Sustainability in Engineering & Construction Industry


Jabroyd’s Green building advisory

Solution 1. Green Building Certification

Green building certification services are designed to help the construction industry create buildings that are environmentally responsible, resource-efficient, and sustainable. These certification services are typically offered by third-party organizations that have established specific standards and guidelines for sustainable building practices.

The most popular green building certification programs include:

  1. LEED (Leadership in Energy and Environmental Design): Developed by the U.S. Green Building Council, this certification program offers different levels of certification based on the sustainability features of the building, including energy efficiency, water conservation, and indoor air quality.
  2. Indian Green Building Council (IGBC): IGBC is a non-profit organization that offers certification for green buildings in India. They have several rating systems, including LEED India, IGBC Green Homes, and IGBC Green Factories.
  3. Bureau of Energy Efficiency (BEE): BEE is a government agency that offers certification for energy-efficient buildings. They have a rating system called the Energy Conservation Building Code (ECBC), which is mandatory for all new commercial buildings in India.
  4. Green Business Certification Inc. (GBCI): GBCI offers LEED certification for buildings in India. LEED is a widely recognized green building rating system that assesses a building's sustainability performance in several areas, including energy efficiency, water conservation, and indoor environmental quality.
  5. Green Rating for Integrated Habitat Assessment (GRIHA): GRIHA is an indigenous rating system that assesses the environmental performance of buildings in India. It focuses on energy efficiency, water conservation, waste management, and indoor environmental quality.
  6. Eco-Housing Corporation: Eco-Housing Corporation is a green building certification agency that offers certification for buildings in India. They have a rating system called Eco-Housing Rating System (EHRS), which focuses on sustainable construction practices, energy efficiency, water conservation, and waste management.
Green Building Certification

Jabroyd’s approach towards green building certification for the clients. We follow the following steps to ensure our clients get green certification for their buildings on time.

Green Building Certification

Solution 2. Sustainable Design Consulting

Jabroyd’s Sustainable design consulting for engineering and construction industries involves the integration of environmental, social, and economic considerations in the design, construction, and operation of engineering projects. It seeks to reduce the environmental impact of engineering activities while enhancing the social and economic benefits.

Sustainable design consulting can help engineering firms to meet sustainability targets, reduce operational costs, and enhance their reputation.

Our services can include sustainability assessments, feasibility studies, environmental impact assessments, sustainable design strategies, and sustainable project management. Our consulting team will work with the engineering firm to identify areas for improvement and develop solutions that will reduce the environmental impact of their operations.

Some of the benefits of Jabroyd’s sustainable design consulting for engineering and construction industries include:

  1. Cost savings: Help engineering and construction firms to identify opportunities to reduce energy and water usage, which can result in significant cost savings.
  2. Improved reputation: Sustainability is becoming an increasingly important factor in the decision-making process of customers, employees, and investors. By adopting sustainable design practices, engineering firms can enhance their reputation and attract new business.
  3. Compliance: Many jurisdictions have regulations that require businesses to adopt sustainable practices. Sustainable design consulting can help engineering firms to comply with these regulations.
  4. Risk management: Help engineering and construction firms to identify and manage environmental risks, reducing the likelihood of costly litigation or reputational damage.

Jabroyd provides sustainable design consulting which is becoming increasingly important in the construction industry as more and more companies seek to reduce their environmental impact while also improving the efficiency and quality of their building projects. We provide expert advice and guidance on a range of issues related to sustainable design, including:

Sustainable Design Consulting

Jabroyd’s energy assessment strategies

Solution 3. Life Cycle Assessment (LCA)

Life Cycle Assessment (LCA) is a methodology used to assess the environmental impact of a product, process, or service throughout its life cycle. It is a systematic and comprehensive approach that considers all stages of the life cycle, from raw material extraction to end-of-life disposal. LCA is increasingly being used by the engineering and construction industries to assess the environmental impact of buildings, infrastructure projects, and construction materials.

The LCA process typically involves four main steps:

  1. Goal and scope definition: In this step, the purpose of the LCA is defined, including the system boundaries, functional unit, and impact categories to be assessed.
  2. Life cycle inventory: This step involves collecting data on the energy and material inputs and outputs at each stage of the life cycle, from raw material extraction to end-of-life disposal.
  3. Life cycle impact assessment: The data collected in the life cycle inventory is then used to assess the environmental impact of the product or process across a range of impact categories, such as climate change, acidification, eutrophication, and human toxicity.
  4. Interpretation: In the final step, the results of the LCA are interpreted and used to inform decision-making, such as identifying opportunities for improvement or comparing the environmental performance of different products or processes.
Life Cycle Assessment (LCA)

Solution 4. Environmental Impact Assessments (EIA)

Environmental Impact Assessments (EIA) are important tools used by the engineering and construction industries to evaluate the potential environmental impacts of their projects. EIAs provide a systematic and comprehensive analysis of the potential impacts of a project on the environment, including the air, water, and land.

