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Continuous increase of greenhouse gas emission intensifies global warming and climate change. Since 2007, the Drainage Services Department (DSD) has been a member of the Inter-departmental Working Group on Climate Change, set up by the Environment Bureau for formulating policies and measures to reduce greenhouse gas emissions and combat climate change. In support of “Hong Kong’s Climate Action Plan 2030+” (“Action Plan”) published by the Government in 2017 that encourages extensive use of renewable energy (RE), DSD has actively implemented energy-saving initiatives and deployed additional resources in promoting and adopting renewable energy technologies on a wider and larger scale in its existing and new facilities to reduce carbon emissions and protect the environment for achieving sustainable development. The renewable energy systems generate electricity and heat for the facilities in DSD’s plants. To help with building a cleaner and more sustainable environment, DSD will continue with the efforts to adopt various technologies, to harness renewable energy, including solar power, hydropower and biogas.
At present, RE installations in DSD’s plants generate over 28 million kilowatt-hours of electricity per annum, constituting around 9% of DSD’s annual energy demand. In terms of efficiency, DSD’s current annual RE contribution is equivalent to the energy consumption of 5,600 households and can reduce about 19,600 tonnes of carbon dioxide (CO2) emission a year.
In addition, DSD obtained a capital funding of $248 million in total for 12 major renewable energy projects in 2017–18 and 2018–19 to generate a total of 6 million kilowatt-hours of electricity a year. These projects are under construction. Besides, DSD has been optimising the operation of various sewage treatment works (STWs) and sewage pumping stations (SPSs), including replacement of ageing equipment with more efficient energy saving units. The items being replaced include the plants’ air blowers, lighting systems, pumps, and screens. With these RE projects and energy saving initiatives, DSD has set an electricity saving target of 4% by 2024-25, with respect to the baseline electricity consumption of about 315 million kilowatt-hours in 2018-19. DSD is striving to achieve this target.
Over the years, DSD has endeavoured to utilise the open space in STWs and SPSs to install photovoltaic (PV) system. As at end March 2019, DSD has installed PV panels at 15 STWs and 13 SPSs to harness solar energy by maximising the use of the plants’ space. The major plants include Sha Tin STW, Yuen Long STW, Shek Wu Hui STW and Stonecutters Island STW. Notably, the Solar Farm at Siu Ho Wan STW commissioned at the end of 2016, comprises over 4,200 units of polycrystalline PV panels which can generate as much as 1.1 million kilowatt-hours of electricity annual, making it the largest PV system among the Hong Kong SAR Government facilities at present. In 2018-19, the total PV system of DSD is generating about 1.12 million kilowatt-hours of electricity.
After the commission of the Harbour Area Treatment Scheme Stage 2A, DSD installed a hydro-turbine system which utilises hydraulic energy from the flow of sewage to move the turbine and generate electricity for in-house use at Stonecutters Island STW. It is a completely automated operation, regulating the generator speed according to the daily sewage flow rate in order to enhance its operating efficiency. The system commissioned in October 2018, with a design capacity of 23 kilowatts, it is expected to generate up to 120,000 kilowatt-hours of electricity a year. The system does not only save electricity costs, but also make good use of hydropower to reduce carbon emissions. In light of the high efficiency of this project, we plan on installing a second hydro-turbine system at Stonecutters Island STW.
Sludge, a byproduct of sewage treatment process, produces biogas during anaerobic digestion. Biogas is a form of renewable energy which contains 65% methane (the remaining components mainly being CO2). DSD utilises combined heat and power (CHP) generators and gas-turbines that run on biogas to generate electricity and heat for in-house use. In 2018-19, the total electricity generation capacity of five CHP generators at Sha Tin STW, Tai Po STW and Shek Wu Hui STW is about 3.6 megawatts, while two gas-turbines at Sha Tin STW and Yuen Long STW have a total electrical generating capacity of 280 kilowatts. This year, the total energy generated by biogas at our STWs amounted to about 27 million kilowatt-hours.
The 2016 Policy Address announced that a co-digestion trial scheme will be conducted at Tai Po STW from 2019 onwards, treating 50 tonnes of food waste and sludge everyday. The trial scheme includes the construction of a food waste pre-treatment plant with a treatment capacity of 50 tonnes, located at the Shuen Wan Leachate Pre-treatment Works, adjacent to Tai Po STW and an operation trial scheme. The co-digestion trial scheme is collaboratively run by the DSD and EPD.
Under the trial scheme, EPD’s engineering works include construction of a food waste pre-treatment plant. Here, food waste is pre-treated to remove impurities before being mashed and turned into food pulp. DSD’s engineering works include modification of a digester designated to receive food waste. The modification works include replacement of the sludge mixer in the digester with a new mixer that is suitable for blending the sludge and food waste, which have a higher solids content, homogeneously. The trial scheme started in September 2019. During operation, EPD is responsible for collecting, delivering, pre-treating and pumping food waste to the designated anaerobic digester at Tai Po STW, while DSD is responsible for the operation of the digester and utilisation of biogas to generate heat and electricity for STWs’ use.
FDSD’s modification works for the designated digester under the trial scheme took only 12 months. With the food waste pre-treatment plant and STWs adjacent to each other, the trial scheme attains the benefits of co-location and co-treatment. Whether microorganisms in the digester can effectively degrade organic solids, depends on the nutrient balance in the digester. Compared with mono-digestion, co-digestion can enhance the degradation efficiency, hence decreasing solids content and boosting biogas yield. In Hong Kong, digested sludge will be dewatered and transported to T • Park to be used as fuel in the incineration process. Heat generated during the process will be recovered and converted into electricity. In this process, the dewatered digestate will become ash, meaning it volume will decrease by 90%. Consequently, precious landfill space can be saved.
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