KR101580170B1 - Method for calculating load of hot water supply of apartment buildings for district heating system - Google Patents

Abstract

The present invention relates to a method for calculating a load of hot water supply of apartment buildings for a district heating system and, more specifically, to a method for calculating a load of hot water supply of apartment buildings for a district heating system, which calculates a load of hot water supply suitable for an actual environment, in order to calculate a load of hot water supply (hot water supply heat exchanger capacity), which is a secondary side user load, for hot water supply in apartment buildings using a district heating system, considering the following factors: a number of residing person per household, a size of surface area of each household, an average hot water usage amount per household, and design safety.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a method for estimating a hot-

The present invention relates to a method for estimating a hot water supply load of a district heating type apartment house, and more particularly, to a method for estimating a hot water supply load of a district heating type apartment house, It is necessary to calculate the hot water supply load including the number of residents, the size factor of the unit generation flat area, the unit generation hot water average use flow factor and the design safety factor, And a method for calculating a load.

Generally, the district heating system differs from the individual heating system in which the user who supplies the collective energy supplies the collective energy through the piping for the heating and the hot water supply to a plurality of individual users, and the user has individual heating facilities .

In other words, district heating does not have individual heating facilities such as houses, shopping malls, offices, schools, hospitals, factories, etc. in a city or a certain area, and a large-scale heat production facility, (80 ~ 120 ℃), which is needed to supply electricity to the customers through the heat transfer pipe.

These district heating systems consist of a heat source facility for generating electricity and heat, a heat transport facility for transporting the produced heat, and a thermal user facility for supplying the heat transported by the heat transport facility to the user.

At the heart of energy management and optimization in district heating is the achievement of minimizing the heat production unit, while meeting the demand for heat. Therefore, the required amount of steam, the supply of heat and surplus heat from nearby district heating, the sale of surplus electricity, and the purchase of scarce electricity should be considered.

This view suggests the need for a demand forecasting system and an energy sales system on the system side.

Korean Patent Registration No. 10-1057430 discloses a method for predicting heat demand of district heating.

The method for predicting the heat demand of the district heating includes the steps of: collecting outdoor temperature and heat supply amount data for a certain period of time; normalizing the collected outdoor temperature and heat supply amount data; And a heat demand prediction model by learning a pattern of a standardized outside air temperature and a heat supply amount in an artificial neural network; The method of claim 1, further comprising the steps of: collecting outdoor temperature and heat supply amount data for each time period of a past predetermined interval close to a reference time; normalizing the collected outdoor temperature and heat supply amount data; And inputting the data of the outdoor air temperature and the heat supply amount for each time period of the predetermined section close to the reference time for predicting the heat supply amount into the established heat demand prediction model and simulating the same; And outputting a predicted value of the heat supply amount of the reference time as a result of the simulation.

Thus, the outside temperature of the reference time is measured, and a measured value of the heat supply amount can be obtained before a predetermined time (for example, one hour before) from the reference time. In addition, predicted values of heat supply for a certain period of the future can be obtained by using the weather forecast data. The heat supply performance can be set as an input variable, and the heat supply performance can also be applied to past heat supply trends.

However, this conventional method of predicting the heat demand of the district heating is a method of estimating the heat demand by collecting the heat supply amount. It is not a method of calculating the heat supply amount, that is, the hot water supply load, In the case of apartment complexes consisting only of small-scale equilibrium or composed of large-scale equilibrium only, the hot-water load not suitable for the actual environment can be calculated and the accurate hot-water load can not be calculated I have a problem.

Korean Patent Registration No. 10-1057430

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and it is an object of the present invention to provide a method for estimating a hot water supply load (hot water heat exchanger capacity) as a secondary user load for supplying hot water to a district heating type apartment house, The present invention provides a method for estimating the hot water supply load of a district heating type apartment house that calculates the hot water supply load suitable for the actual environment by calculating the hot water supply load including the factor of size of the area, the unit generation hot water average use flow factor, There is a purpose.

