District Cooling Market Research
District Cooling (DC) is the centralized production and distribution of cooling energy. The output of one plant can meet cooling-demands of dozens of buildings. It’s important because centralized production of cooling energy is:
- More environmentally friendly
- More cost-effective
- A price competitive alternative
- Reliable and convenient for the customer
- Space efficient
District Cooling Systems (DCS)
- Distributes thermal energy in the form of chilled water from a central source to buildings through underground pipes.
- Three primary components:
- Central plant
- Distribution network
- Consumer system
- District Cooling Systems may include:
- Cooling equipment
- Power generation
- Thermal storage
市場潛力
A possible chain of events ….
- Increased use of fossil fuels (e.g. electricity production)
- Then, an increase in greenhouse gas emissions
- Then, Global warming
- Then, a need for new systems
Market Potential Issues
- GCC Urbanization Patterns
- Significant Real Estate development
- High demand for air conditioning
- 氣候
- Hot and Humid
- Permanent need for cooling
- Need for stable and reliable solution
- Energy Considerations
- Power constraints/shortages
- Need for energy efficient solutions
Key Technologies in District Cooling
- Reciprocating Engines
- All types of power generation (small portable Gensets to larger industrial engines)
- Spark ignition engines use natural gas as preferred fuel
- Can be set up to run on propane or gasoline
- Gas Turbines
- Established technology in many sizes (kilowatts to megawatts)
- Produce high-quality heat to generate steam for on-site use
- Can burn natural gas, petroleum fuels, or have a dual-fuel configuration
- Steam Turbines
- Convert steam energy into shaft power
- Capacity can range from fractional horsepower to several hundred MW
- Does not directly convert a fuel to electric energy (requires a source of high-pressure steam)
- Micro Turbines
- Very small combustion turbines
- Offered in a size range of 30kW to 250 kW
- In the early stages of market entry
- Fuel Cells
- Produce power electrochemically, similar to a battery
- Use hydrogen fuel that is delivered to a cathode and oxygen in air that is delivered to a node
- Modular and capable of application in small commercial or residential markets
- Also operates at high temperatures in larger sized systems
- Absorption Chillers
- Commercialized thermally activated technology
- The most common working fluids are water/NH3 and LiBr/water
- Can be divided into single-effect, double-effect, or triple-effect
- Novel, environmentally friendly, and effective way of using low-grade heat sources
- Four phases:
- Heating-pressurization
- Isobaric condensation
- Cooling-depressurization
- Isobaric adsorption
- Desiccant dehumidifiers
- Can work in concert with sorption chillers or conventional air-conditioning systems
- Two types:
- Solid desiccant dehumidifiers
- Liquid desiccant dehumidifiers
- Thermal energy storage (TES)
- Stores heat from cooling loads during high load or ‘on-peak’ periods
- Then, removes heat from storage and rejects it to the ambient environment during low-load or ‘off-peak’ periods
- Can use latent heat storage or sensible heat storage
About District Cooling Market Research
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