, 65kA), surge protection (SPD Type 1), power quality meter. Output panel: 3-phase + neutral + ground, output circuit breaker to PDU (Power Distribution Unit), downstream PDUs with monitoring. Generator interface: showing ATS (Automatic Transfer Switch) connection, generator compatibility (voltage/frequency acceptance window +/-15% / +/-5%).

MONITORING AND COMMUNICATION: SNMP network card for remote monitoring, Modbus RTU/TCP interface for BMS integration, dry contact relay board (8 programmable contacts for: UPS on battery, low battery, overload, bypass active, general alarm, fan fail, over-temperature, summary alarm), USB and RS-232 serial ports, cloud-based monitoring platform dashboard mockup.

DATA PANELS (bottom 15%): Power topology diagram (double-conversion online), battery autonomy curve (runtime vs load percentage: 15 min at 100%, 30 min at 50%), efficiency curve (93% at 25% load to 96.5% at 75% load), harmonic distortion comparison (input THDi <5% with active front end), output voltage waveform (pure sinewave, THDv <1%), system one-line diagram with ATS and generator.

SPECIFICATIONS: Topology: Double-conversion online (VFI per IEC 62040-3), Rated capacity: 500 kVA / 450 kW (PF=0.9), Input: 400V 3-phase 50Hz (+/-15% voltage, +/-5% freq), Output: 400V 3-phase 50Hz (+/-1% voltage regulation), THDv: less than 1% linear load, Efficiency: 96.5% at 75% load (double-conversion mode), 99% in ECO mode, Transfer time: 0ms normal to battery (online topology), less than 4ms to bypass, Battery: VRLA AGM, 480V string, 15 min at full load, Overload: 125% for 10 minutes, 150% for 1 minute.

COLOR PALETTE: UPS cabinet dark grey (#37474F), AC power paths electric blue (#2962FF), DC bus paths amber (#FF8F00), battery circuit deep red (#B71C1C), bypass path green (#00C853), active power flow bright green (#76FF03), capacitors silver-blue (#78909C), IGBT modules black (#212121), PCB green (#1B5E20), copper busbars (#B87333), battery blocks dark grey (#424242) with red/black terminals, LCD display blue (#0D47A1) with white text, status LEDs (green/amber/red), background (#ECEFF1).

LIGHTING: High-tech data center lighting with cool blue LED ambient. PCB illuminated with green accent. Active power path glowing in bright green. Battery section with warm amber accent. LCD screen glow. IGBT heatsink thermal shimmer effect. Dramatic spotlight on UPS internal power conversion stages.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Sheet steel enclosure with textured powder coat, electrolytic capacitor aluminum cans with shrink-wrap labels, IGBT power modules with ceramic substrates, copper busbars with tin plating, PCB with SMD components and solder joints visible, battery ABS case with molded-in markings, silicone thermal interface on heatsinks, braided copper ground straps.

Professional engineering grid background. IEC 62040, UL 1778, NFPA 111 compliance stamps. All text perfectly legible. Aspect ratio 9:16.

المثال 9: نظام تسخين المياه المركزي بالطاقة الشمسية (Solar Water Heating System)

النظام: Solar Thermal Domestic Hot Water System | المعيار: ASHRAE 90.2 / SRCC OG-300 | التطبيق: المباني السكنية والفنادق

Photorealistic cinematic industrial engineering infographic of a complete Solar Thermal Domestic Hot Water System with backup heating. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (upper-left 30%): Flat plate solar collector cutaway showing all layers: tempered low-iron glass cover (4mm, 92% solar transmittance), air gap (25mm) for insulation, selective absorber plate (copper sheet with titanium-nitride-oxide selective coating, absorptivity 95%, emissivity 5%), copper riser tubes (12mm OD) brazed to absorber plate at 100mm spacing, copper header pipes (22mm) at top and bottom, rockwool insulation (50mm) below absorber, aluminum back plate, anodized aluminum frame with EPDM gaskets, mounting brackets for roof installation (tilt angle 30 degrees facing south). Collector array: 6 panels in 2 parallel banks of 3 series-connected collectors. Total gross area: 15 m2.

