The Characteristics of Supply and Demand of District Cooling Using Wasted Heat 2016. 6. 8 TZU-LUNG, TAN KDHC District Cooling Team
Contents 1. The concept of district cooling(dc) ` 2. Korean market and policies for DC 3. The effect of reducing greenhouse gas of the DC 4. The role of the DC as reduce greenhouse gas - 2 -
Because of global warming and rising incomes, the demand of cooling is expected to consistently increase Change of Global trend A change of average global temperature (from 1901 to 2012) Demand of cooling increases! - 3 -
District cooling(dc) is massive centralized production of cooling energy then delivers to consumers through the pipeline network DC Conceptual Diagram hot water Supply (95 ~98 ) The method to supply hot water Absorption Chiller Return (maximum 13 ) Heat generation plant (or Chilled water generation plant) Supply (3.5 ) chilled water Cooling Heat Exchanger Customers The method to supply chilled water directly Heat Generation Facilities Waste incinerators, Waste Heat from CHP, Renewables, Aquifers, Rivers - 4 -
In Korea, DC has contributed to peak load reduction, and can also save primary energy as well as CO2 emission. Benefits of DC in Korea (based on KDHC business model) Improve energy efficiency (using wasted heat) Incinerator Combined Heat and Power plant Reduce greenhouse gas emission - 5 -
One DC plant supplies whole consumers with cooling load, that makes consumers don t need individual air-conditioners. Benefits of DC for consumers DC Plant District Cooling Supply Consumers (Residential) Consumers (Commercial) Generation Transmission Consumption - 6 -
DC market in Korea has been rapidly expanding recent 10 years. DC consumers have increased 127% and DC capacity has tripled in size from 2005. Status (As of 2014) 615,075 usrt to 925 buildings Tendency (2005 ~ 2014) average annual growth rate of 13.5% Number of Buildings 1000 900 800 700 600 500 400 300 200 100 0 407 432 458 492 521 555 333,722 313,613 289,974 250,349 218,731 198,889 630 697 461,369 413,602 810 540,773 925 615,075 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 Buildings Chillers Capacity 531 355,903 usrt 700,000 600,000 500,000 400,000 300,000 200,000 100,000 0 usrt KDHC Occupies 57% of DC Market usrt : U.S Ton of Refrigeration 1usRT = 3,024kcal/h - 7 -
KDHC Sangam DC plant has been supplying district cooling to 35 consumers with capacity of 150Gcal/h since 2006. Sangam Digital Media City(DMC) (Chilled water direct supply) Facilities Capacity(Gcal/h) Status Absorption Chiller 48.6 Supplying chilled water Turbo-Refrigerator 63.5 directly to 35 Buildings Ice Storage System 38.1 Total 150.1-8 -
Saved more than 25,000 tco 2 e through using wasted heat 46,990Gcal from incinerator over the last 5 years in Sangam DMC Used Wasted heat and saved CO 2 (unit : Gcal, tco2e) 2011 2012 2013 2014 2015 Total Wasted heat 9,022 6,820 7,666 12,377 11,105 46,990 Saved CO 2 4,826 3,648 4,100 6,620 5,940 25,134 Performance of CO 2 saving (tco2e) 8000 6000 4000 2000 0 2011 2012 2013 2014 2015-9 -
Obstructive factor of DC : Lack of understanding, Tough estimation of equipment facilities due to difficult demand forecasting, Initial investment cost, Underground construction of pipeline network Supply status of Sangam DMC Underground construction Of pipeline network - 10 -
Korea government supports DC market in various fields : Designation of district energy area by the law, Subsidies to DC consumers. Government Supporting system for DC In designated area, if gross floor area is over 3,000 m2 or Capacity of refrigerator is over 300Mcal/h, consumers should use DC. Government subsidies for DC has increased rapidly since 2013, And also Subsidies per usrt has doubled in size from 2011. Budget (Million USD) Subsidies per usrt(usd) 3.5 3 73 70 80 70 2.5 2 1.5 1 0.5 46 46 48 1.6 1.6 2.5 3.3 3.3 60 50 40 30 20 10 0 2011 2012 2013 2014 2015 0 Budget Subsidies per usrt - 11 -
Most Asian countries have good conditions to introduce DC, because of high temperatures, And many opportunities of new town construction due to the increase in urbanization rate. The Urbanization rate of Asia countries KDHC s plan in Philippine KDHC is under investigation of DC business model using a waste-to-energy in Clark, Philippine. <Annual average temperature> Korea 13.6 Indonesia 26.5 Malaysia 26.5 Thailand 28.1 Vietnam 27.0 Philippine 27.7 Equipment capacity Investment cost (Cost of refrigerator) Area 20MW + 45Gcal/h 300Million USD 42Million USD Texas Instrument, PSPC (semiconductor factory) - 12 -
In conclusion, Cooling is not just luxury, but utility to survive the heat wave. District Cooling is an effective way to reduce Greenhouse gases and improve the quality of life. Korea uses DC for energy conservation and reduction of GH gases. And also Korea government implements the Mandatory use policy and Subsidies. Introducing DC to your Countries may helpful for your national prestige and global environment. Performance of CO 2 saving (tco2e) 8000 6000 4000 2000 0 2011 2012 2013 2014 2015-13 -
Thank You TZU-LUNG, TAN KDHC District Cooling Team tanz@kdhc.co.kr - 14 -