Application of Balanced Score Card in the Evaluation of
High-Quality Development of Environmental Service Industry:
A Case Study of Grandblue
Yan Wang
1
and Yunlang Xie
2
1
School of Accounting, Research Center for Accounting and Economic Development of Guangdong-Hong Kong-Macao
Greater Bay Area, Guangdong University of Foreign Studies, Guangzhou, China
2
School of Accounting, Guangdong University of Foreign Studies, Guangzhou, China
Keywords: Balanced Score Card, Environmental Service Industry, Quality Evaluation System.
Abstract: In 2016, the state proposed the “Five-sphere Integrated Plan” (a plan to promote coordinated economic,
political, cultural, social and ecological advancement) and the "Four-pronged Comprehensive Strategy",
which focus on environmental quality improvement, solve outstanding environmental problems and steadily
promote environmental protection. The “Outline of the 13th Five-Year Plan for National Economic and Social
Development” promulgated in March 2016 stated explicitly about “developing green environmental
protection industries, support technical equipment and service model innovation, and promote the
development and growth of energy-saving and environmental protection industries”. The “Ecological
Environment Protection Planning for the 13th Five-year Period” was released and implemented in the same
year. Under such backdrop, China’s environmental service industry has experienced a steady rise since 2016.
The scale of the industry continues to expand, the industry concentration and spatial pattern are basically
stable, the income grows steadily, the profit margin rises slightly, and the tax contribution continues to
increase, which has made significant contribution to national economic growth. This article will shift from
the macro industrial economy level to the micro corporate strategy level, exploit the Balanced Score Card to
formulate a set of quality evaluation system in line with the business scope and business philosophy of the
enterprise to accurately evaluate the quality of environmental service enterprises, which will facilitate the
high-quality development of the overall environmental service industry.
1 INTRODUCTION
With the advancing of economic globalization and
ecological globalization, international attention to the
environmental service industry has increased
simultaneously with the rapid economic development
and increased pressure of environmental pollution.
The environmental service industry has also become
the focus of general attention of domestic and foreign
scholars. Overseas scholars such as Goldman et al.
(2005) used data from the past ten years to conduct
empirical analysis on the trend of the US
environmental service industry, and concluded that
market-opening plans and government policy support
can promote the development of environmental
service industry (
Goldman et al., 2005). Gan et al.
(2009) further explored how to promote the
development of environmental service industry from
market development mechanism, standardization of
environmental service industry, and public
consumption awareness. At present, the definition of
environmental service enterprise in the international
community is not completely consistent. China
defines environmental service industry as service
trading activities related to the environment, and a
branch of modern service industry. It has been
occupying a large proportion in the statistical
classification of China’s producer service industry,
and taking an important position in the consumer
service industry (
Da-li G, 2009).
In our country, the development of environmental
protection industry is a great option for local
governments to promote the supply-side structural
reforms and expand high-quality incremental supply.
It is also an important support for the fight against
pollution prevention and control. In the future, with
the in-depth penetration of emerging technologies
504
Wang, Y. and Xie, Y.
Application of Balanced Score Card in the Evaluation of High-Quality Development of Environmental Service Industry: A Case Study of Grandblue.
DOI: 10.5220/0011954100003612
In Proceedings of the 3rd International Symposium on Automation, Information and Computing (ISAIC 2022), pages 504-517
ISBN: 978-989-758-622-4; ISSN: 2975-9463
Copyright
c
2023 by SCITEPRESS – Science and Technology Publications, Lda. Under CC license (CC BY-NC-ND 4.0)
such as big data, cloud computing, and artificial
intelligence, along with the guidance of the
government macroeconomic policies, the market
potential and development vitality of China’s
environmental service industry will be efficiently
improved. At present, although the market capacity of
the environmental service industry has expanded
significantly, the service content has been improved,
service capabilities enhanced, and service quality
elevated, the overall levels of development of the
industry is still low, with problems such as
unreasonable personnel structure, and weak
innovation capabilities. Therefore, it is necessary to
build a new environmental service industry
evaluation system to determine the service standards
through relevant indicators so as to enhance the
quality and efficiency of the environmental service
industry, and to achieve the goal of pollutant emission
reduction and fundamental improvement of
environmental quality with high-quality
environmental service standards.
2 DEFINITION OF RELATED
CONCEPTS AND LITERATURE
REVIEW
In this part, including the definition of related
concepts and literature review.
2.1 Definition of Related Concepts
The definition of environmental service industry,
Balanced Score Card and The Analytic Hierarchy
Process.
2.1.1 Environmental Service Industry
The definition and classification of the environmental
service industry abroad mainly include the following
versions: The Interim Core Product Classification
(CPC) issued by the United Nations in 1998 defines
the environmental service industry as including
sewage treatment services, waste disposal services,
sanitation services and other environmental services.
In 1999, the Organization for Economic Cooperation
and Development (OECD) and the European
Community Statistics Office (EUROSTAT) defined
environmental service industry as the measurement,
prevention, restriction, mitigation, and governance of
environmental damages related to water, air, soil,
waste, noise and ecosystems, which can be divided
into pollution treatment, clean technology and clean
products, and resource management. In 1991, the
General Agreement on Tariffs and Trade (GATS)
adopted the W/120 system to classify environmental
service industry, and proposed that the environmental
service industry should include sewage treatment
services, waste disposal services, sanitation services
and exhaust gas cleaning services, noise reduction
services, nature and landscape conservation services
and other environmental services. In 2000, the
European Union proposed a new classification of
environmental services in the World Trade
Organization (WTO), dividing environmental
services into core environmental services and
environment-related services. The core
environmental services are pure environmental
services, which falls into 7 categories: human water
consumption and sewage management, hazardous
solid waste management, air and climate protection,
soil and water restoration and cleaning, noise and
vibration reduction, biodiversity and landscape
protection, and other environmental services and
ancillary services. Environment-related services can
also be divided into 7 categories: business services,
R&D services, consulting services, contracting, and
engineering services, construction services,
distribution services, transportation services and
other services with environmental connotations.