According to an aspect of the present invention,

)을 결정하는 단위세대 급탕 설계유량 초과사용 확률 결정 단계와; 단위 급탕 기구의 설치 개소(u)와 기구별 급탕 사용 유량(f)을 이용하여 단위 세대 급탕 합산 유량 산정식을 설계하고, 이를 통해 단위 세대 급탕 합산 유량(F_m)을 산정하는 단위 세대 급탕 합산 유량 산정 단계와; 상기 동시 사용 확률(P)을 이용하여 단위세대 급탕 평균 사용유량 산정식을 설계하며, 이를 통해 단위세대 급탕 평균 사용유량(f_m)을 산정하는 단위세대 급탕 평균 사용유량 산정 단계와; 급탕 공급 총 세대의 급탕 부하가 짧은 시간동안 건축설계의 급탕 설계유량을 초과하여 사용될 수 있는 변동성에 대응할 수 있도록 상수인 총 세대 급탕 설계유량 초과사용 확률(

)을 결정하는 총 세대 급탕 설계유량 초과사용 확률 결정 단계와; 급탕 열교환기 용량의 설계 안전율(S)을 결정하는 설계 안전율 결정 단계; 및 상기 단위 세대 급탕 합산 유량(F_m), 단위세대 급탕 평균 사용유량(f_m), 급탕 동시 사용 총인원수(N_fs,N_fl), 총 세대 급탕 설계유량 초과사용 확률(

), 세대수(n), 사용자측 급탕 공급 온도(t_hw), 사용자측 급수 공급 온도(t_cw), 설계 안전율(S)을 이용하여 급탕 부하 산정식을 설계하고, 이를 통해 공동주택 평면 면적별로 급탕 부하(Q_s,Q_l)를 산정하는 급탕 부하 산정 단계로 이루어지는 것을 특징으로 한다.
In the method of estimating the hot water supply load of a district heating type apartment house, an area classification step of dividing the flat house area of the apartment house into a small size, a medium size and a large size in order to calculate the hot water supply load; A supply condition determining step of determining a generation number n, a user hot water supply temperature t _hw , and a user side water supply temperature t _cw according to the apartment house architectural design; The total number of people using the hot water supply simultaneously calculating the total number of people using the hot water supply by the number of households (n), and calculating the total number of people (N _fs , N _fl ) The average number of residents (M _a ) per flat area of the apartment house is calculated through demographic data and site survey, and the number of people using the hot water simultaneously to calculate the number of people using the hot water simultaneously (N _p ) A calculating step; (U _s1 , U _s2 , U _m , and U u ₎ by the total number of hot water supply units per unit household and the number of individual hot water supply equipment, _lt ; th > The simultaneous use equation of the hot water supply equipment is designed by using the number of hot water supply simultaneous use number (N _p ) and the number of simultaneous hot water supply equipment (U _s1 , U _s2 , U _m , U _l ) (P); calculating a probability of simultaneous use; Unit-generation hot water supply designed to cope with volatility that can be used in excess of designed hot water design flow in a building design for a short period of unit household hot water flow

Determining a unit generation hot water design flow rate overuse probability determining step; Unit generation hot water flow rate (F _m ) is calculated by designing the unit generation hot water flow sum calculation formula by using the installation point (u) of the unit hot water supply apparatus and the hot water use flow rate (f) Calculating a flow rate; A unit household hot water average use flow rate calculating step of calculating a unit household hot water hot water average use flow rate calculating formula by using the simultaneous use probability (P) and calculating a unit household hot water average use flow rate (f _m ) Total hot water supply The total household hot water supply design flow rate over time is used so that the hot water supply load of the total household can cope with the volatility that can be used in excess of the designed hot water design flow rate in the architectural design

Determining a total generation hot water design flow rate overuse probability determining step; A design safety factor determining step of determining a design safety factor (S) of the hot water heat exchanger capacity; (F _m ), the unit household hot water average use flow rate (f _m ), the total number of simultaneous use of hot water supply (N _fs , N _fl ), the total generation hot water design flow rate overuse probability

), The number of households (n), the user hot water supply temperature (t _hw ), the user side water supply temperature (t _cw ), and the design safety factor (S) (Q _s , Q _l ).

Here, the flat area of the apartment house is divided into a small size with a heating area of less than 80 square meters, a medium size with a heating area of less than 80 to 100 square meters, and a large heating area of 100 square meters or more.

Here, the total number of people to be used simultaneously in the above-mentioned hot-

, N _fs is the number of simultaneous use of hot water supply according to the number of small apartment houses, N _fl is the number of simultaneous hot water supply according to the number of middle and large apartment houses, and n is the number of households.

Here, in addition to the formula for calculating the number of people using the hot water supply simultaneously,

And M _a is the average number of residents per flat area of apartment house.

Here, the simultaneous use hot water supply apparatus water counting formula,

U _s1 is the number of appliances for applying the concurrent use rate of a small apartment house with one toilet, U _s2 is the number of appliances for applying the concurrent use rate of a small apartment house having two toilets, U _m is the number of appliances a number of mechanisms for concurrent usage applies, U _l is a number of mechanisms for concurrent usage application of a large public housing, u _t is the total number of hot water supply mechanism per unit three, u _laundry is the household washing machine of the hot water supply mechanism, u _shower Is a shower in the hot water supply apparatus.

In this case,

, U is the number of unit hot water supply apparatuses, and is the number of people (N _p ) used simultaneously in the hot water supply.

Here, the equation for estimating the combined unit water flow rate

, U is the unit hot water supply mechanism number, and f is the hot water usage flow rate (l / hr) for each apparatus.

Here, the equation for calculating the average use flow rate of the unit-

는 단위세대 급탕 설계유량 초과사용 확률이고, f는 기구별 급탕 사용 유량(l/hr)이며, P는 동시 사용 확률이다.ego,

, F is the hot water usage flow rate (l / hr), and P is the simultaneous use probability.

Here, the above-mentioned hot water supply load calculation formula is,

)이고, Q_l은 중·대형 공동주택 급탕부하(

)이며, F_m은 단위 세대 급탕 합산 유량(

)이고, f_m은 단위세대 급탕 평균 사용유량(

)이며, N_fs, N_fl은 급탕 동시 사용 총인원수이고, n은 세대수이며, t_hw는 사용자측 급탕 공급 온도(℃)이고, t_cw는 사용자측 급수 공급 온도(℃)이며,

는 총 세대 급탕 설계유량 초과사용 확률이고, S는 설계 안전율이다., Q _s is the small apartment house water supply load (

), And Q _l is the load of heavy /

), F _m is the unit generation hot water addition flow rate (

), F _m is the unit household hot water average use flow rate (

T _hw is the user hot water supply temperature (° C), t _cw is the user side water supply temperature (° C), and N _fs and N _fl are the total number of persons used simultaneously in the hot water supply, n is the number of households,

Is the probability of exceeding the total generation hot water design flow rate, and S is the design safety factor.

According to the method of estimating the hot water supply load of the district heating type apartment house of the present invention having the above configuration, in order to calculate the hot water supply load (hot water heat exchanger capacity) as the secondary user load for hot water supply to the apartment house of the district heating type, It is possible to estimate the hot water load suitable for the actual environment by calculating the hot water load including the number of residents, the size factor of the unit generation plane area, the unit generation hot water average use flow factor, and the design safety factor.

1 is a flowchart illustrating a method of estimating a hot water supply load of a district heating type apartment house according to the present invention.

Hereinafter, a method of calculating a hot water supply load of a district heating type apartment house according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a flowchart illustrating a method of estimating a hot water supply load of a district heating type apartment house according to the present invention.

Referring to FIG. 1, a method for calculating a hot water supply load of a district heating type apartment house according to the present invention includes an area classification step S1, a supply condition determination step S2, a total number of people using simultaneous hot water supply, A simultaneous use probability calculation step S6, a unit generation hot water design flow rate excess probability determination step S7, and a unit generation step S4, (S8), a unit household hot water average use flow rate calculating step (S9), a total household hot water design flow excess use probability calculating step (S10), a design safety rate determining step (S11), and a hot water load calculating step (S12).

&Quot; Area classification step-S1 "

First, in order to estimate the hot water supply load, the flat area of apartment house is divided into small size, medium size and large size. At this time, it is preferable to divide the flat area of the apartment house into smaller ones with a heating area of less than 80 square meters, a medium-sized ones with a heating area of less than 80 to 100 square meters, and a large heating area of 100 square meters or more.

&Quot; Supply condition determination step-S2 "

(N), the user hot water supply temperature (t _hw ), and the user side water supply temperature (t _cw ) are determined according to the apartment house construction design.