STORAGE TANK (center-right 25%): Vertical solar storage tank (500L) cutaway showing: inner tank (316L stainless steel, 2mm thick), outer casing (powder-coated steel), polyurethane foam insulation (50mm, R-16), lower solar heat exchanger coil (copper finned tube, 3 m2 surface area) connected to solar loop, upper backup heat exchanger coil connected to gas boiler, magnesium anode rod for corrosion protection, temperature sensors at 4 levels (T1 bottom to T4 top), cold water inlet with dip tube (bottom feed), hot water outlet (top), pressure/temperature relief valve (set at 99C/6 bar), drain valve at bottom. Thermosiphon flow pattern shown with arrows: cold water enters bottom, heated water rises to top (stratification layers visible in temperature gradient: 40C bottom to 65C top).

SOLAR LOOP (left to center 25%): Closed-loop pressurized glycol circuit showing: circulation pump (bronze body, 3-speed), expansion vessel (18L diaphragm type, pre-charge 1.5 bar), air separator/deaerator, pressure gauge (0-6 bar), safety relief valve (6 bar), fill/drain valves, glycol concentration: 40% propylene glycol (-20C frost protection), check valve preventing thermosiphon at night, flow meter (2-10 LPM range), insulated copper pipes (22mm with 19mm Armaflex UV-resistant outdoor grade).

CONTROL SYSTEM: Solar differential controller showing: sensor inputs (collector sensor T-coll, tank bottom sensor T-tank), pump activation logic (delta-T on: Tcoll – Ttank > 8C, delta-T off: Tcoll – Ttank < 3C), high-limit protection (tank top > 90C = pump off), frost protection (Tcoll < 3C = pump on briefly), LCD display showing temperatures and pump status, data logging with daily/monthly solar gain kWh.

BACKUP HEATING: Condensing gas water heater (50 kW) connected to upper tank coil, thermostat set at 60C (Legionella prevention), priority to solar with gas backup only when solar insufficient. Anti-scald thermostatic mixing valve at outlet (set at 50C delivery temperature).

DOMESTIC HOT WATER DISTRIBUTION: Hot water recirculation loop with bronze pump (timer-controlled), balancing valves at branch connections, pipe insulation (13mm Armaflex on all hot water pipes), expansion vessel on cold supply, pressure reducing valve, check valve and water meter.

DATA PANELS (bottom 15%): Solar fraction chart (monthly: 90% summer, 30% winter, 60% annual average), collector efficiency curve (efficiency vs delta-T/irradiance), daily solar radiation data for location (5.5 kWh/m2/day annual average), system schematic P&ID, energy savings calculation (annual: 8,500 kWh solar gain, 1,200 m3 gas saved), payback period graph, collector tilt angle optimization chart.

SPECIFICATIONS: Collector type: Flat plate, selective coating, Collector area: 15 m2 gross (13.5 m2 aperture), Storage volume: 500 liters (ratio: 37 L/m2), Solar loop fluid: 40% propylene glycol, Solar loop pressure: 2.5 bar operating, Design flow rate: 0.8 L/min per m2 collector (10.8 LPM total), Collector tilt: 30 degrees (latitude optimized), Backup: 50 kW condensing gas boiler, Hot water delivery: 50C at tap (60C in tank for Legionella), Daily hot water demand: 500 liters at 50C.

COLOR PALETTE: Solar collector copper (#B87333), absorber dark blue-black (#1A237E), glass cover light blue tint (#E3F2FD at 20% opacity), glycol fluid warm orange (#FF6D00), hot water red-orange gradient (#F44336 hot to #FF9800 warm), cold water blue (#2196F3), tank insulation cream (#FFF8E1), copper pipes warm (#B87333), insulation black (#263238), solar rays golden yellow (#FFD600), gas flame blue (#42A5F5), background sky blue gradient (#E1F5FE to #BBDEFB).