Currently, the GATS classification of environmental
service industry is widely used by WTO and the
United Nations until now, while the classification
system of OECD and EUROSTAT for environmental
service industry is more advanced and complete.
China classifies the environmental service
industry by referring to the “2000 Communiqué on
the National Environmental Protection-Related
Industries” issued by the State Environmental
Protection Administration, which for the first time,
defines environmental service industry as service
trade activities related to the environment, and are
specifically divided into environmental technical
services, environmental consulting services,
operation and management of pollution control
facilities, recycling and disposal of waste resources,
environmental trade and financial services,
environmental functions and other environmental
services.
2.1.2 Balanced Score Card
The concept of Balanced Score Card (hereinafter
referred to as BSC) was first published in Harvard
Business Review in 1992 by Professor Robert Kaplan
of Harvard University and David Norton, the Director
of the Norton Institute in “The Balanced Score
Application of Balanced Score Card in the Evaluation of High-Quality Development of Environmental Service Industry: A Case Study of
Grandblue
505
Card—Measurement that Drive Performance”, and
this creative concept is a major breakthrough in
performance evaluation theory. At present, the
traditional Balanced Score Cards used in most studies
to evaluate performance have four dimensions:
financial dimension, customer dimension, internal
process dimension, and learning and growth
dimension. The four dimensions are used to transform
the company’s strategic goals into feasible indicators
for quantitative analysis, which focus on the current
performance evaluation and adjust the company’s
future production and operation and activities. BSC is
applied to the specific activities of the company to
help the company achieve its strategic goals.
2.1.3 Analytic Hierarchy Process
The Analytic Hierarchy Process (hereinafter referred
to as AHP) is a decision-making method that
decomposes the elements that are always related to
the decision into goals, guidelines, and plans, and
performs qualitative and quantitative analysis on this
basis. This method is a hierarchical weighted decision
analysis method proposed by the American
operations researcher Professor Satie of the
University of Pittsburgh in the early 1970s.
2.2 Literature Review
Judging from the existing research on the
environmental service industry, currently overseas
researches mainly focus on the payment for
environmental service, while domestic researches
look into perspectives including the status quo of the
environmental service industry, the experience drawn
from the development of the environmental service
industry, and how to push forward the development
of the environmental service industry.
Foreign scholars mainly study payment for
environmental services. The research perspectives
include the power and influence of payment methods
of environmental services on environment protection,
agricultural development, and economic
development. “Payment for Environment Service”
(PES) is also called “Payment for Ecosystem Service”
or “Payment for Ecological Service” (collectively
known as “Payment for Ecosystem Service”).
Wunder (2005) believes that the significance of PES
is that the environmental service beneficiaries make
conditional and contractual payments to the service
suppliers, so that the latter can continue to take
actions to protect and restore the ecological
environment system. This should involve voluntary
transactions, defined ecosystem services, at least one
environmental service purchaser and one
environmental service provider, and the
environmental service provider must provide
environmental services (
Wunder S, 2005). Huang
(2007) proposed to define environmental services,
which means that it is necessary to determine the
subjects of relevant environmental services, including
the suppliers, demanders and intermediaries, and
establish the payment mechanisms (including
payment methods, transaction costs, contract
duration, and sources of payment) and relevant laws
and regulations (
Huang M et al., 2007).
In the recent decades, international organizations
have promoted many conservation projects to resolve
environmental problems worldwide. For example,
institutions such as the World Bank (wb), the Food
and Agriculture Organization of the United Nations
(fao), the United Nations Environment Programme
(unep), the Global Environment Fund (gef) and the
International Development Bank (idb) have
developed guidelines for public environmental
policies for countries committed to environmental
protection. It is worth noting that those projects have
facilitated related initiatives between non-
governmental organizations and some private
companies (wunder et al., 2008). Generally speaking,
these projects set to promote environmental
protection through market mechanisms such as
compensation, incentives and payments (Rodríguez
et al. 2011). In particular, projects that provide
incentives or compensation for environmental
protection services, namely, payment for
environmental services or payment for ecosystem
services, are important mechanisms that promote
social, economic and environmental sustainability,
especially in rural areas (Maciel et al., 2014). In
developing countries, governments do not have
enough funds to pay for environmental service
projects, and therefore the lack of available funds is
another crucial limitation (Wunder et al., 2008).
Sometimes, in areas where the market is missing, the
opportunity cost or the willingness to pay is uncertain,
the payment of environmental service fees is even
found to be ineffective for environmental protection
(Pattanayak et al., 2010). The above restrictions will
abate the efficiency of payment for environmental
service, thus hampering the goals of the
environmental service payment plan. In this case,
efficiency refers to the extent to which the paid
environmental service programs achieve the
environmental protection goals with minimal social,
economic or environmental costs (Jost and Gentes,
2014).
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As for domestic researches on the status of
environmental service industry, Liu Xiaobing et al.