"Total number of people using hot water simultaneously" -S3

Next, the total number of people who use the hot water simultaneously by the flat area of the apartment house is designed using the number of households (n), and the total number of people (N _fs , N _fl ) used simultaneously in the hot water supply is calculated.

At this time, the total number of people to be used simultaneously in the hot water supply is expressed by Equation 1 below.

Here, N _fs is the number of simultaneous use of hot water supply according to the number of small apartment houses, and N _fl is middle ■ It is the number of simultaneous hot water supply according to the number of large apartment house households, and n is the number of households.

"Estimation of the number of people using the water heater simultaneously -S4"

Then, by calculating the average number of residents (M _a ) per flat area of the dwelling house by demographic data and field survey, designate the number of simultaneous use of hot water supply, and calculate the number of people using the hot water simultaneously (N _p ).

At this time, the formula for calculating the number of people to be used simultaneously in the hot water supply is expressed by Equation 2 below

Here, M _a is the average number of residents per flat area of apartment house.

"Estimation of the number of simultaneous hot water supply equipment -S5"

The number of simultaneous hot water supply equipment (U _s1 , U _s2 , U _{m) is} calculated for each flat area of apartment house by using the total number of hot water supply units per unit household and the number of individual hot water supply equipment. , U _l ).

At this time, the equation for calculating the number of simultaneous hot water supply equipment is expressed by Equation (3) below.

U _s1 is the number of appliances for applying the concurrent use rate of a small apartment house with one toilet, U _s2 is the number of appliances for applying the concurrent use rate of a small apartment house with two toilets, U _m is the number of appliances U _l is the number of appliances for applying the concurrent usage rate of large apartment units, u _t is the total number of hot water appliances per unit household, u _laundry is the household washing machine in the hot water appliance, u _{The shower} is a _shower in a hot water apparatus.

&Quot; Simultaneous use probability calculation step-S6 "

Then, the simultaneous use probability equation of the hot water supply device is designed by using the number of the hot water supply simultaneous use number (N _p ) and the number of simultaneous hot water supply equipment (U _s1 , U _s2 , U _m , U _l ) And the simultaneous use probability (P) is calculated.

At this time, the simultaneous use probability equation is expressed by Equation (4) below.

Here, U is the number of unit hot water supply apparatuses, and is the number of people (N _p ) used simultaneously in the hot water supply.

"Determination of the probability of exceeding the flow rate of the unit generation hot water design flow -S7"

)을 결정한다. 이때, 급탕 설계유량 초과사용 확률은 공동주택 급탕 사용량을 단지별, 동별, 평면 면적별로 계측하여 추정한 변동성을 반영하여 결정하는 것이 바람직하고, 본 발명에서는 1.15로 결정하였다.
Then, in order to cope with the volatility that can be used in excess of the hot water design flow rate of the building design for a short time, the unit generation hot water supply design flow rate overflow probability

). At this time, it is desirable to determine the probability of exceeding the hot water design flow rate by determining the volatility estimated by measuring the hot water use amount of the apartment house by each apartment, the easement, and the flat area, and it was determined to be 1.15 in the present invention.

"Estimation of combined generation flow of unit-generation hot water -S8"

Next, the unit generation hot water addition flow quantity calculation formula is designed by using the installation location (u) of the unit hot water supply mechanism and the flow rate (f) of hot water usage per appliance, and the unit generation hot water addition flow rate (F _m ) is calculated.

At this time, the equation for calculating the combined generation flow rate of the unit-generation hot water tank is expressed by Equation (5) below.

Here, u is the number of unit hot water apparatuses, and f is the hot water use flow rate (l / hr) per apparatus.

"Estimation of average use flow rate of unit household hot water -S9"

By using the simultaneous use probability (P), the unit usage hot water average use flow rate calculation formula is designed, and the unit usage hot water average use flow rate (f _m ) is calculated.

Here, the equation for calculating the average use flow rate of the unit-generation hot water tank is expressed by the following equation (6).

는 단위세대 급탕 설계유량 초과사용 확률이고, f는 기구별 급탕 사용 유량(l/hr)이며, P는 동시 사용 확률이다.
From here,

, F is the hot water usage flow rate (l / hr), and P is the simultaneous use probability.