LIGHTING: Warm sunlight from upper-right simulating solar irradiance on collectors. Golden hour lighting quality with long shadows. Glass cover showing realistic Fresnel reflections of sky. Warm glow from heated water in tank cross-section. Blue gas flame in backup heater. Outdoor/rooftop environment lighting.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. Tempered glass with slight green tint and reflections, copper absorber with selective coating (dark blue-black iridescent), brazed copper tube joints, anodized aluminum collector frame, stainless steel tank interior with weld lines, polyurethane foam cross-section showing cell structure, EPDM rubber gaskets, brass valve bodies with chrome handles.

Professional engineering grid background. ASHRAE 90.2, SRCC OG-300, ISO 9806 compliance stamps. All text perfectly legible. Aspect ratio 9:16.

المثال 10: نظام التحكم DDC وادارة المبنى الذكي (BMS/DDC Building Automation)

النظام: DDC Building Management System | المعيار: ASHRAE 135 (BACnet) | التطبيق: المباني الذكية ومراكز البيانات

Photorealistic cinematic industrial engineering infographic of a complete DDC Building Management System (BMS) with BACnet integration. Ultra-precise technical cutaway rendering in isometric exploded view with crystal-clear annotations.

HERO ELEMENT (center 30%): Central BMS Server and Head-End Workstation showing: server rack (42U) with BMS application server, historian database server, web server for remote access, managed Ethernet switch (Layer 3 with VLAN support), UPS for BMS network, fiber optic patch panel. Operator workstation with dual 27-inch monitors displaying: floor plan with live equipment status (color-coded: green=normal, yellow=alarm, red=critical), trend graphs of zone temperatures, chiller plant optimization dashboard, energy consumption pie charts, alarm management queue. Software architecture diagram showing: BACnet/IP backbone network, integration with other protocols (Modbus, LON, KNX, DALI lighting).

DDC CONTROLLER DETAIL (left 25%): Building-level controller (BLC) and Application-Specific Controller (ASC) exploded views showing: main processor board (32-bit ARM with Linux RTOS), BACnet/IP Ethernet port (RJ-45), BACnet MS/TP trunk port (RS-485), universal input terminals (UI: 0-10V, 4-20mA, thermistor 10k type III, dry contact, pulse counter), analog output terminals (AO: 0-10V for valve/damper actuators), binary output terminals (BO: relay contacts for fan start/stop, 24VAC/DC switching), 24VAC power supply transformer, DIN-rail mounting, removable terminal blocks with screw terminals, battery backup for real-time clock and program memory, status LEDs (power, communication, I/O status).

FIELD DEVICES (upper-right 25%): Sensors exploded cutaway views: Room temperature sensor (10k Type III NTC thermistor in ABS housing with setpoint adjustment slider), Duct temperature sensor (averaging type: 6m capillary with multiple sensing elements), Humidity sensor (capacitive polymer element, 0-100% RH, 2% accuracy), CO2 sensor (NDIR infrared, 0-2000ppm for demand-controlled ventilation), Differential pressure transmitter (for filter status and duct static pressure, 0-5 inch w.g.). Actuators: Modulating valve actuator (0-10V input, spring-return fail-safe, 90-second stroke time, mounted on 2-way globe valve), Damper actuator (24VAC, direct-coupled, 35 in-lb torque, spring-return), Variable Frequency Drive interface (BACnet MS/TP communication, speed command, status feedback). Smart room controller/thermostat with occupancy sensor, LCD display, and BACnet integration.

NETWORK ARCHITECTURE (spanning middle): Three-tier BMS network clearly illustrated: Level 1 (Management Level): BACnet/IP over Ethernet (1 Gbps fiber backbone between buildings), head-end servers and workstations, web-based remote access. Level 2 (Automation Level): BACnet/IP controllers on building LAN, each controller managing a mechanical system (AHU, chiller plant, boiler, lighting). Level 3 (Field Level): BACnet MS/TP (RS-485, 76.8 kbps) daisy-chain trunk connecting field controllers and smart sensors/actuators, maximum 127 devices per trunk, trunk length max 1200m with repeaters. Protocol gateway devices for: Modbus RTU (metering, VFDs, generators), KNX (lighting and blinds), DALI (individual luminaire control), OPC-UA (IT system integration).

