Energy Efficient Chiller System
完璧な温度制御ソリューションについては、今すぐお問い合わせください。
With the continuous development and advancement of industrial technology, modern industry’s demand for temperature control is becoming higher and higher. In this context, energy efficient chiller system, as an important industrial equipment, has gradually become an indispensable part of many industries. With its unique refrigeration system and water circulation system, the chiller plays an important role in high-precision temperature control and energy saving.
Features of energy efficient chiller system
1. Independent refrigeration system ensures high-precision temperature control
Energy efficient chiller systems have independent cooling systems, which means they are not disturbed by outside temperatures and environmental influences. This design ensures that the chiller can stably provide the required cooling effect under different working environments. For example, in some production processes that require precise temperature control, small deviations in temperature may lead to a decline in product quality or even production accidents. The chiller ensures the stability of the production process and the consistency of product quality through its high-precision temperature control.
2. Efficient energy utilization reduces production costs
The chiller uses advanced refrigeration technology in the refrigeration process to improve energy efficiency. Compared with traditional cooling equipment, chillers use less energy for the same cooling effect. This not only helps reduce the company’s production costs, but also reduces the negative impact of energy consumption on the environment. High-efficiency energy use also means that enterprises can obtain more considerable energy-saving benefits in long-term operations, thereby enhancing competitiveness.
3. Independent water circulation system saves water resources
Traditional cooling systems usually require a large amount of water for circulation of cooling medium, while energy efficient chiller systems use independent water circulation systems. This design can not only greatly reduce water consumption, but also avoid possible contamination problems caused by the contact of the cooling medium with the external environment. As water resources become increasingly scarce, the water-saving characteristics of chillers are more in line with the requirements of sustainable development.
4. Widely used in multiple industries
The superior performance of energy efficient chiller system makes it widely used in many industries. For example, in fields such as plastic processing, food production, and pharmaceutical manufacturing, the requirements for temperature control are very strict. The chiller provides stable technical support for production in these fields through its high-precision temperature control. In addition, in high-tech fields such as laser cutting and semiconductor manufacturing, chillers also play a key role in ensuring the normal operation of equipment and product quality.
5. Technological innovation drives industry development
With the continuous advancement of science and technology, energy efficient chiller system is also constantly innovating in refrigeration technology. The application of new materials, intelligent control systems and improvements in energy efficiency all provide the possibility for performance optimization and functional expansion of chillers. These technological innovations not only promote the development of the chiller industry, but also bring more opportunities and possibilities to other related industries.
As an important piece of equipment in modern industry, energy efficient chiller system has significant advantages in high-precision temperature control and energy saving with its independent refrigeration system and water circulation system. Their widespread application has promoted the development of multiple industries, while also evolving in technological innovation. With future technological breakthroughs and changing industrial needs, chillers are expected to show better performance in more fields and contribute more to industrial development and sustainable progress.
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循環式チラー / 冷凍サーキュレーター
(カスタムデザイン)
チラーは様々な産業や研究所で広く使用することができ、カスタマイズされた設計をサポートしています。
温度範囲 | -25°C ~ +30°Cシリーズ | -45°C ~ +30°Cシリーズ | -60°C ~ -20°Cシリーズ | -80°C ~ -20°Cシリーズ | -120°C ~ -70°Cシリーズ | ||||
冷却能力 | 0.8 ~ 30kW | 0.75 ~ 12kW | 0.4 ~ 6kW | 0.2 ~ 6kW | 0.3 ~ 5kW | ||||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |
ウォーター・チラー/小型チラー
(カスタムデザイン)
チラーは様々な産業や研究所で広く使用することができ、カスタマイズされた設計をサポートしています。
温度範囲 | -18°C ~ +30°C | +5°C ~ +35°Cシリーズ | |||||||
冷却能力 | 0.35 ~ 0.9kW | 1.8~50kW | |||||||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |
低温チラー
(カスタムデザイン)
当社は、-150℃の温度制御範囲を持つ低温冷凍機の生産を専門としており、さまざまな業界の冷凍ニーズを満たすことができます。
温度範囲 | -25°C ~ -5°Cシリーズ | -45°C ~ -10°Cシリーズ | -60°C ~ -10°Cシリーズ | -80°C ~ -30°Cシリーズ | -110°C ~ -50°Cシリーズ | -150℃〜-110℃シリーズ | |||
冷却能力 | 12~360kW | 6~180kW | 6~180kW | 4〜180kW | 2~120kW | 2.5 ~ 11kW | |||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |
冷暖房用チラー
(カスタムデザイン)
温度制御範囲:-120°C~+350°C
用途各種リアクター(マイクロチャンネル、ガラス、ジャケット付きリアクターなど)、蒸留または抽出システム、研究室、大学、研究所、航空宇宙、自動車産業、半導体および電気テスト、化学、製薬、石油化学、生化学、医療、病院、研究開発ワークショップ、航空宇宙、生物学およびその他の産業。
温度範囲 | -10 ~ +150℃シリーズ | -25 ~ +200℃シリーズ | -25 ~ +300℃シリーズ | -45 ~ +250°C シリーズ | -45 ~ +300℃シリーズ | -60 ~ +250°C シリーズ | -60 ~ +300℃シリーズ | -70 ~ +250°C シリーズ | -80 ~ +250°C シリーズ | -90 ~ +250°C シリーズ | -100 ~ +100℃シリーズ | ||
冷却能力 | 1.5 ~ 15kW | 1~200kW | 1~200kW | 0.45~200kW | 0.9 ~ 25kW | 0.25 ~ 60kW | 0.75 ~ 25kW | 0.4 ~ 15kW | 0.3 ~ 80kW | 0.2 ~ 80kW | 0.45 ~ 80kW | ||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |
循環式ヒーター・チラー
(カスタムデザイン)
温度制御範囲:-45℃~+250
用途各種リアクター(マイクロチャンネル、ガラス、ジャケット付きリアクターなど)、蒸留または抽出システム、研究室、大学、研究所、航空宇宙、化学、製薬、石油化学、生化学、医療、病院、研究開発ワークショップ、航空宇宙、生物学、その他の産業。
温度範囲 | -25°C ~ +200°Cシリーズ | -45°C ~ +250°C シリーズ | |||||||
冷却能力 | 1 ~ 15kW | 0.25 ~ 15kW | |||||||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |