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Hong Kong skeleton energy
Pushing the Boundaries of Modular -Integrated Construction: A
⋅ A pilot MiC study in Hong Kong produced 5 selected Pareto optima out of 625. ⋅ Up to 0.42% energy savings and 9.71% spatial daylight autonomy improvement against the baseline.
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Energyland
To explain the energy scene of Hong Kong, we first look at two major aggregate energy indicators: the "Primary Energy Requirements" [1] (the equivalent of "Total Primary Energy Supply (TPS)" of other economies) and the "Final Energy Requirements" [1] (the equivalent of "Total Final Energy Consumption (TFC)" of other economies).
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碳骨架支持的原子催化剂上 C1 途径在 CO2 还原中的空间和能量分
碳骨架支持的原子催化剂上 C1 途径在 CO2 还原中的空间和能量分割纠缠(Adv. Energy Mater. 14/2022) Advanced Energy Materials ( IF 27.8) Pub Date : 2022-04-14, DOI:
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Pushing the boundaries of modular-integrated
A case study of MiC residential building in Hong Kong demonstrated the SSG-MOO method through five new passive MiC designs (i.e., spatial reorganization of three
More
Pushing the Boundaries of Modular-Integrated
A case study of MiC residential building in Hong Kong demonstrated the SSG-MOO method through five new passive MiC designs (i.e., spatial reorganization of three
More
HKU Scholars Hub: Pushing the boundaries of modular-integrated
This paper proposes a Symmetric Skeleton Grammar-based Multi-Objective Optimization (SSG-MOO) method to formulate parametric MiC envelopes and detailed layout, with the two objective functions being energy efficiency and interior daylight performance in the operational phase.
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HKU Scholars Hub: Pushing the boundaries of modular-integrated
This paper proposes a Symmetric Skeleton Grammar-based Multi-Objective Optimization (SSG-MOO) method to formulate parametric MiC envelopes and detailed layout, with the two
More
Entanglement of Spatial and Energy Segmentation for C
Entanglement of Spatial and Energy Segmentation for C 1 Pathways in CO 2 Reduction on Carbon Skeleton Supported Atomic Catalysts. Advanced Energy Materials. 2022 Feb 20. doi:
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Experimental investigation of major rocks in Hong Kong as
In this study, we examine the potential of fifteen rock types found in Hong Kong to serve as environmentally friendly and cost-effective materials for solid sensible thermal
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Pushing the boundaries of modular-integrated
A case study of MiC residential building in Hong Kong demonstrated the SSG-MOO method through five new passive MiC designs (i.e., spatial reorganization of three architectural modules, and parameter tuning of the envelops and corridors), achieving up to 0.42% energy savings and 9.71% spatial daylight autonomy improvement compared to the
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Experimental investigation of major rocks in Hong Kong as
In this study, we examine the potential of fifteen rock types found in Hong Kong to serve as environmentally friendly and cost-effective materials for solid sensible thermal energy storage systems. Thermo-physical and mechanical properties of the selected Hong Kong rocks were analyzed, alongside their chemical and structural compositions.
More
Pushing the boundaries of modular-integrated
This paper presents a symmetric skeleton grammar to handle the constrained MiC designs and MOO to cope with the exponential combinations of various modules for
More
Pushing the boundaries of modular-integrated
This paper presents a symmetric skeleton grammar to handle the constrained MiC designs and MOO to cope with the exponential combinations of various modules for energy efficiency and daylight autonomy in the operational phase. A pilot MiC project was studied in Hong Kong to evaluate the proposed method.
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碳骨架支持的原子催化剂上 C1 途径在 CO2 还原中的空间和能量分割纠缠(Adv. Energy
碳骨架支持的原子催化剂上 C1 途径在 CO2 还原中的空间和能量分割纠缠(Adv. Energy Mater. 14/2022) Advanced Energy Materials ( IF 27.8) Pub Date : 2022-04-14, DOI: 10.1002/aenm.202270057
More
Energyland
To explain the energy scene of Hong Kong, we first look at two major aggregate energy indicators: the "Primary Energy Requirements" [1] (the equivalent of "Total Primary Energy Supply (TPS)" of other economies) and the "Final Energy
More
Entanglement of Spatial and Energy Segmentation for C
Entanglement of Spatial and Energy Segmentation for C 1 Pathways in CO 2 Reduction on Carbon Skeleton Supported Atomic Catalysts. Advanced Energy Materials. 2022 Feb 20. doi: 10.1002/aenm.202103781
More
Pushing the Boundaries of Modular-Integrated
A case study of MiC residential building in Hong Kong demonstrated the SSG-MOO method through five new passive MiC designs (i.e., spatial reorganization of three architectural modules, and
MoreFAQs 6
Why do we need energy in Hong Kong?
Of course, we require energy to provide mobility for every one of us - railway, trams, cars, aeroplanes. However, there are no indigenous energy resources in Hong Kong, we have to derive energy supplies almost entirely from external sources.
Is symmetric skeleton grammar-based multi-objective optimization effective for energy-efficient mic designs?
In the literature, multi-objective optimization (MOO) is often adopted to guide designers in generating optimal passive design with complex objectives . This paper proposes a symmetric skeleton grammar-based Multi-objective Optimization (SSG-MOO), a computer-aided passive design method, for energy-efficient MiC designs.
How is fer calculated in Hong Kong?
In the case of Hong Kong, it is calculated from retained imports of coal and oil products as well as electricity, net of bunkers' usage, after adjustment for supply from stock. "Final energy requirements" (FER) refers to the amount of energy consumed by final users for all energy purposes such as heating, cooking and driving machinery.
What is the fuel mix for electricity generation in Hong Kong?
In the overall fuel mix for electricity generation in Hong Kong, natural gas dominates the fuel mix in Hong Kong, in 2020 on set-out basis, at around 48%, followed by nuclear energy and renewable energy accounted for around 28% and coal for around 24% .
Should Hong Kong be energy efficient in a subtropical climate?
Therefore, for Hong Kong in a subtropical climate, the energy-efficient MiC designs (with a due north orientation) should increase the ratio of windows on the north side of the building and design the axis of the horizontal corridor towards the southern part of the core, as well as reduce the concavity of the northern boundary.
What is the geology of Hong Kong?
2.1. Sample preparation The geology of Hong Kong is predominantly characterized by igneous rocks, encompassing both granitic and volcanic formations, which originated during a significant volcanic eruption period in the Mesozoic era.