The goal of an EIA is to identify potential environmental impacts that could result from a project, and then to propose mitigation measures that can reduce or eliminate those impacts. Jabroyd’s assessment process typically involves the following steps:

  1. Scoping: This involves identifying the scope of the EIA and determining the potential environmental impacts that need to be considered.
  2. Baseline data collection: This involves collecting data on the existing environmental conditions in the project area, including information on the local ecology, air quality, water quality, and noise levels.
  3. Impact assessment: This involves identifying the potential environmental impacts of the project, including direct and indirect impacts, short-term and long-term impacts, and cumulative impacts.
  4. Mitigation planning: This involves proposing measures that can reduce or eliminate the potential environmental impacts of the project. These measures may include changes to the project design, the use of alternative materials or technologies, or the implementation of environmental management plans.
  5. Monitoring and review: This involves monitoring the project during construction and operation to ensure that the proposed mitigation measures are effective, and reviewing the EIA periodically to ensure that it remains current and relevant.
Environmental Impact Assessments

Solution 5. Energy Management

Energy management services for engineering and construction industries involve the implementation of strategies to improve energy efficiency, reduce energy consumption, and lower costs. These services are designed to help businesses in the engineering and construction sectors to operate sustainably and reduce their carbon footprint.

Some of the energy management services that Jabroyd offered to engineering and construction industries include:

  1. Energy Auditing: This involves the assessment of energy usage in a facility to identify areas of improvement and potential savings. An energy audit can help to identify opportunities for energy savings and guide the development of an energy management plan.
  2. Energy Management Plans: This involves the development of a comprehensive energy management plan tailored to the specific needs of a business. The plan outlines strategies for improving energy efficiency, reducing energy consumption, and lowering costs.
  3. Energy Monitoring and Control Systems: These systems involve the installation of monitoring and control equipment to track energy consumption and identify areas of inefficiency. They can also be used to control energy usage and optimize energy efficiency.
  4. Renewable Energy Solutions: Renewable energy solutions, such as solar panels, wind turbines, and geothermal heating, can be integrated into engineering and construction projects to reduce reliance on traditional energy sources.
  5. Energy Efficiency Upgrades: Energy efficiency upgrades involve retrofitting existing buildings and systems with more energy-efficient equipment and technologies, such as LED lighting, HVAC systems, and insulation.
Energy Management

Jabroyd’s decarbonization & environmental management strategies

Solution 6. Sustainable Supply Chain Management

Sustainable supply chain management is crucial in the engineering and construction industries as it plays a significant role in reducing environmental impact, minimizing waste and enhancing the overall efficiency of operations. Here are some key strategies that Jabroyd implement to achieve sustainable supply chain management in these industries:

  1. Supplier selection: It is important to choose suppliers that are committed to sustainability and have environmental policies in place. This can include selecting suppliers who use sustainable materials and have environmentally-friendly manufacturing processes.
  2. Reduce waste: The construction industry is known for generating large amounts of waste. Implementing waste reduction strategies such as recycling and reusing materials can help to reduce the impact on the environment and save costs.
  3. Energy efficiency: Energy consumption is a significant contributor to carbon emissions. Implementing energy-efficient practices such as using energy-efficient equipment, LED lighting, and solar panels can significantly reduce energy usage and costs.
  4. Transportation: The transportation of materials and equipment can contribute significantly to carbon emissions. Choosing transport options that are environmentally friendly, such as using electric or hybrid vehicles, can help to reduce the impact on the environment.
  5. Tracking and monitoring: Regularly tracking and monitoring the supply chain can help to identify areas where improvements can be made. This can include tracking the carbon footprint of the supply chain and implementing measures to reduce it.
Sustainable Supply Chain Management

Solution 7. Environmental Compliance

Environmental compliance is a critical aspect of engineering and construction industries. Compliance with environmental regulations ensures that companies can minimize their impact on the environment, protect the health and safety of workers, and avoid legal penalties and reputational damage. Here are some of the key areas where environmental compliance is essential for engineering and construction companies:

  1. Air Quality: Construction sites can generate significant amounts of dust, which can impact air quality and create health hazards. Compliance with air quality regulations requires companies to monitor and control dust emissions and ensure that equipment and machinery meet emissions standards.
  2. Water Quality: Construction sites can also generate pollutants that can contaminate water sources, such as rivers and lakes. Compliance with water quality regulations requires companies to prevent spills and manage wastewater properly, including treating it before discharging it into the environment.
  3. Hazardous Waste: Many construction and engineering activities generate hazardous waste, such as chemicals and asbestos. Compliance with hazardous waste regulations requires companies to properly handle, store, transport, and dispose of these materials to prevent environmental contamination and health hazards.
  4. Noise Pollution: Construction sites can generate significant noise levels that can impact nearby communities. Compliance with noise pollution regulations requires companies to monitor and control noise emissions and implement noise mitigation measures, such as sound barriers.
  5. Endangered Species Protection: Some construction projects can impact endangered species habitats. Compliance with endangered species protection regulations requires companies to conduct surveys and studies to identify potential impacts and implement measures to protect these species.
Environmental Compliance

