Power grid-friendly control method and system for data center cooling system

The invention claimed is: 1. A power grid-friendly control method for a data center cooling system, comprising: dividing an equipment room into a plurality of pieces of subspace in advance, with a plurality of servers and a cooling device comprised in each piece of subspace; obtaining total power consumption of the servers in each piece of subspace; performing priority sorting on the total power consumption of the servers in each piece of subspace based on a principle that lower total power consumption of the servers leads to a higher priority of turning off the cooling device; and obtaining a real-time power supply energy consumption value of a power grid; determining, based on the real-time power supply energy consumption value of the power grid, whether an energy supply is sufficient; when the energy supply is sufficient, skipping turning off the cooling device in the subspace; and when the energy supply is not sufficient, turning off a cooling device in corresponding subspace based on a priority sorting result, till it is determined that the energy supply is sufficient; wherein the obtaining a real-time power supply energy consumption value of a power grid; determining, based on the real-time power supply energy consumption value of the power grid, whether an energy supply is sufficient; when the energy supply is sufficient, skipping turning off the cooling device in the subspace; and when the energy supply is not sufficient, turning off a cooling device in corresponding subspace based on a priority sorting result, till it is determined that the energy supply is sufficient, comprises: obtaining a real-time supply voltage V reduced of the power grid and a preset supply voltage V standard in the case of normal power supply; when the real-time supply voltage V reduced of the power grid is not less than the preset supply voltage V standard in the case of normal power supply, skipping turning off the cooling device in the voltage subspace; or when the real-time supply voltage V reduced of the power grid is less than the preset supply voltage V standard in the case of normal power supply, calculating a power consumption reduction value voltage ΔP reduce according to the following formula: Δ ⁢ P reduce = ( 1 - V reduced V s ⁢ tandard ) * P s ⁢ tandard wherein P standard represents total power in the case of normal power supply; and determining, based on the power consumption reduction value ΔP reduce , the obtained total power consumption of the servers in each piece of subspace, and the priority sorting result, the cooling device that needs to be turned off in the subspace. 2. The power grid-friendly control method for a data center cooling system according to claim 1 , wherein the dividing an equipment room into a plurality of pieces of subspace in advance, with a plurality of servers and a cooling device comprised in each piece of subspace, comprises: dividing the equipment room into the plurality of pieces of subspace, dividing each piece of subspace into a plurality of pieces of server space by a position of the cooling device as a center, and adding the servers to different server space. 3. The power grid-friendly control method for a data center cooling system according to claim 1 , wherein the determining, based on the power consumption reduction value ΔP reduce , the obtained total power consumption of the servers in each piece of subspace, and the priority sorting result, the cooling device that needs to be turned off in the subspace comprises: if the priority sorting result is expressed as follows: L all =[P air conditioner_1 ,P air conditioner_2 . . . P air conditioner_N ] selecting k pieces of subspace in descending order of priorities in the priority sorting result, wherein the k pieces of subspace are as follows: L k =[P air conditioner_1 ,P air conditioner_2 . . . P air conditioner_k ]; the following conditions are met: ∑ i = 1 k P air ⁢ conditioner_i ≥ Δ ⁢ P reduce , and ⁢ ∑ i = 1 k - 1 P air ⁢ conditioner_i < Δ ⁢ P reduce ; P air conditioner_n represents total power consumption of servers in subspace corresponding to an n th level, n=1, 2, . . . , N, and N represents a level corresponding to a cooling device that is turned off last; and ∑ i = 1 k P air ⁢ conditioner_ ⁢ i represents a sum of total power consumption of servers in the k pieces of subspace, and ∑ i = 1