SYSTEM INTEGRATION POINTS: Chiller plant optimization (sequencing, reset schedules), AHU control sequence (economizer, supply air temperature reset, duct static pressure reset), VAV zone control (occupied/unoccupied modes, optimal start/stop), Lighting control integration (daylight harvesting, scheduling, occupancy), Fire alarm system interface (HVAC shutdown on fire alarm, smoke control), Elevator monitoring, Electrical metering (kW, kWh, PF per floor/tenant), Water metering, Security system status.

DATA PANELS (bottom 15%): BACnet network topology diagram, control sequence flowchart (AHU typical), PID loop tuning parameters display, energy dashboard (kWh/m2/year benchmarking vs ASHRAE 100), alarm priority matrix (Critical/High/Medium/Low with response times), trend log examples (24-hour zone temperature with setpoint overlay), points schedule summary (total: 5000 points – 2000 AI, 1500 BI, 800 AO, 700 BO).

SPECIFICATIONS: Protocol: BACnet/IP (ISO 16484-5) and BACnet MS/TP, Network: Ethernet 1Gbps backbone with managed switches, Controllers: 32-bit ARM processors with Linux RTOS, I/O capacity: 32 universal inputs + 16 AO + 16 BO per controller, Sensor accuracy: Temperature +/-0.2C, Humidity +/-2% RH, CO2 +/-50ppm, Trending: 1-minute minimum interval with 1-year historian storage, Alarming: email/SMS/push notification with escalation, Web access: HTML5 responsive dashboard (no plugins required), Cybersecurity: TLS 1.3 encryption, role-based access control, VLAN isolation.

COLOR PALETTE: BACnet/IP network blue (#1565C0), BACnet MS/TP network teal (#00838F), Modbus orange (#E65100), KNX green (#2E7D32), normal status green (#4CAF50), alarm status amber (#FF9800), critical alarm red (#F44336), controller PCB green (#1B5E20), sensor housings white (#F5F5F5), actuators grey (#78909C), cable blue (#1976D2) for data and orange (#E64A19) for power, server rack black (#212121), monitor display dark blue (#0D47A1), background dark tech grey (#263238) with subtle circuit board pattern.

LIGHTING: High-tech control room lighting with monitor glow. Blue LED accent on network switches and controllers. Status LED glow effects (green/amber/red). PCB illuminated showing component detail. Server rack with blue LED strips. Holographic-style network connection lines between devices. Futuristic smart building ambiance.

MATERIAL RENDERING: Ultra-realistic PBR at 8K. FR4 PCB with copper traces and solder mask, ABS sensor housings with matte texture, die-cast aluminum actuator bodies, RJ-45 connectors with gold-plated contacts, fiber optic cables with illuminated cores, DIN rail zinc-plated steel, LCD displays with pixel grid visible at close range, braided cable management with velcro ties, anti-static raised floor tiles.

Professional engineering grid background. ASHRAE 135, ISO 16484, BACnet Testing Labs (BTL) certification stamps. All text perfectly legible. Aspect ratio 9:16.

    كيف تستخدم هذه الامثلة:

    ١. انسخ البرومبت المطلوب كاملا

    ٢. الصقه في اداة توليد الصور المفضلة لديك (Midjourney, DALL-E, Ideogram)

    ٣. لـ Midjourney اضف في النهاية: --ar 9:16 --v 6.1 --style raw --q 2

    ٤. اذا كان البرومبت طويلا جدا لاداة معينة، يمكنك ارسال ملف JSON الاصلي لـ Claude وطلب اختصاره مع الحفاظ على العناصر الاساسية

    ٥. عدل المواصفات والارقام حسب المشروع الفعلي الذي تعمل عليه

ابدا الآن!

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