Solution 8. Carbon Footprint Analysis

The carbon footprint of the engineering and construction industries can be broken down into the following categories:

  1. Energy consumption: The use of energy to power machinery, equipment, and lighting in construction sites, offices, and manufacturing facilities is a significant contributor to GHG emissions.
  2. Materials production and transportation: The production and transportation of construction materials, such as concrete, steel, and glass, also contribute to GHG emissions. The transportation of materials to construction sites, as well as the disposal of construction waste, also has an impact.
  3. Building and infrastructure design: The design of buildings and infrastructure, including heating, ventilation, and air conditioning (HVAC) systems, lighting, and insulation, also affect the carbon footprint of these industries.
  4. Maintenance and operations: The maintenance and operation of buildings and infrastructure, including HVAC systems, lighting, and water usage, also contribute to GHG emissions.
  1. Carbon footprint assessment: Jabroyd helps clients calculate their greenhouse gas emissions across their entire value chain, including direct emissions from their operations (Scope 1), indirect emissions from their energy use (Scope 2), and upstream/downstream emissions from their suppliers and customers (Scope 3). Jabroyd uses industry-specific methodologies, such as the GHG Protocol or ISO 14064, to ensure the accuracy and comparability of the data.
  2. Carbon risk analysis: Jabroyd helps clients identify and quantify the potential financial, operational, and reputational risks associated with their carbon footprints, such as regulatory compliance, carbon taxes, supply chain disruptions, or stakeholder activism. Jabroyd also assists clients in developing risk mitigation strategies, such as energy efficiency measures, renewable energy sourcing, or carbon offsets.
  3. Carbon strategy development: Jabroyd help clients set ambitious and credible carbon reduction targets, align them with the Paris Agreement or other international frameworks, and develop a roadmap to achieve them. Jabroyd also advises clients on the best practices and innovations in carbon management, such as circular economy, life-cycle assessment, or green building design.
  4. Carbon reporting and verification: Jabroyd helps clients prepare and disclose their carbon footprint and carbon reduction efforts in a transparent, accurate, and reliable manner, using internationally recognized reporting standards, such as CDP, GRI, or SASB.
  5. Carbon market advisory: Jabroyd helps clients navigate the complex and evolving carbon markets, such as the EU Emissions Trading System, the California Cap-and-Trade Program, or the voluntary carbon offset market. Jabroyd advises clients on the risks and opportunities of participating in these markets, the eligibility and quality criteria for carbon credits, and the best strategies to achieve carbon neutrality or carbon positivity.
Carbon Footprint Analysis

Jabroyd’s green finance strategies and advance services

Solution 9. Sustainable Engineering Project advisory

Here are some recommendations from Jabroyd so that engineering and construction industries can follow for sustainable engineering:

  1. Reduce waste: Reduce the amount of waste generated during construction projects by incorporating sustainable practices such as recycling and reusing materials.
  2. Use renewable energy: Incorporate renewable energy sources like solar, wind, or hydro power in construction and engineering projects to reduce carbon footprint.
  3. Green building: Design and construct green buildings that minimize the impact on the environment by using sustainable materials, energy-efficient systems, and green roofs.
  4. Water conservation: Incorporate water-saving technologies such as low-flow faucets, rainwater harvesting systems, and drip irrigation to conserve water resources.
  5. Sustainable transportation: Encourage the use of sustainable transportation methods such as cycling, walking, or public transportation to reduce greenhouse gas emissions.
  6. Life-cycle analysis: Conduct a life-cycle analysis of construction projects to evaluate their environmental impact and develop strategies for reducing negative impacts.
  7. Education and training: Provide education and training programs to employees on sustainable engineering practices to create awareness and encourage sustainability in the workplace.

Jabroyd’s strategy for sustainable engineering advisory for engineering and construction industries.

Sustainable Engineering Project advisory

Solution 10. Green Investment Indicator™

Jabroyd’s Green Investment Indicator is a tool that measures the level of green investment in a particular industry or sector. For the engineering and construction industries, the Green Investment Indicator can be used to track the level of investment in sustainable and environmentally friendly practices, technologies and infrastructure.

The Green Investment Indicator for engineering and construction industries can be calculated by considering several factors such as:

  1. Investment in green technologies and products - This includes investments in renewable energy systems, green building materials and sustainable transportation technologies.
  2. Use of green practices - This includes the use of energy-efficient building design and construction methods, sustainable water management practices, and waste reduction and recycling strategies.
  3. Carbon footprint reduction - This includes the implementation of carbon reduction initiatives and programs aimed at reducing greenhouse gas emissions.
  4. Environmental compliance - This includes compliance with environmental regulations and standards such as LEED certification and GRIHA.
  5. Sustainability reporting - This includes the reporting of sustainability performance metrics such as energy usage, waste reduction, and carbon footprint.
Green Investment Indicator™