Warrior Queen's Dragon Symphon | image created by TheScorpik

$A beautiful warrior in a bikini leather armor with a mask around the waist, standing on the battlefield, clutching a large rune sword in her hand. In the distance her huge red-black dragon flies to her aid - its powerful flight muscles anchored to an enhanced breastbone, specialized hollow bones allowing its massive size, with distinctive overlapping scales covering its serpentine body. The dragon's specialized biological flame system consists of three components: a hydrogen-rich fuel gland, a platinum-based catalyst chamber, and a pressurized ignition cavity. When breathing fire, the dragon first releases hydrogen-rich fuel through specialized ducts, where it mixes with catalysts causing rapid decomposition. This mixture is then compressed in the ignition chamber until it reaches critical pressure and temperature, creating a superheated plasma state. The dragon's specialized throat muscles and ridged flame channels direct the fire in precise patterns - the main jet of flame erupts as a concentrated stream that can reach up to 100 feet, while secondary nozzles along the sides of its mouth create spiraling vortexes of fire that wrap around the main blast. The flames emerge in pulsating waves, each surge creating a distinct pressure cone visible in the superheated air. The fire splits into multiple braided streams that intertwine and separate, forming an ever-shifting web of destruction. At the edges of the flame streams, the extreme temperature differential creates miniature fire tornados that spin off from the main jets. The intense heat ionizes the air, causing crackling arcs of electricity to dance between the flame streams. The fire varies in color from white-hot core to blue-purple edges, with occasional green flashes from mineral content in the fuel. She stands in a lush valley filled with wildflowers and ancient stone monoliths, streams of clear water flowing between grassy meadows and scattered clusters of towering pine trees. The valley floor is carpeted with purple heather and white mountain flowers swaying in the breeze. In the background, huge craggy mountains rise majestically into the clouds, their snow-capped peaks glowing in the golden sunlight.,FIRE & FLAME EFFECTS: Photorealistic flames with visible heat distortion and plasma-like internal movement Multi-layered color gradient from white-hot core (2000°K) to deep crimson edges Dynamic flame tendrils with microscopic ember particles Volumetric lighting with accurate light scatter through smoke particles Real-world fire behavior with turbulent flow patterns and vortices Heat shimmer effect distorting the air around flames Physically accurate flame thickness and opacity SMOKE CHARACTERISTICS: Dense,volumetric smoke with varying opacity levels Multiple layers of turbulent flow with visible eddy currents Particle density variation from thick near source to wispy at edges Dynamic smoke movement with realistic air current interaction Color range from deep charcoal gray to light silver-gray wisps Visible particulate matter catching light within smoke columns Accurate dissipation patterns and atmospheric mixing EXPLOSION DYNAMICS: Initial fireball with intense white-hot core Rapid expansion wave with visible pressure distortion Multiple stages of explosion development Mushroom cloud formation with proper fluid dynamics Secondary shock waves with air displacement effects Heat-driven updraft creating vertical smoke columns Debris and particle systems within blast radius FIRE BREATHING SPECIFICS: Concentrated stream of atomized fuel particles Visible fuel droplets catching light within flame High-pressure projection physics Core temperature variation visible in flame coloration Realistic spread pattern as distance increases Interaction with surrounding air currents Proper fuel combustion characteristics ATMOSPHERIC & LIGHTING: God rays through smoke and particulate matter Realistic light bounce and ambient occlusion Temperature-based color shifts Atmospheric perspective on distant smoke Proper shadow casting from dense smoke Light refraction through heat distortion Environmental interaction with wind currents TECHNICAL DETAILS: Ultra-high resolution rendering (8K+) Photorealistic physical materials Ray-traced lighting and shadows Volumetric scattering simulation High-detail particle systems Realistic motion blur effects Physical-based rendering (PBR) materials COLOR SPECIFICATIONS: Flame core: #FFFFFF (white hot) Inner flame: #FFA500 (intense orange) Outer flame: #FF4500 (deep orange-red) Ember particles: #FF2400 (scarlet) Dense smoke: #1A1A1A (deep charcoal) Mid smoke: #4D4D4D (medium gray) Light smoke: #A9A9A9 (light gray)$