(2015) studied the development status of China’s
environmental service industry and concluded that
China’s environmental service industry has seen
considerable development since 2000, while the scale
was still very small compared with that of the
developed countries and the development was also
uneven between the East and the West of China (
Liu
et al., 2015). Chai Weishu et al. (2017) analyzed the
data from 2012 to 2016 in terms of the overall scale
of environmental services, industry concentration and
industry spatial pattern and the status of the industry
main body, and concluded that the environmental
service industry had made a significant contribution
to the growth of the national economy during 2012
and 2017, and that the market potential and vitality of
the environmental service industry would be further
explored with the deepening of supply-side structural
reforms, the upgrading of environmental protection
supervision and law enforcement and policy support
(
Chai et al., 2017). When Wang Yanhua et al. (2018)
explored the investment in environmental protection
industry, they found that the distribution of China’s
environmental service industry was the same as that
of the environmental protection industry, which was
quite unbalance. China’s environmental protection
industry is mainly concentrated in the Bohai Rim, the
Yangtze River Economic Belt and the Pearl River
Delta, while the environmental service industry is
mainly situated in the Beijing-Tianjin-Hebei region,
the Yangtze River Delta and the Pearl River Delta
(
Wang et al., 2018).
Regarding the experience reference for the
development of the environmental service industry,
Gao Ming and Hong Chen (2014) referred to the
enlightenment of the development of the US
environmental protection industry and mentioned that
the export of environmental protection products
should be encouraged and the government’s role in
the international trade of environmental protection
industry should be strengthened. The government
must remove all the barriers for the environmental
protection industry in participating in international
competition, provide export information services,
reduce, or exempt export tariffs, and simplify the
administrative procedures. At the meantime, the
government need to fight for the rights and interests
of environmental protection companies in
international organizations, integrate environmental
diplomacy with environmental trade, and utilize
government assisted project to Africa to drive the
export of environmentally friendly products (
Gao M,
Hong C 2014
). Jia Ning and Ding Shineng (2014)
proposed to learn from the successful experience of
Japan and South Korea in the development of
environmental protection industry. Compared with
European and American countries, the environmental
protection technologies of Japan and South Korea are
easier to transform and absorb by China. In the future,
we need to make full use of the environmental
protection industry cooperation platform of Japan and
South Korea, increase the investment in science and
technology, and explore the development path of
environmental protection industry to “go global” (
Jia
N, Ding S 2014).
Regarding how to promote the development of the
environmental service industry, Xia Jiechang and
Zhang Yingxi (2010) emphasized the necessity to
cultivate public awareness when discussing the
development path of the industry in China. By
adopting multi-level environmental education, the
public’s awareness of environmental protection will
be strengthened, which helps to form a benign
interaction between the public, government and
enterprises, lays a foundation for policy formulation,
and creates a favorable market and public opinion
atmosphere for the development of the industry (
Xia
J, Zhang Y 2010
). Li Ying et al. (2012) mentioned that
to promote the development of China’s
environmental service industry, it is necessary to
implement environmental services contract (ESC).
The essence of ESC is the business method of paying
the full costs of environmental protection projects in
the form of contracts with the payment standard built
upon the environmental protection performance. ESC
goes in two forms: 1) polluting companies share the
saved emission reduction costs with environmental
service providers through the environmental service
contract, which is similar to energy contract services
in structure; 2) the government pays for the
environmental services provided by the
environmental services providers through fiscal
payment in government activities (
Li et al., 2012). Liu
Naichao (2014) also explored the development path
of China’s environmental service contract, and was
convinced that the “environmental contract services”
model could be a new way of environmental
governance integrating voluntary actions and market
mechanism, and environmental service contract has
become an important governance model from urban
and rural waste treatment, sewage treatment to air
treatment, etc., and it plays a positive part in the
improvement of environmental governance. In
addition, sustainable development of environmental
service contract is mainly achieved through
government supervision and fiscal and tax policy
support which strengthens the market order (
Liu N
Application of Balanced Score Card in the Evaluation of High-Quality Development of Environmental Service Industry: A Case Study of
Grandblue
507
2014). Wu Na et al. (2020) put forward several
strategic suggestions when evaluating the
development level of our environmental service
industry, for instance expanding the scale of
environmental service enterprises, and guiding small
and micro enterprises to develop differentiated,
specialized and refined services while focusing on the
cultivation of a group of leading enterprises. In
addition, improving the technological innovation
capabilities of environmental service companies and
introducing environmental technology talents are also
crucial to the development of environmental service
enterprises (
Wu et al., 2020). Xin Lu et al. (2020) used
the South China Cluster of the National
Environmental Service Industry as an example to
analyze policies that promote the innovation and
entrepreneurship of environmental protection
industrial parks. They mentioned that promoting
environmental protection requires the establishment
of environmental protection industry funds, and the
innovation of environmental protection industry
financing guarantee methods, etc. we need to
vigorously develop environmental finance services
and enhance the vitality of the industry, give full play
to the government’s guidance, support and positive
role, establish a government-led fund for the
development of environmental protection industry,
and enhance the potential for industrial development
(
Xin et al., 2020).
3 CASE COMPANY
INTRODUCTION
Grandblue is a listed company engaged in
environmental protection services, headquartered in
Nanhai District, Foshan. Since its listing in 2000,
Grandblue has developed from a local municipal
utility company to a large national comprehensive
environmental service company. Its main business
areas include solid waste treatment, and energy, water
supply and drainage. It has evolved from a company
that provides simply water supply service for certain
areas of Foshan to a comprehensive environmental
service company that provides integrated “waste-free
city” solutions for multiple cities across the country.