"Determination of the probability of exceeding the total generation hot water design flow rate -S10"

)을 결정한다. 본 발명에서는 0.01로 결정하였다.
The total household hot water supply design flow rate over time usage probability (which is a constant, so that the total household hot water supply flow rate can cope with the volatility that can be used over the design flow for a short time

). In the present invention, it was determined to be 0.01.

"Design Safety Factor Determination Step-S11"

The design safety factor (S), which is a constant, is determined so that the total household hot water load can cope with the volatility that can be used in excess of the hot water heat exchanger design capacity for a short time. At this time, the design safety factor is determined based on the volatility estimated by measuring the usage of the apartment house hot water supply by the star, the east, and the flat area, and taking into consideration the hot water supply temperature standard.

"Estimation of hot water supply load-S12"

), 세대수(n), 사용자측 급탕 공급 온도(t_hw), 사용자측 급수 공급 온도(t_cw) 및 단위 세대 급탕 합산 유량(F_m), 총 세대 급탕 설계유량 초과사용 확률(

), 설계 안전율(S)을 이용하여 급탕 부하 산정식을 설계하고, 이를 통해 공동주택 평면 면적별로 급탕 부하(Q_s, Q_l)를 산정한다.(F _m ), the unit household hot water average use flow rate (f _m ), the total number of people using simultaneous hot water supply (N _fs , N _fl ), the unit generation hot water design flow rate exceeding usage probability

), The number of households (n), the user-side hot water supply temperature (t _hw ), the user side water supply temperature (t _cw ) and the unit generation hot water addition flow (F _m )

) And design safety factor (S), and the hot water supply load (Q _s , Q _l ) is calculated by the flat area of the apartment house.

At this time, the hot water supply load calculation formula is as shown in the following Equation (7).

)이고, Q_l은 중·대형 공동주택 급탕부하(

)이며, F_m은 단위 세대 급탕 합산 유량(

)이고, f_m은 단위세대 급탕 평균 사용유량(

)이며, N_fs, N_fl은 급탕 동시 사용 총인원수이고, n은 세대수이며, t_hw는 사용자측 급탕 공급 온도(℃)이고, t_cw는 사용자측 급수 공급 온도(℃)이며,

는 총 세대 급탕 설계유량 초과사용 확률이고, S는 설계 안전율이다.
At this time, Q _s is the small apartment house water supply load (

), And Q _l is the load of heavy /

), F _m is the unit generation hot water addition flow rate (

), F _m is the unit household hot water average use flow rate (

T _hw is the user hot water supply temperature (° C), t _cw is the user side water supply temperature (° C), and N _fs and N _fl are the total number of persons used simultaneously in the hot water supply, n is the number of households,

Is the probability of exceeding the total generation hot water design flow rate, and S is the design safety factor.

In the present invention, in the present invention, the step of sorting the area S1, the step of determining the supply condition S2, the step S3 of calculating the total number of people using the hot water supply simultaneously, the step S4 of calculating the number of hot water- (S6), a unit generation hot water design flow rate overflow use probability determination step (S7), a unit generation hot water addition flow rate calculation step (S8), a unit generation hot water average use flow rate (S5), a simultaneous use probability calculation step (S9), a total generation hot water design flow rate exceeding use probability calculation step (S10), a design safety factor determination step (S11) and a hot water supply load calculation step (S12) are sequentially performed. However, It can be determined or calculated first.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Claims (9)

In a method for estimating a hot water supply load of a district heating type apartment house,
An area classification step of dividing the flat area of the apartment house into small, medium and large sizes to calculate the hot water supply load;
A supply condition determining step of determining a generation number n, a user hot water supply temperature t _hw , and a user side water supply temperature t _cw according to the apartment house architectural design;
The total number of people using the hot water supply simultaneously calculating the total number of people using the hot water supply by the number of households (n), and calculating the total number of people (N _fs , N _fl )
The average number of residents (M _a ) per flat area of the apartment house is calculated through demographic data and site survey, and the number of people using the hot water simultaneously to calculate the number of people using the hot water simultaneously (N _p ) A calculating step;
(U _s1 , U _s2 , U _m , and U u ₎ by the total number of hot water supply units per unit household and the number of individual hot water supply equipment, _lt ; th >
The simultaneous use equation of the hot water supply equipment is designed by using the number of hot water supply simultaneous use number (N _p ) and the number of simultaneous hot water supply equipment (U _s1 , U _s2 , U _m , U _l ) (P); calculating a probability of simultaneous use;
Unit-generation hot water supply designed to cope with volatility that can be used in excess of designed hot water design flow in a building design for a short period of unit household hot water flow