TheScorpik

Published: Nov 4, 2024 9:24 PM

Warrior Queen's Dragon Symphony

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Models

FLUX.1 - dev-fp8

7.9M

936

CHECKPOINT

WarriorPrincess_FLUX_LoRA - v3.12

396

LORA

Realistic fire effect Dragon - 2024-11-01 22:46:30

LORA

Prompt

A beautiful warrior in a bikini leather armor with a mask around the waist, standing on the battlefield, clutching a large rune sword in her hand. In the distance her huge red-black dragon flies to her aid - its powerful flight muscles anchored to an enhanced breastbone, specialized hollow bones allowing its massive size, with distinctive overlapping scales covering its serpentine body. The dragon's specialized biological flame system consists of three components: a hydrogen-rich fuel gland, a platinum-based catalyst chamber, and a pressurized ignition cavity. When breathing fire, the dragon first releases hydrogen-rich fuel through specialized ducts, where it mixes with catalysts causing rapid decomposition. This mixture is then compressed in the ignition chamber until it reaches critical pressure and temperature, creating a superheated plasma state. The dragon's specialized throat muscles and ridged flame channels direct the fire in precise patterns - the main jet of flame erupts as a concentrated stream that can reach up to 100 feet, while secondary nozzles along the sides of its mouth create spiraling vortexes of fire that wrap around the main blast. The flames emerge in pulsating waves, each surge creating a distinct pressure cone visible in the superheated air. The fire splits into multiple braided streams that intertwine and separate, forming an ever-shifting web of destruction. At the edges of the flame streams, the extreme temperature differential creates miniature fire tornados that spin off from the main jets. The intense heat ionizes the air, causing crackling arcs of electricity to dance between the flame streams. The fire varies in color from white-hot core to blue-purple edges, with occasional green flashes from mineral content in the fuel. She stands in a lush valley filled with wildflowers and ancient stone monoliths, streams of clear water flowing between grassy meadows and scattered clusters of towering pine trees. The valley floor is carpeted with purple heather and white mountain flowers swaying in the breeze. In the background, huge craggy mountains rise majestically into the clouds, their snow-capped peaks glowing in the golden sunlight.,FIRE & FLAME EFFECTS: Photorealistic flames with visible heat distortion and plasma-like internal movement Multi-layered color gradient from white-hot core (2000°K) to deep crimson edges Dynamic flame tendrils with microscopic ember particles Volumetric lighting with accurate light scatter through smoke particles Real-world fire behavior with turbulent flow patterns and vortices Heat shimmer effect distorting the air around flames Physically accurate flame thickness and opacity SMOKE CHARACTERISTICS: Dense,volumetric smoke with varying opacity levels Multiple layers of turbulent flow with visible eddy currents Particle density variation from thick near source to wispy at edges Dynamic smoke movement with realistic air current interaction Color range from deep charcoal gray to light silver-gray wisps Visible particulate matter catching light within smoke columns Accurate dissipation patterns and atmospheric mixing EXPLOSION DYNAMICS: Initial fireball with intense white-hot core Rapid expansion wave with visible pressure distortion Multiple stages of explosion development Mushroom cloud formation with proper fluid dynamics Secondary shock waves with air displacement effects Heat-driven updraft creating vertical smoke columns Debris and particle systems within blast radius FIRE BREATHING SPECIFICS: Concentrated stream of atomized fuel particles Visible fuel droplets catching light within flame High-pressure projection physics Core temperature variation visible in flame coloration Realistic spread pattern as distance increases Interaction with surrounding air currents Proper fuel combustion characteristics ATMOSPHERIC & LIGHTING: God rays through smoke and particulate matter Realistic light bounce and ambient occlusion Temperature-based color shifts Atmospheric perspective on distant smoke Proper shadow casting from dense smoke Light refraction through heat distortion Environmental interaction with wind currents TECHNICAL DETAILS: Ultra-high resolution rendering (8K+) Photorealistic physical materials Ray-traced lighting and shadows Volumetric scattering simulation High-detail particle systems Realistic motion blur effects Physical-based rendering (PBR) materials COLOR SPECIFICATIONS: Flame core: #FFFFFF (white hot) Inner flame: #FFA500 (intense orange) Outer flame: #FF4500 (deep orange-red) Ember particles: #FF2400 (scarlet) Dense smoke: #1A1A1A (deep charcoal) Mid smoke: #4D4D4D (medium gray) Light smoke: #A9A9A9 (light gray)

Negative Prompt

cartoon, anime, illustration, painting, drawing, 3d render, low quality, blurry, artificial, unrealistic flames, bad smoke effects

Sampler

Euler

Steps

CFG Scale

Seed

1438693526

Clip Skip

Size

1152x768