Jin Duo, the president of Grandblue, said in an
exclusive interview with our reporter that Grandblue
initially expanded the “border” of its business by
acquiring a waste incineration company in 2006. This
waste treatment plant was strongly resisted by the
people around because of the bad smell, black smoke
from chimneys, sewage and terrible noise, and it got
on the black list of the Ministry of Environmental
Protection. “A company engaged in environmental
protection business has encountered hostility and
resistance from the surrounding residents because it
has never been environmental-friendly and it is not
responsible for the community environment and its
employees. The company was on the verge of
bankruptcy and the hearts of the employees were
extremely disintegrated.” Jin Duo said like that when
he recalls that company. It seems that he his mind has
flied back to fifteen years ago, “After we took over,
we began to think about how to do things right from
the scratch”. When the reporters come to the original
site of that company, it has been completely
different—a building full of artistic design stands
among shady trees, chic landscape and fresh grass,
and two-hundred-meter-high chimneys stand like
crystal columns, beautiful and refreshing. Standing in
front of this building designed by the Atkins design
team, the designer of seven-star Burj Al Arab Hotel
in Dubai’s, one can hardly associate it with garbage
incineration, and this reborn area also gets a new
name—Nanhai Solid Waste Treatment and
Environmental Protection Industrial Park.
4 EVALUATION AND ANALYSIS
OF HIGH-QUALITY
DEVELOPMENT BASED ON
THE BALANCED SCORE CARD
This part is about the evaluation and analysis of high-
quality development based on the Balanced Score
Card.
4.1 A Five-Dimensional Balanced Score
Card
The concept of Balanced Score Card (hereinafter
referred to as BSC) was first published in Harvard
Business Review in 1992 by Professor Robert Kaplan
of Harvard University and David Norton, the Director
of the Norton Institute in “The Balanced Score
Card—Measurement that Drive Performance”, and
this creative concept is a major breakthrough in
performance evaluation theory. At present, the
traditional Balanced Score Cards used in most studies
to evaluate performance have four dimensions:
financial dimension, customer dimension, internal
process dimension, and learning and growth
dimension. The four dimensions are used to transform
the company’s strategic goals into feasible indicators
for quantitative analysis, which focus on the current
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performance evaluation and adjust the company’s
future production and operation and activities. BSC is
applied to the specific activities of the company to
help the company achieve its strategic goals.
When Chen Xu et al. (2020) studied the strategy-
oriented combination of the BSC and key
performance indicators, they took W company as an
example, combined with W company’s unique
corporate mission “Green-technology Driven and
International-Oriented” and expanded the four-
dimensional BSC with another non-financial
dimension—“Social Responsibility Dimension” to
reflect the corporate social responsibility
performance, which is consistent with the “Green-
technology Driven and Sustainable Development”
philosophy advocated in W company’s strategy [21].
The company studied in this article, Grandblue is a
social service enterprise for solid waste treatment, gas
and new energy supply. It takes “building a
harmonious life between man and nature” as its
corporate mission and upholds “a good housekeeper
for the city, a good model for the industry, and a good
neighbor in the community”, with the vision to
become a leading eco-environmental service
provider, therefore the traditional four-dimensional
BSC model can no longer cover the business strategy
of the company (
Chen X et al., 2020). Lin Hongmei et
al. (2020) studied the relationship between the tenure
of executives and corporate social responsibility, and
made the point that corporate social responsibility
was the responsibility that enterprises would
undertake beyond the interests of the company and
legal requirements, including environmental
responsibility, consumer rights and interests, social
donations and social contribution value per share and
many other aspects. The fulfillment of social
responsibilities by enterprises not only propels the
sustainable and balanced development of the
enterprises and the society, but also shapes the
company’s image to a large extent (
Lin et al., 2020).
The 19th National Congress of the Communist Party
of China also proposed to “promote the construction
of integrity and institutionalization of voluntary
services, and strengthen the awareness of social
responsibility, rules, and dedication”. Corporate
responsibilities include responsibilities to the
country, the society, the investors, the consumers and
the public, the employees, and the environment, etc.
(Liu Junhai and Chai Weiwei, 2018). Deng Mingwen
and Yu Zhihong (2020) mentioned that “corporate
social responsibility is not cost but competitiveness
and the driving force of enterprise development”
when studying the sustainable practices of
Grandblue’s environmental contribution to a waste-
free city. It is precisely by fulfilling its social
responsibilities, can Grandblue build business
advantages, and improve corporate profitability while
creating diversified value for the society (
Deng M, Yu
Z 2020
).
4.2 Enterprise Strategy Map and Index
Evaluation System
With the help of the five-dimensional BSC, the
company’s strategic goals can be subdivided into sub-
goals at different levels within the five dimensions,
with each level pointing out the specific problems that
the company must solve in order to achieve the
strategic goals and vision. Based on the reconstructed
five-dimensional strategic map shown as follows,
combining the characteristics of the industry and
business philosophy of Grandblue, as well as its
future strategic goals, the indicators that can most
accurately measure the service performance of
Gramdblue are selected to ensure the fairness of
subsequent weight determination. There are 5
indicators in each dimension, with 25 indicators in the
system in total. The strategy map and indicator
evaluation system go as follows (Figure 1 & Table 1).
Figure 1: Strategic Map.
4.2.1 Financial Dimension
The key to realize Grandblue’s strategic goal of
financial dimension of is to satisfy the shareholders
and maximize the shareholders’ interests, and
secondly, consider the preferences of external small
and medium investors. The author has selected
several indicators that can best reflect the interests of
shareholders and are of prior concern of external
Mission &
strategy
Learning & Growth Dimension
What should we do to maintain a
High-quality talent pool?
Social responsibility dimension
How can we fulfil our social
responsibilities in order to
strengthen trust mechanisms?
Customer Dimension
What should we offer our
customers in order to meet their
diverse needs?
Internal Process Dimension
What innovations should we make to
improve business process
efficiency?
Financial Dimension
What are the specific objectives to
be achieved in order to enhance
the effectiveness of environmental
services?
