Understanding 500-Liter Water Chillers A 500-liter water chiller is a refrigeration system designed to cool water (or water-glycol mixtures) for industrial, commercial, or laboratory use. These chillers maintain precise temperatures, making them ideal for:
Plastic molding
Beverage cooling
Medical/lab equipment
HVAC supplemental cooling
Price Breakdown by Chiller Type A. Portable Water Chillers Price: $1,500–$4,000
Features: Compact, plug-and-play operation, limited to 1–5 kW cooling capacity.
Best For: Small businesses, restaurants, or temporary setups.
B. Industrial Water Chillers Price: $5,000–$10,000
Features: Higher durability, 5–20 kW capacity, often with advanced controls.
Best For: Factories, large-scale processes, or precision cooling.
C. Air-Cooled vs. Water-Cooled Air-cooled: $1,500–$6,000 (easier installation, lower efficiency).
Brand reputation: Premium brands (like S&A or Lneya) cost 15–30% more.
D. Additional Features Digital controls: +$300–$1,000.
Multi-stage compressors: +$1,000–$3,000 for better load management.
Hidden Costs to Consider Installation: $200–$1,000 (piping, electrical work).
Maintenance: Annual costs of $100–$500 for filter cleaning, refrigerant top-ups.
Energy consumption: Calculate long-term costs using local electricity rates.
Where to Buy Direct from manufacturers: For customization and warranty support.
Industrial suppliers: Offer volume discounts for bulk orders.
Online marketplaces: Compare prices on Alibaba, Amazon, or eBay (verify seller ratings).
Cost-Saving Tips Opt for air-cooled chillers if water scarcity is an issue.
Choose scroll compressors (quieter, more efficient) over piston types.
Consider used/refurbished units (30–50% cheaper) for non-critical applications.
Alternatives to Buying Leasing: $100–$300/month for short-term needs.
Rental: ~$50–$200/day for event or emergency cooling.
Future-Proofing Your Purchase Select R-290 or R-513A refrigerants to comply with environmental regulations.
Ensure compatibility with smart HVAC systems for IoT integration.
Conclusion The price of a 500-liter water chiller varies widely based on capacity, efficiency, and build quality. Portable units suit small businesses, while industrial chillers meet heavy-duty demands. Prioritize energy-efficient models to reduce operating costs, and always account for installation and maintenance expenses. For tailored recommendations, consult a refrigeration specialist with your specific cooling load and temperature requirements.
Coefficient of Performance (COP) is a crucial metric for evaluating the efficiency of water - cooled chillers. This article provides a comprehensive exploration of water - cooled chiller COP. It begins by introducing the basic concepts of water - cooled chillers and the definition of COP, explaining how COP measures the cooling output relative to the energy input. The article then delves into the structure and working principles of water - cooled chillers, analyzing in detail the factors that influence COP, such as condenser performance, evaporator conditions, refrigerant type, and load characteristics. Real - world applications in commercial buildings, industrial processes, and data centers are presented, along with methods for optimizing COP to enhance energy efficiency. Additionally, future trends in improving the COP of water - cooled chillers are discussed, offering a complete understanding for engineers, facility managers, and energy enthusiasts.
Industrial water cooler manufacturers play a pivotal role in providing cooling solutions for various sectors, including manufacturing, chemicals, and HVAC systems. This article discusses the key players in the global market, the types of industrial water coolers they produce, and their applications. It also covers the market trends, technological advancements, and the competitive landscape within the industry. The article aims to offer a comprehensive overview of the industrial water cooler manufacturing sector, highlighting the importance of these manufacturers in global temperature control solutions.
Single fluid heating and cooling systems utilize a single medium to efficiently manage temperature control in various industrial processes. These systems offer precise temperature regulation, energy efficiency, and reduced complexity compared to multi-fluid systems. They are designed to provide both heating and cooling capabilities, making them suitable for a wide range of applications, from data centers to industrial processes. This article delves into the advantages, applications, and technical aspects of single fluid heating and cooling systems, highlighting their significance in modern temperature control solutions.
Small portable chillers are compact, mobile cooling devices designed to provide efficient cooling solutions in various settings. This article offers an in - depth look at these units. It first defines their characteristics, such as small size, light weight, and easy mobility. The working principles, often based on thermoelectric or mini - vapor - compression systems, are explained. Different types, including benchtop and backpack - style chillers, are introduced. Their applications span from laboratory experiments and medical fieldwork to outdoor activities like camping. Maintenance aspects, like cleaning, component checks, and refrigerant management (if applicable), are covered. Guidance on choosing the right small portable chiller, considering factors like cooling capacity, portability features, and power source options, is also provided.
Industrial Chiller Heater Equipment Supplier-LNEYA