Determining a unit generation hot water design flow rate overuse probability determining step;
Unit generation hot water flow rate (F _m ) is calculated by designing the unit generation hot water flow sum calculation formula by using the installation point (u) of the unit hot water supply apparatus and the hot water use flow rate (f) Calculating a flow rate;
A unit household hot water average use flow rate calculating step of calculating a unit household hot water hot water average use flow rate calculating formula by using the simultaneous use probability (P) and calculating a unit household hot water average use flow rate (f _m )
Total hot water supply The total household hot water supply design flow rate over time is used so that the hot water supply load of the total household can cope with the volatility that can be used in excess of the designed hot water design flow rate in the architectural design

Determining a total generation hot water design flow rate overuse probability determining step;
A design safety factor determining step of determining a design safety factor (S) of the hot water heat exchanger capacity; And
The unit generation of hot water supply combined flow rate (F _m), the unit generation of hot water supply mean operating flow rate (f _m), using hot water supply simultaneously the total number (N _fs, N _fl), households (n), the user side hot water supply temperature (t _hw), the user side Water supply temperature (t _cw ), total generation hot water design flow rate usage probability (

(Q _s , Q _l ) for each flat area of the apartment house by designing the hot water supply load calculation formula using the design safety factor (S), and calculating the hot water supply load A Method of Calculation of Hot Water Load in Apartment Houses.
The method according to claim 1,
The size of the apartment house flat area,
Wherein the small size is divided into a heating area of less than 80 square meters, a medium size of which is less than 80 to 100 square meters, and a large heating area of 100 square meters or more. The method according to claim 1,
The total number of people to be used simultaneously in the hot-

And calculating the load of the hot water supply in the district heating type apartment house.
Here, N _fs is the number of simultaneous use of hot water supply according to the number of small apartment houses, N _fl is the number of simultaneous hot water supply according to the number of middle and large apartment houses, and n is the number of households. The method according to claim 1,
The number-of-people-

And calculating the load of the hot water supply in the district heating type apartment house.
Here, M _a is the average number of residents per flat area of apartment house. The method according to claim 1,
The simultaneous-use hot water supply equipment water-

And calculating the load of the hot water supply in the district heating type apartment house.
U _s1 is the number of appliances for applying the concurrent use rate of a small apartment house with one toilet, U _s2 is the number of appliances for applying the concurrent use rate of a small apartment house with two toilets, U _m is the number of appliances U _l is the number of appliances for applying the concurrent usage rate of large apartment units, u _t is the total number of hot water appliances per unit household, u _laundry is the household washing machine in the hot water appliance, u _{The shower} is a _shower in a hot water apparatus. The method according to claim 1,
The simultaneous use probability equation may be expressed as:

And calculating the load of the hot water supply in the district heating type apartment house.
Here, U is the number of unit hot water supply apparatuses, and is the number of people (N _p ) used simultaneously in the hot water supply. The method according to claim 1,
The above-mentioned unit-generation hot water-

And calculating the load of the hot water supply in the district heating type apartment house.
Here, u is the number of unit hot water apparatuses, and f is the hot water use flow rate (l / hr) per apparatus. The method according to claim 1,
The above-mentioned unit-household hot water-

And calculating the load of the hot water supply in the district heating type apartment house.
From here,

, F is the hot water usage flow rate (l / hr), and P is the simultaneous use probability. The method according to claim 1,
The above-mentioned hot water supply load calculation formula is,

And calculating the load of the hot water supply in the district heating type apartment house.
Here, Q _s is the small apartment house water supply load (

), And Q _l is the load of heavy /

), F _m is the unit generation hot water addition flow rate (

), F _m is the unit household hot water average use flow rate (

), And an N _fs, N _fl is the total number of people using the hot water supply simultaneously, and n is a number of households, t _hw is the user side hot water supply temperature (℃) and, t _cw is the user side and the water supply temperature (℃), the total generation of hot water supply design flow rate Excess usage probability (

) And S is the design safety factor.

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