Application of Balanced Score Card in the Evaluation of High-Quality Development of Environmental Service Industry: A Case Study of
Grandblue
509
small and medium investors. The first indicator is
weighted average return on equity. It is known that
the rate of return on net assets is the most
representative indicator for evaluating the level of
remuneration acquired by a company’s own capital
and its accumulation, and the weighted average can
better reflect the return on net assets in the entire year
and avoid short-term fluctuations caused by
uncertainties such as accidental events in the market,
followed by basic earnings per share to evaluate the
company’s profitability. The cash dividend
distribution ratio reflects the company’s dividend
policy and dividend payout rate. Those two indicators
are also important indicators for shareholders and
investors to decide whether to invest or not; finally,
the interest coverage ratio is taken to measure the
company’s long-term solvency which can measure
the security of corporate debenture capital, and the
loan repayment rate is used to evaluate the company’s
credit standing and capital turnover.
4.2.2 Customer Dimension
To achieve the goal of customer dimension,
Grandblue must always take customer satisfaction as
a guideline for production and operation, and take
customer demand as the direction for enterprise
development. The rate of new customer acquisition
represents a company’s business capabilities and
brand awareness. Due to the diversification and wide
distribution of customers, as well as the differences in
the standards for solid waste treatment, water and
power supply and other services in different regions,
Grandblue must provide diversified and customized
products and services to meet the personalized
requirements of different customers. Publicity and
promotion expenses refer to the company’s
investment in brand promotion, which reflects the
company’s emphasis on maintaining old customers
and long-term customers, and acquiring new
customers. Information disclosure evaluation, project
acceptance rate, and after-sales service timeliness
ratio all reveal the company’s transparency on its own
service quality and quality assurance to increase
customers’ trust in its products and services.
4.2.3 Internal Process Dimension
As a service enterprise engaged in solid waste
treatment and water and power supply, the internal
process of Grandblue determines its production
efficiency, product quality and service efficiency. To
achieve the strategic goals of the internal process
dimension of Grandblue, firstly, investment in safety
production reflects the company’s attention and
control of the safety of production process. Only by
keeping safety as the bottom-line can Grandblue talk
about strategy and development; secondly, the
company’s industrial output energy consumption
level and energy loss rate represent the economic
benefits of enterprise energy. A reasonable proportion
of R&D investment is a prerequisite to technological
breakthroughs. The acceleration of the modernization
process makes environmental protection more
challenging. Therefore, Grandblue must increase
R&D investment, accelerate the formation of core
competitiveness, and achieve breakthroughs in core
technologies. And the pollutant treatment capacity is
the guarantee of the business capacity of a solid waste
treatment company.
Table 1: Innovation Performance Index Evaluation System
of Gandblue.
First-level
evaluation
dimension
Secondary evaluation index
Financial
dimension (A)
Weighted average return on equity
(A1)
Cash dividend distribution ratio (A2)
Loan repayment rate (A3)
Basic earnings per share (A4)
Interest coverage multiple (A5)
Customer
dimension (B)
New customer acquisition rate (B1)
Promotion fee ratio (B2)
Evaluation of Information Disclosure
(B3)
Project acceptance rate (B4)
Timeliness ratio of after-sales service
(B5)
Internal
process
dimension (C)
Proportion of R&D investment (C1)
Energy consumption of industrial
out
p
ut value
(
C2
)
Energy loss rate (C3)
Safety production investment (C4)
Pollutant treatment capacity (C5)
Learning and
growth
dimension (D)
Staff training coverage rate (D1)
Proportion of highly educated
em
p
lo
y
ees
(
D2
)
Proportion of female managers (D3)
Occupational disease incidence (D4)
Social insurance coverage rate (D5)
Social
responsibility
dimension (E)
Social contribution value per share
(
E1
)
Hazardous waste treatment efficiency
(
E2
)
Charity donation (E3)
Tax payment (E4)
Volunteer service frequency (E5)
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4.2.4 Learning and Growth Dimensions
The strategic goal of the learning and growth
dimension is to develop long-term core
competitiveness to provide consumers with better
services. On the one hand, Grandblue needs to
cultivate core technical talents, management talents
and other resources that can help realize the long-term
development of the company. In addition, employee
training, the introduction of highly educated talents,
and the proportion of female managers can all reflect
the company’s emphasis on high-end talents; on the
other hand, it is necessary to provide better living
guarantee and employee benefits to reduce brain
drain. For example, employees in solid waste
treatment-related positions must undergo regular
occupational disease inspections to increase social
insurance coverage.
Table 2: AHP 1~9 Scale Description.
Scaling Connotation
1 Both elements are equally important
3
The former is slightly more important
than the latter
5
The former is obviously more
important than the latter
7
The former is more important than the
latte
r
9
The former is extremely important
than the latter
2, 4, 6, 8
The median value of the above
adjacent judgment
Count
backwards
If the importance ratio of element A to
element B is a, then the importance
ratio of element B to element A is 1/a
Table 3: Description of the score sheet.
Index
A
Index
B
Index
C
Index
D
Index
E
Index
A
1 A/B A/C A/D A/E
Index
B
B/A 1 B/C B/D B/E
Index
C
C/A C/B 1 C/D C/E
Index
D
D/A D/B D/C 1 D/E
Index
E
E/A E/B E/C E/D 1
4.2.5 Social Responsibility Dimension
Grandblue adheres to the corporate mission of
“building a harmonious coexistence between man and
nature”, which requires the company to strengthen
trust mechanism by enhancing the sense of social
responsibility and fulfilling the social responsibilities.
First of all, it emphasizes the improvement of energy
utilization efficiency, saving energy and reducing
consumption, for instance improving the efficiency of
hazardous waste treatment; secondly, in terms of
social contribution, Grandblue should actively pay
taxes to increase the social contribution value per
share. The frequency of charity donations and
volunteer services not only represent the company’s
social image, but also give back to the society in
diversified forms.
4.3 Determination of Indicator Weights
This article aims to measure the performance of
Grandblue’s environmental service business, and
adopts the analytic hierarchy process to determine the
weight of each indicator in the performance
evaluation system. First, combined with the 1~9
grade scoring method, develop a BSC with five
dimensions, making a questionnaire that compares
the relative importance of any two evaluation
indicators of the five dimensions, invites ten experts
to rate the relative importance of the indicators in the
comprehensive performance evaluation system, and
then performs data processing through software such
as yaanp to obtain the quantified judgment matrix,
later use the square root method to calculate the max-
Eigen (hereinafter referred to as λmax) and the
eigenvector (hereinafter referred to as Wi) of the
matrix. The specific weight determination process
goes as follows:
a. Design a questionnaire. The table is divided into
two parts: 1) the scoring table for the comparison of
the importance of specific indicators in the five
dimensions; 2) the scoring table for the comparison
of the relative importance among the five dimensions.
The description of the nine-level scoring standards
and scoring table goes as Table 2 & Table 3.
b. Distribute questionnaires. This time, ten
enterprise experts were invited to give the score, and
6 valid scoring tables were recovered, and statistics
were made based on the scoring results.
c. Construct a judgment matrix. Take the average
value of the scoring results of all valid questionnaires
and use it as the relative importance level scores of
the five dimensions and each index to obtain the
judgment matrix after aggregation.
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Table 4. Average random consistency index.
n 1 2 3 4 5 6 7 8 9
RI 0 0 0.52 0.89 1.12 1.26 1.36 1.41 1.46
Table 5. Analysis results of the dimensional index weight (expert A).
Dimensions (A) (B) (C) (D) (E) Weight λmax CI RI CR
(A) 1 1/3 3 7 7 26.16%
5.387 0.097 1.12 0.086
(B) 3 1 6 8 8 51.71%
(
C
)
1/3 1/6 1 5 7 14.34%
(
D
)
1/7 1/8 1/5 1 2 4.49%
(E) 1/7 1/8 1/7 1/2 1 3.30%
Table 6. Analysis results of the dimensional index weights (Expert B).
Dimensions (A) (B) (C) (D) (E) Weight λmax CI RI CR
(A) 1 1/3 1/3 1 1 9.80%
5.295 0.074 1.12 0.066
(B) 3 1 3 3 3 41.12%
(C) 3 1/3 1 5 5 31.04%
(D) 1 1/3 1/5 1 1 9.02%
(E) 1 1/3 1/5 1 1 9.02%
Table 7. The analysis results of the dimensional index weight (Expert C).
Dimensions (A) (B) (C) (D) (E) Weight λmax CI RI CR
(A) 1 1/5 1/6 1/7 1/3 3.75%
5.359 0.090 1.12 0.08
(B) 5 1 1/2 1/5 3 13.93%
(C) 6 2 1 1/5 4 20.43%
(D) 7 5 5 1 6 54.97%
(E) 3 1/3 1/4 1/6 1 6.92%
Table 8. The analysis results of the dimensional index weight (Expert D).
Dimensions (A) (B) (C) (D) (E) Weight λmax CI RI CR
(A) 1 3 1/2 6 6 28.80%
5.366 0.092 1.12 0.082
(B) 1/3 1 1/6 4 6 14.74%
(C) 2 6 1 6 6 46.77%
(D) 1/6 1/4 1/6 1 2 5.60%
(E) 1/6 1/6 1/6 1/2 1 4.09%
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Table 9. The analysis results of the dimensional index weight (Expert E).
Dimensions (A) (B) (C) (D) (E) Weight λmax CI RI CR
(
A
)
1 3 1/4 8 3 22.37%
5.343 0.086 1.12 0.077
(B) 1/3 1 1/6 6 2 11.72%
(C) 4 6 1 8 7 55.04%
(D) 1/8 1/6 1/8 1 1/4 3.12%
(
E
)
1/3 1/2 1/7 4 1 7.75%
Table 10. The analysis results of the dimensional index weight (Expert F).
Dimensions (A) (B) (C) (D) (E) Weight λmax CI RI CR
(A) 1 4 6 1/2 6 30.75%
5.418 0.106 1.12 0.093
(B) 1/4 1 4 1/6 6 13.93%
(C) 1/6 1/4 1 1/6 2 5.50%
(D) 2 6 6 1 6 45.79%
(E) 1/6 1/6 1/2 1/6 1 4.04%
Table 11. The analysis results of dimensional indicators weight after aggregation.
Dimensions (A) (B) (C) (D) (E) Weight
(A) 1 5/6 5/7 1 3 1/2 20.27%
(B) 1 1/5 1 6/7 1 1/5 4 1/5 24.52%
(C) 1 3/7 1 1/6 1 1 2/5 5 28.85%
(D) 1 5/6 5/7 1 3 1/2 20.50%
(E) 2/7 1/4 1/5 2/7 1 5.85%
Table 12. Innovation Performance Indicator Evaluation System of Gandblue
Primary evaluation
dimensions
Weight Secondary evaluation index Weight
Financial dimension (A) 20.27%
Weighted average return on equity (A1) 5.25%
Cash dividend distribution ratio (A2) 3.17%
Loan repayment rate (A3) 3.41%
Basic earnings per share (A4) 5.00%
Interest coverage multiples (A5) 3.43%
Customer dimension (B) 24.52%
New customer acquisition rate (B1) 8.02%
Promotion fee ratio (B2) 2.82%
Evaluation of Information Disclosure (B3) 2.40%
Project acceptance rate (B4) 6.50%
Timeliness ratio of after-sales service (B5) 4.79%
Internal process dimension
(C)
28.85%
Proportion of R&D investment (C1) 6.54%
Energy consumption of industrial output value
(C2)
5.04%
Energy loss rate (C3) 5.03%
Application of Balanced Score Card in the Evaluation of High-Quality Development of Environmental Service Industry: A Case Study of
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Safety production investment (C4) 4.97%
Pollutant treatment capacity (C5) 7.28%
Learning and growth
dimension (D)
20.50%
Staff training coverage rate (D1) 4.84%
Proportion of highly educated employees (D2) 4.63%
Proportion of female managers (D3) 1.06%
Occupational disease incidence (D4) 2.40%
Social insurance coverage rate (D5) 7.58%
Social responsibility
dimension (E)
5.85%
Social contribution value per share (E1) 1.94%
Hazardous waste treatment efficiency (E2) 1.72%
Charity donation (E3) 0.50%
Tax payment (E4) 1.28%
Volunteer service frequency (E5) 0.40%
d. Calculate the weighted value. In this paper, the
geometric average method is used for calculation.
And the specific steps are shown as follows:
Step 1 calculate the product of elements in each
row of the judgment matrix.
w
=
∏
αij
i,j = 1,2,3⋯, n, n: Order of
Matrix
(1)
Step 2 calculate the n root of w
, the geometric
mean.
𝑤
=
𝑤
(2)
Step 3 Normalize the vector to get the required
feature vector 𝑤
.
Step 4 Calculate the maximum eigenvalue λmax.
λ
max =
1
n
(Aw)
w
(3)
Where: (Aw)
is the i-th element of the vector, where
A is the judgment matrix; n is the dimension of the
matrix.
Step 5 Calculate the consistency index and
conduct a consistency test.
Check the corresponding average random
consistency index RI (RI is the average value of the
consistency index of the random judgment matrix of
the same order). The introduction of RI will suppress
the drawbacks that the consistency judgment index of
will increase significantly with the increase of n to a
certain degree. See the following Table 4 for details:
Calculate the consistency index CI and the
consistency ratio CR according to the maximum
eigenvalue calculated in the above steps. The
calculation formula is listed as follows. If the
consistency ratio CR<0.1, the consistency
requirement is met, and the aforementioned weight
vector can be used.
Step 6 Check the validity of expert data.
A total of 6 valid expert scoring scales have been
retrieved, and the validity of expert data is tested by
taking expert A’s data as an example. It can be seen
from Tables 1-6 that CI = (λmax-n) / (n-1), and
therefore CI=0.097<0.1; CR=CI/RI, so
CR=0.086<0.1; under such circumstance, this
judgment satisfies the consistency test. It can be seen
that the scoring result of expert A satisfies the
consistency test and can be used as the source data to
calculate the dimensional weight after aggregation,
the same below, like the following tables 5-10.
Step 7 The Results of Analytic Hierarchy Process
calculation results.
A total of 6 valid expert scoring scales have been
retrieved. After data processing and calculation of the
scorings, the final judgment matrix is obtained after
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the aggregation of expert data, and the results of
weight of each primary dimension and the weight of
the secondary indicators are obtained. The details are
shown in Table 11 & Table 12.
5 ANALYSIS OF SPECIFIC
INDICATORS AND THE
WEIGHTS
Seen from the weight of the dimension level in the
above indicator weight table, it can be seen that the
weight of the internal process dimension (C) is
28.85%, which takes the largest proportion of the five
dimensions. As a company that provides solid waste
treatment, water supply and drainage service, the
realization of Grandblue’s overall development
strategy is directly affected by the internal process.
Good and efficient internal operations are helpful for
the realization of the company’s long-term strategic
goals. Among the five dimensions of the internal
process, pollutant treatment capacity (C5) accounts
for the largest proportion, this means that the business
capacity of the company is always in the first place in
the development of the company. Grandblue must
always place the improvement of business
capabilities before financial performance in its
operations, rather than blindly pursue financial
returns; secondly, we can evaluate the enterprise’s
emphasis on innovation, innovation output and
innovation efficiency through the internal process
dimension. The proportion of enterprise R&D
investment (C1) is inseparable with service quality.
The innovation capability of an enterprise can be
improved through internal R&D and external
integration. The case company Grandblue has
achieved mixed ownership mergers and acquisitions
with a number of external companies, integrated
existing resources, achieved synergy between the
technology and resources, and improved the input-
output ratio, which is the energy consumption of
industrial output value (C2), and production and
operation efficiency, which is pollutant treatment
capacity (C5). Therefore, when improving the
internal process efficiency of environmental service
enterprises, it is necessary to combine the efficiency
of production lines with that of R&D and innovation
to achieve coordinated development and jointly
elevate the company’s hard power.
The second is the customer dimension (B). The
proportion of customer dimension is second only to
the internal process dimension, which coincides with
the state-owned background of Grandblue whose
vitality is determined by the big customers, while the
new customer acquisition rate (B1) bring in a steady
stream of new customers so as to keep the vitality of
the company. The service quality of Grandblue, such
as the project acceptance rate (B4) and the timeliness
rate of after-sales service (B5), are the basic guarantee
for the company to acquire new customers and
maintain old customers. By establishing a good image
through high-quality services, the company manages
to expand their market share and forge ahead towards
a leading environmental service company across the
country from a local state-owned enterprise.
Then there is the learning and growth dimension
(D). Grandblue shall actively innovate and give full
play to the core competitiveness generated by
innovation in its gas and new energy supply business
to seize the market share in new energy sector. The
training and cultivation of advanced talents is a
prerequisite for the formation of core
competitiveness. On the one hand, the company must
implement various supporting measures, for example
expanding social insurance coverage rate (D5),
maintaining steady growth of investment in employee
guarantee and welfare, and upgrading the supporting
system to reduce employee turnover and attract
outstanding talents, and improving the proportion of
highly educated employees (D2); on the other hand,
it is necessary to improve the staff training coverage
rate (D1) in accordance with their aptitude, allocate
positions reasonably according to different job
requirements and the characteristics of the talents,
and improve the overall quality of employees.
Through talent reserve, the company can form a
stable R&D team to improve its R&D level and
greatly enhance the core competitiveness of the
company; moreover, the company can also form a
virtuous circle with technological innovation to
achieve synergy in its development by actively
fulfilling its responsibilities towards the employees.
The next is the financial dimension (A). Financial
performance is the foundation for the survival of the
company. The weighted average return on equity
(A1) and basic earnings per share (A4) of a company
are indicators based on which the shareholders and
investors make judgment on the company’s
management level. In addition to high-quality
services and quality assurance, companies should
strengthen the construction of internal control system
and hire high-level and experienced management
talents. What is more, companies should also
establish a reasonable performance evaluation
indicator system, and make objective judgments on
the company’s business achievements and strategy
implementation through more accurate quantitative
Application of Balanced Score Card in the Evaluation of High-Quality Development of Environmental Service Industry: A Case Study of
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and qualitative analysis, which will guide the
company’s business operations and improve the
company’s financial performance.
Finally, there is the social responsibility
dimension (E). Grandblue cannot neglect its social
responsibilities in order to achieve its strategic goals,
for instance actively paying the taxes (E4) and
improving the trust mechanism of the company.
Grandblue takes “three good and three sharing and
kind-hearted Grandblue people (good housekeeper in
the city, good model in the industry, good neighbors
in the community, and sharing of wealth, capabilities
and values)” as the core values, and internalizing it
social responsibilities, which has become
Grandblue’s unique core competitiveness and
distinctive brand characteristics in the environmental
service industry. The leading position of Grandblue
in the industry also requires the company to perform
its social responsibilities more actively, strengthen
the public trust in the company and create more value
for the society. In the future, the company should
extend the scope of its social responsibilities, engage
more in public welfare activities (E5), and strive to
become a trusted and well-reputed eco-environmental
service provider and a partner of the government and
the public.
6 CONCLUSIONS AND
ENLIGHTENS
This author has used the five-dimensional Balanced
Score Card (BSC) to construct a performance
evaluation indicator system for environmental service
companies in our country, and revised and adjusted
the evaluation indicator system of traditional
Balanced Score Card to make the evaluation system
more suitable for environmental service companies.
The author further explores the application of the
Balanced Score Card in promoting the high-quality
development of environmental service enterprises by
integrating the industry mission and business strategy
of the environmental service company. Seem from
the dimensional weights determined by the analytic
hierarchy process, environmental service companies
should focus on improving the relevant indicators
related to the internal process dimensions in their
future operations and development, for example,
further increase the R&D investment in the
environmental service industry, especially in water,
solid waste, hazardous pollutant treatment and other
fields, to ensure the efficient research and
development of environmental protection
technology, and enhance the market competitiveness
of enterprises through the improvement of
technological innovation capabilities; secondly,
enterprises should pay attention to the improvement
of customer dimension and learning and growth
dimension, and actively expand the business scope
and cultivate a group of superior talents with core
competitiveness; and finally, enterprises should not
forget their original aspirations and actively assume
social responsibilities while focusing on the growth
of corporate financial indicators, since fulfillment of
social responsibilities is no longer a cost but a part of
the competitiveness of the enterprises.
In a long period in the future, China’s green
production and lifestyles and concepts will be
increasingly popularized, and the proactive fiscal and
taxation policies and prudent monetary policies will
be implemented continuously to promote the
effective release of the market capacity of ecological
environmental governance, and the market potential
and vitality of the environmental service industry is
expected to be further exploited. The deep penetration
of emerging technologies such as big data, cloud
computing, and artificial intelligence will improve the
level of intelligence and efficiency of the
environmental service industry, as well as the supply
capacity of the entire industry.
ACKNOWLEDGMENTS
First of all, the first author is grateful for being the
chief expert in the 2021 National Major Project
(ongoing) “Research on Mechanism Innovation and
Practice Path of Deepening Mixed Ownership
Reform (21ZDA039)” of the National Office of
Philosophy and Social Sciences and the authors
thanks for the support from it. Secondly, The authors
thank the grant from the Chinese National Social
Science Fund Granted Project of China (Grant:
20VSZ006); Thirdly, the authors appreciate the
support from the project of “The Research on
Comprehensively Promoting Urban Digital
Transformation in Guangzhou (2022GZZK06)” of
the 14th Five-Year Plan for the Development of
Guangzhou Philosophy and Social Sciences in 2022,
and thank to the support of the 2022 project "ESG
(environment, social and governance) Report on the
impact of the Certified Public Accountants industry".
Moreover, the authors also want to give the
appreciation to the support of these two projects: the
2022 Industry research project of the Guangdong
Institute of Certified Public Accountants
"Guangdong-Hong Kong-Macao Greater Bay Area
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Accounting Firms to Promote ESG Information
Disclosure" and the 2023 Guangdong Institute of
Certified Public Accountants industry research
project (ongoing) "Comprehensive Evaluation of
Public Accountants".
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